NOTE: PLEASE ADJUST SPINE TO PROPER WIDTH Europe Intel Corporation (UK) Ltd. Pipers Way Swindon Wiltshire SN3 1RJ UK Phone: England (44) 1793 403 000 France (33) 1 4694 7171 Germany (49) 89 99143 0 Italy (39) 02 575 441 Israel (972) 2 589 7111 Netherlands (31) 20 659 1800 Asia Pacific Intel Semiconductor Ltd. 32/F Two Pacific Place 88 Queensway, Central Hong Kong SAR Phone: (852) 2844-4555 The Communications and Embedded Products Source Book 2004 May 2004 Japan Intel Kabushiki Kaisha P.O. Box 300-8603 Tsukuba-gakuen 5-6 Tokodai, Tsukuba-shi Ibaraki-ken 300-2635 Japan Phone: (81) 298-47-8511 The Communications and Embedded Products Source Book Intel Corporation United States and Canada Intel Corporation Robert Noyce Building 2200 Mission College Boulevard P.O. Box 58119 Santa Clara, CA 95052-8119 USA Phone: (408) 765-8080 South America Intel Semicondutores do Brasil Av. Dr Chucri Zaidan, 940- 10th floor Market Place Tower II 04583-906 Sao Paulo-SP-Brasil Phone: (55) 11 3365 5500 Copyright (c) 2004 Intel Corporation Intel, and the Intel logo are registered trademarks of Intel Corporation. * Other names and brands may be claimed as the property of others. Printed in USA/2004/10K/MD/HP Order No. 272676-012 Covering the spectrum of Intel communications products Communications and Embedded Products Source Book W elcome to The Intel Communications and Embedded Products Sourcebook--2004, your complete reference guide for Intel's Communications and Embedded products. As you look through this sourcebook, you will note that all of the sections have been updated to include the latest released products. As this sourcebook will only be updated once a year,. we recommend you look on www.developer.intel.com website to get the very latest product information. Table of Contents PROCESSORS AND CHIPSETS Embedded Intel(R) Architecture Overview . . . . . . . . . . . . . . . . . . . . . . . . . 1 Intel(R) Personal Internet Client Architecture . . . . . . . . . . . . . . . . . . . . . .20 Embedded PXA Processor Overview . . . . . . . . . . . . . . . . . . . . . . . . . . .35 Intel XScale(R) Microarchitecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38 INTEL(R) FLASH MEMORY FOR WIRELESS APPLICATIONS Intel(R) Stacked Chip Scale Packaging Products . . . . . . . . . . . . . . . . . . . .41 1.8 Volt Intel StrataFlash(R) Wireless Memory (L18/L30) . . . . . . . . . . . .44 1.8 Volt Intel(R) Wireless Flash Memory (W18/W30) . . . . . . . . . . . . . . .44 Intel(R) Flash Memory Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46 INTEL(R) FLASH MEMORY FOR EMBEDDED APPLICATIONS 3 Volt Intel StrataFlash(R) Memory (J3 Family) . . . . . . . . . . . . . . . . . . . .49 Intel(R) Advanced+ Boot Block Flash Memory (C3/B3 Family) . . . . . . .50 3 Volt Synchronous Intel StrataFlash(R) Memory (K3/K18 Family) . . . .50 Intel(R) Flash Memory Development Tools . . . . . . . . . . . . . . . . . . . . . . . .51 I/O PRODUCTS Intel's I/O Processors (IOP) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55 NETWORK PROCESSORS Intel(R) IXP2xxx Network Processor Product Line . . . . . . . . . . . . . . . . . .61 Intel(R) IXP4xx Network Processor Product Line . . . . . . . . . . . . . . . . . . .67 NETWORKING PRODUCTS Workgroup and Enterprise Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . .73 ADVANCED ETHERNET CONTROLLERS--PCI BASED Intel's 10/100/1000 Ethernet Controllers (MAC/Phy) . . . . . . . . . . . . . .81 Intel's 10/100 Ethernet Controllers (MAC/Phy) . . . . . . . . . . . . . . . . . . .83 OPTICAL PRODUCTS Optical Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .85 TELECOM PRODUCTS Silicon Transmission Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111 Telecom Boards and Platforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .117 Telecom Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .121 Telecom Platforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .146 Telecom Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .152 BRIDGE PRODUCTS Transparent PCI-to-PCI Bridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163 Transparent PCI-X Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .164 Non-transparent PCI-to-PCI Bridges . . . . . . . . . . . . . . . . . . . . . . . . . . .165 PCI-X Serial ATA Host Disk Controller . . . . . . . . . . . . . . . . . . . . . . . .166 MICROCONTROLLERS MCS(R) 96 Microcontrollers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .167 MCS(R) 251 Microcontrollers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .174 MCS(R) 51 Microcontrollers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .177 Interconnect Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .179 SOFTWARE Software for EID Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .181 Intel(R) Embedded Chipset Device Driver support matrix . . . . . . . . . . .186 COMMUNICATIONS AND EMBEDDED DEVELOPER'S NETWORKS Intel(R) Communications Alliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .193 IntelTM Personal Client Architecture Developer Network . . . . . . . . . . .194 DEVELOPMENT TOOLS AND SUPPORT Comprehensive Support for Embedded Products . . . . . . . . . . . . . . . . .195 DISTRIBUTOR AND MANUFACTURING REPRESENTATIVES Distributor and Manufacturing Representatives . . . . . . . . . . . . . . . . . . 203 developer.intel.com/design/intarch Processors and Chipsets Embedded Intel Architecture (R) E mbedded Intel(R) Architecture (IA) enables embedded system designers to choose from multiple levels of integration, ranging from Intel(R) processors and chipsets to validated reference designs and highly integrated modular platforms. Whatever level of integration you choose, Intel and its world-class ecosystem provide the building blocks and tools you need to make your embedded solutions run better, faster and further. Based on emerging industry standards, IA processors are compatible with leading operating systems and supported by a broad third-party ecosystem. Modularity, scalability and standards-based design help customers accelerate time-to-market and reduce cost. Embedded Intel(R) Architecture chipsets provide a reliable platform for high-performance connected embedded applications with the performance, stability, and reliability customers require for embedded computing applications. Intel(R) chipsets and drivers can help reduce support costs, validation costs, and offer a variety of sell-up opportunities while still providing flexibility and performance at value pricing. Embedded IA reference designs and configurations support developers in a variety of market segments including communications, digital security surveillance, interactive clients, storage, learning solutions and print imaging. They may be used off-the-shelf as a market-ready design, or further customized to support additional value-added features. Intel provides a wide selection of development kits designed to minimize customers' development efforts and facilitate quick time-to-market. Kits include supporting documents and evaluation software from independent software vendors. Intel provides developers with software resources and tools to accelerate the successful development and delivery of IA-based solutions. Intel(R) Embedded Graphics Drivers specifically target the needs of embedded platform developers, offering an alternative to drivers designed for the desktop and mobile market segments. Implementation-ready boards and systems from Intel and third-party vendors are also available to meet your most stringent time-to-market requirements: www.intel.com/info/eia. Intel(R) XeonTM Processor he Intel(R) XeonTM processor with 512 KB L2 cache and the Low Voltage Intel(R) XeonTM processor are the solutions for applications that demand the highest levels of performance in the communications market segment. The Low Voltage Intel Xeon processor has the additional benefit of lower thermal design power, making it ideal for thermally-sensitive, spaceconstrained environments. Based on the Intel NetBurst(R) microarchitecture, they feature a 400 MHz and 533MHz system bus, 512KB L2 cache, dual-processor capability, and Hyper-Threading Technology which allows a single physical processor to process two threads of data simultaneously. Support for the Intel Xeon processor with 512 KB L2 cache includes 2.0, 2.4 and 2.8 GHz and 1.6, 2.0 and 2.4 GHz for the Low Voltage Intel Xeon processor. The Intel Xeon processor with 512 KB L2 cache and the Low Voltage Intel Xeon processor are validated with the Intel(R) E7500 and the Intel(R) E7501 chipsets. These chipset designs deliver maximized system bus, memory, and I/O bandwidth to enhance performance, scalability, and end-user productivity. T INTEL (R) XEON TM PROCESSOR WITH 512KB L2 CACHE PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TCAS PACKAGE RK80532KE072512 RK80532KE056512 RN80532KC041512 2.8 2.4 2.0 533 533 400 512K 512K 512K 74.0W 65.0W 58.0W 1.5V 1.5V 1.5V 75C 74C 70C 604-pin FC-mPGA-2p 604-pin FC-mPGA-2p 603-pinINT3 LOW VOLTAGE INTEL (R) XEON TM PROCESSOR PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TCASE PACKAGE RK80532EE056512 RK80532EC041512 RK80532EC025512 2.4 2.0 1.6 533 400 400 512K 512K 512K 40.0W 35.0W 30.0W 1.3V 1.3V 1.3V 81C 83C 81C 604-pin FC-mPGA-2p 604-pin FC-mPGA-2p 604-pin FC-mPGA-2p 1 2 Processors and Chipsets developer.intel.com/design/intarch Intel(R) Pentium(R) 4 Processor, Intel(R) Pentium(R) 4 Processor with Hyper-Threading (HT) Technology, and Intel(R) Pentium(R) 4 processor - M he Intel(R) Pentium(R) 4 processor family, with Intel NetBurst(R) microarchitecture, delivers performance to meet the growing demands of a new generation of leading-edge products, with scalability that helps minimize your total cost-of-ownership. These embedded processors provide the performance headroom needed to meet the heavy application demands of networking, communications and storage appliances, sophisticated interactive clients, industrial automation solutions, digital security surveillance platforms, and imaging devices. For reliable embedded platform designs, the Intel Pentium 4 processor is validated with the Intel(R) 845 chipset, the Intel(R) 845E chipset, the Intel(R) 845GV chipset, the Intel(R) 852GME chipset, and the Intel(R) 875P chipset. The Intel Pentium 4 processor - M is validated with the Intel 845E chipset. The Intel(R) Pentium(R) 4 Processor with HT Technology is validated with the Intel 875P chipset. Intel Pentium 4 processor-based platforms include integrated graphics, and support the highbandwidth I/O performance of USB 2.0 and Gigabit Ethernet networking. Rapid platform development is supported by the latest operating systems, applications and Intel(R) Architecture development tools, as well as a variety of validated reference designs from Intel. While incorporating Intel's most advanced embedded processor technologies, these processors are software-compatible with previous Intel(R) Architecture processors. T INTEL (R) PENTIUM (R) 4 PROCESSOR WITH HYPER-THREADING TECHNOLOGY PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TCASE PACKAGE RK80546PG0801M 3.0 800 1 MB 103W 1.25-1.4V* 5C-73.5C FC-HPGA4 478 *Variable VID voltage. The Intel Pentium 4 processor with HT Technology ships with different voltage settings. For more detailed information, please refer to our Web site at http://developer.intel.com/design/intarch/pentium4/pentium4.htm INTEL (R) PENTIUM (R) 4 PROCESSOR PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TCASE PACKAGE RK80532PCE072512 RK80532PC064512 RK80532PE056512 RK80532PC041512 2.8 2.6 2.4 2A 533 400 533 400 512K 512K 512K 512K 68.4W 62.6W 59.8W 54.3W 1.525V* 1.525V* 1.525V* 1.525V* 5C-75C 5C-72C 5C-71C 5C-69C 478 FC-PGA2 478 FC-PGA2 478 FC-PGA2 478 FC-PGA2 *Variable VID maximum voltage INTEL (R) PENTIUM (R) 4 PROCESSOR-M PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TJUNCTION (MAX) PACKAGE RH80532GC049512 RH80532GC029512 2.2 1.7 400 400 512K 512K 35.0W 30.0W 1.3V 1.3V 100C 100C FC-PGA 478 FC-PGA 478 Intel(R) Pentium(R) M Processor he Intel(R) Pentium(R) M processor is ideal for high-performance, low-power embedded computing, and is designed specifically for communications, transaction terminal, interactive clients, and industrial automation applications. An advanced microarchitecture enables the Pentium M processor to meet embedded computing demands today and in the future. While incorporating new features and improvements, the Intel Pentium M processor remains software-compatible with previous members of the Intel(R) microprocessor family. It supports uniprocessor designs, and delivers 3.2 GB of data per second into and out of the processor. The Intel Pentium M processor is validated with the Intel E7501 chipset, expanding the processor's platform with a great balance of performance and I/O bandwidth capability for embedded computing segments. This chipset provides up to 4 GB single- or dual-channel DDR200 memory, and features configurable optional Error Correcting Code (ECC) operation. T PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER VOLTAGE TJUNCTION PACKAGE RH80535GC0251M RJ80535GC0251M RJ80535LC0051M 1.6 1.6 1.1 400 400 400 1 MB 1 MB 1 MB 24.5W 24.5W 12W 1.484V 1.484V 1.180V 100C 100C 100C FC-PGA 478 FC-PGA 478 FC-PGA 478 developer.intel.com/design/intarch Processors and Chipsets Intel(R) Pentium(R) III Processor he Intel(R) Pentium(R) III processor is ideal for scalable high-performance applied computing applications. It is validated with multiple chipsets for maximum flexibility and scalability. Combined with the Intel(R) 840 chipset, the Intel Pentium III processor provides high performance and bandwidth including dual processing support and a second PCI bus. The Intel(R) 815, Intel(R) 815E, Intel(R) 810 and Intel(R) 810E2 chipsets utilize Intel(R) Graphics Technology, an integrated graphics platform which provides more stability, higher quality graphics and a reduced OEM bill of materials cost. The Intel(R) 440BX AGPset supports ECC for the highest data integrity and ISA for legacy I/O. The Intel Pentium III processor with 512K cache is validated with the Intel 815E chipset in uniprocessor mode as well as in dual-processing mode with chipsets from third-party manufacturers. T PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TJUNCTION PACKAGE RB80526PY600256 RB80526PY700256 RB80526PZ733256 RB80526PY850256 RB80526PZ866256 RB80526PY001256+ RB80526PZ001256 RK80530KZ012512 600 700 733 850 866 1.0GHz 1.0GHz 1.26GHz 100 100 133 100 133 100 133 133 256K 256K 256K 256K 256K 256K 256K 512K 19.6W 21.9W 22.8W 25.7W 26.1W 29.0W 29.0W 29.5W 1.75V 1.75V 1.75V 1.75V 1.75V 1.75V 1.75V 1.45V 82C 80C 80C 80C 80C 75C 75C 69C* 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 FC-PGA2 + For existing embedded applications using the Intel(R) 440BX chipset only. Drop ship only. * Tcase,not Tjunction Intel(R) Pentium(R) III Processor--Low Power he Intel(R) Pentium(R) III processor--Low Power brings the performance of the Pentium III processor to thermally sensitive and space-constrained embedded computing applications. It incorporates Intel's 0.18-micron manufacturing process, Dual Independent Bus (DIB) architecture and Advanced Transfer Cache, making it ideal for many performance-hungry, thermally sensitive, and space-constrained embedded computing applications such as data communications, telecommunications, industrial automation and transaction terminals. The Pentium III processor--Low Power also supports MMXTM technology and Internet Streaming SIMD extensions, enabling a more visual experience for the end user and allowing for new applications such as real-time video encoding and speech recognition. Dynamic execution of software instructions within the core processing unit optimizes the workload on the processor, increasing performance. This processor is validated with the Intel(R) 440BX AGPset and Intel(R) 440MX PCIset. T PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE RJ80530KZ933512+ RJ80530KZ800512+ KC80526GY850256 KC80526LY500256 KC80526NY400256 933 800 700 500 400 133 133 100 100 100 512K 512K 256k 256K 256K 12.2W 11.2W 16.1W 12.2W 10.1W 1.15V 1.15V 1.35V 1.35V 1.35V 0C-100C 0C-100C 0C-100C 0C-100C 0C-100C 479 FC-BGA 479 UFC-BGA 495 BGA 495 BGA 495 BGA + Supports dual processing when paired with third-party chipsets. Intel(R) Pentium(R) III processor at 850/700 MHz featuring Intel(R) SpeedStepTM technology (1.6V/1.35V respectively). Intel(R) Pentium(R) III Processor--Low Power Module he Intel(R) Pentium(R) III processor--Low Power module at 500 MHz provides a scalable solution for existing Intel(R) Pentium(R) II processor--Low Power module designs at 266 and 333 MHz, and is the first low-power module to support a 100 MHz system bus. The module includes the Intel Pentium III processor and northbridge of the 440BX AGPset. T 3 4 Processors and Chipsets developer.intel.com/design/intarch Intel(R) Pentium(R) II Processor--Low Power he Intel(R) Pentium(R) II processor--Low Power provides a superior, low-profile, surface-mount solution for applications combining high performance with low power. T PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TJUNCTION PACKAGE KC80524KX333256 KC80524KX266256 333 266 66 66 256K 256K 11.8W 9.8W 1.6V 1.6V 0C-100C 0C-100C 615 BGA 615 BGA Intel(R) Celeron(R) M Processor he Intel(R) Celeron(R) M processor is the next generation of value processors, providing exceptional performance combined with low power. Built on the Intel(R) 0.13-micron process, it is available at 1.3 GHz, in either FC-PGA or FC-BGA packages, with 512 KB of on-die L2 cache. These processors are ideal solutions for communications appliances such as media center appliances, network attached storage, Web pads and other applications with lower power envelopes and BOM requirements. It features a high-performance, low-power core, Advanced Transfer Cache architecture, dynamic execution, and is supported with the Intel(R) 855GME chipset T PRODUCT NUMBER CORE SPEED (GHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TJUNCTION PACKAGE RJ80535NC013512 RH80535NC013512 1.3 1.3 400 400 512 KB 512 KB 24.5W 24.5W 1.356V 1.356V 0-100C 0-100C 479 FC-BGA 478 FC-PGA Intel(R) Celeron(R) Processor he Intel(R) Celeron(R) processor family provides an excellent solution for cost-sensitive applications requiring great performance. It is compatible with Intel(R) 815E, 815, 810E2 and 810 chipsets; Intel(R) 82801E C-ICH; Intel 440BX AGPset and 440MX chipset; Intel 815E and 810E2 (1.2 GHz), 845, 845E; 845GV, 852GME, and 875P chipsets (2.0 and 2.5 GHz). T PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE+ TCASE PACKAGE RK80532RC060128 RK80532RC041128 RK80530RY009256 RB80526PX850128 RB80526RX733128 RB80526RX566128 FV80524RX433128 FV80524RX366128 FV80524RX300128 2.5 GHz 2.0 GHz 1.2 GHz 850 733 566 433 366 300A 400 400 100 100 66 66 66 66 66 128K 128K 256K 128K 128K 128K 128K 128K 128K 61.0W (TDP) 52.8W (TDP) 32.1W 26.7W 23.6W 19.2W 24.1W 21.7W 17.8W 1.525V 1.525V 1.5V 1.75V 1.75V 1.75V 2.0V 2.0V 2.0V 72C 5C-68C 70C 80C* 80C* 90C* 5C-85C 5C-85C 5C-85C FC-PGA2 478-pin FC-PGA2 478-pin 370 FC-PGA2 370 FC-PGA 370 FC-PGA 370 FC-PGA 370 PPGA 370 PPGA 370 PPGA * Max Tjunction + Variable VID maximum voltage. The Intel Celeron processor ships with different voltage settings. For detailed product specifications, please refer to http://developer.intel.com/design/celeron/datashts/251748.htm Intel(R) Celeron(R) Processor--Low Power and Ultra Low Voltage he Intel(R) Celeron(R) processor--Low Power and Ultra Low Voltage Intel(R) Celeron processor provide an exceptional value for thermally sensitive and space-constrained embedded computing applications by combining the optimal balance of cost, performance, and low power. The 400 MHz versions are validated with the Intel 440BX AGPset and Intel 440MX PCIset. The Low Power processor at 300 MHz is validated with the Intel 440MX PCIset. The Ultra Low Voltage processor at 650 MHz is validated with the Intel 440MX PCIset and Intel 815E chipsets. T INTEL (R) CELERON (R) PROCESSOR--LOW POWER PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE KC80526LY400A128 KC80526LL300128 400A 300 100 100 128K 128K 10.1W 5.7W 1.35V 1.10V 0C-100C 0C-100C 495 BGA 495 BGA developer.intel.com/design/intarch ULTRA LOW VOLTAGE INTEL CELERON (R) (R) Processors and Chipsets PROCESSOR PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) L2 CACHE THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE RJ80530VY650256 RJ80530VY400256 650 400 100 100 256K 256K 8.3W 4.2W 1.10V 0.95V 0C-100C 0C-100C 479 FC-BGA 479 FC-BGA Intel(R) Pentium(R) Processor he Intel(R) Pentium(R) processor is a valuable solution for embedded applications, featuring superscalar architecture, branch prediction, separate code and data caches, a high-performance floating-point unit, enhanced 64-bit data bus, data integrity features, performance monitoring, and execution tracing. Voltage Reduction Technology (VRT) is available with the 133 MHz version resulting in lower power consumption. T PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE A8050266166 A8050266133 A80502CSLM66133 A8050266100 166 133 133* 100 66 66 66 66 14.5W 11.2W 7.9W 10.1W 3.3V 3.3V 3.1V 3.3V 0C-70C 0C-70C 0C-85C 0C-70C 296 SPGA 296 SPGA 296 SPGA 296 SPGA * With Voltage Reduction Technology (VRT) Intel(R) Pentium(R) Processor with MMXTM Technology and Low-Power Intel(R) Pentium(R) Processor with MMXTM Technology rom point-of-sale (POS) terminals and retail kiosks to advanced networking equipment, Pentium(R) processors with MMXTM technology enable developers of embedded systems to step up to new levels of performance. To make these designs even easier and more flexible, Intel is making the performance advantages of MMX technology available at a choice of integration levels: Longer life cycle support for the 200 MHz and 233 MHz versions Low-power Pentium processors with MMX technology at 166 MHz and 266 MHz Synchronous DRAM [SDRAM] support with the Intel(R) 430TX PCIset F INTEL (R) PENTIUM (R) PROCESSOR WITH MMX TM TECHNOLOGY PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE FV8050366233 FV8050366200 233 200 66 66 17.0W 15.7W 2.8V 2.8V 0C-70C 0C-70C 296 PPGA 296 PPGA LOW-POWER INTEL (R) PENTIUM (R) PROCESSOR WITH MMX TM TECHNOLOGY PRODUCT NUMBER CORE SPEED (MHz) EXTERNAL BUS SPEED (MHz) THERMAL DESIGN POWER (MAX) VOLTAGE TCASE PACKAGE FV80503CSM66166 FV80503CSM66266 GC80503CSM66166 GC80503CSM66266 GC80503CS166EXT 166 266 166 266 166 66 66 66 66 66 4.5W 7.6W 4.1W 7.6W 4.1W 1.9V 1.9V 1.8V 2.0V 1.8V 0C-85C 0C-85C 0C-95C 0C-95C -40C-+115C 296 PPGA 296 PPGA 352 HL-PBGA 352 HL-PBGA 352 HL-PBGA 5 6 Processors and Chipsets developer.intel.com/design/intarch SL Enhanced Intel486TM Processor Overview he Intel486TM microprocessors provide 32-bit high performance in increasingly complex application environments. Current customers of the embedded Intel386TM processor can take advantage of the Intel486 processor architecture to extend the performance of their embedded designs. The Intel(R) SL Technology featured in the Intel486 processors, allow designers to build intelligent power management capabilities into hardware, making these capabilities independent of application software. Power management becomes an integral part of the system, regardless of what operating system or application is used. Power management is improved because Intel SL Technology protects the power management features from conflicting with other software. T FEATURES BENEFITS 32-bit address Memory Management Unit (MMU) High performance and compatibility. The Intel486TM MMU is compatible with the Intel386TM processor MMU Intel(R) SL Technology for intelligent power management capabilities Static design Automatic on-chip clock control Stop Clock, Stop Grant, Auto Halt Power Down, I/O Restart System Management Mode (SMM) Capabilities. Application-independent power management Energy efficiency. Intel SL Technology enables embedded system designs that exceed the Environmental Protection Agency's (EPA) Energy Star program guidelines without compromising performance Single-cycle instruction execution Speed and efficiency. Faster execution On-chip unified code and data cache Increased performance and efficiency. Reduces external memory fetches and decreases bus traffic Burst data bus mode Speed. Supports demanding data-intense applications by enabling fast cache fills JTAG boundary scan Diagnostics. Allows for in-system processor diagnostics Intel486TM SX Embedded Processor Overview he embedded Intel486TM SX processor provides high performance to 32-bit, embedded applications that do not require a floating-point unit. The embedded Intel486 SX processor is binary-compatible with the Intel386 and earlier Intel processors. Compared with the Intel386 processor, it provides faster execution of many commonly used instructions. It also provides the benefits of an integrated, 8-Kbyte, write-through cache for code and data. Its data bus can operate in burst mode, which provides up to 106 Mbps transfers for cache-line fills and instruction prefetches. Two component packages are available: a 196-lead Plastic Quad Flat Pack (PQFP), and a 168-Pin Grid Array (PGA), both available for 5 volt designs. Both products operate at CLK frequencies up to 33 MHz. T Ultra-Low-Power Intel486TM SX/GX Embedded Processor Overview he Ultra-Low-Power Intel486TM SX/GX embedded processors were developed specifically for the embedded market. They bring strong performance to low-cost, entry-level, embedded applications, where maximum energy efficiency is a high concern. These low-power technology improvements allow for new packaging options for the Intel486 processor. The Ultra-Low-Power Intel486 SX/GX processors come in the 176 lead Thin Quad Flat Pack (TQFP) package. This is the smallest, lowest profile Intel486 processor in the world. At 25.4 mm x 25.4 mm x 1.5 mm, the 176 lead TQFP package is the same size and thickness as a United States quarter (25 coin)! T developer.intel.com/design/intarch Processors and Chipsets FEATURES BENEFITS Dual Vcc design for standard 3.3V I/O VccP and lower core Vcc Efficiency. Ideal for battery-powered, portable applications Digital phase lock loop or DDL for minimum clock start-up time Maximizes power savings. The DDL takes a maximum of 8 input clock periods (240ns at 33 MHz) to synchronize, approximately 4,000 times faster than a standard Intel486TM processor with PLL design 32-bit external data path in the Ultra-Low-Power Intel486TM SX 16-bit external data path in the Ultra-Low-Power Intel486TM GX Performance and flexibility. Multiple system design options with true On-chip 8K unified code and data cache Increased performance and efficiency. Reduces access cycles to 32-bit architecture external memory Burst data bus capable of: 59 MB/sec transfer at 33 MHz, or DRAMs Cost reduction. Maintains system throughput with inexpensive DRAMs 176-lead TQFP and product packaging Compact. Ideal for the most compact designs. This is the smallest, lowest profile Intel486 processor in the world! IntelDX2TM and IntelDX4TM Processor Overview he IntelDX2TM and IntelDX4TM processors bring the highest level of performance in the Intel486 processor family, created by such combined features as speed-multiplying technology, on-chip integration of Level I unified code and data cache, memory management unit with paging, and floating-point unit. The clock-multiplier allows the processor to operate at frequencies higher than the external memory bus. The integer unit uses RISC design techniques to provide single-clock-cycle execution of common instructions and general-purpose registers for manipulating 32-bit addresses and data. The 8K on-chip Write-Through unified cache on the speed-doubled IntelDX2 processor, and the 16K on-chip Write-Back Enhanced unified cache on the speed-tripled IntelDX4 processor maintains the one-clock-per-instruction execution rate. Intel486 processors provide support for multiprocessing systems. Support for multi-level caches reduces bus utilization, allowing multiple Intel486 processors to share a single memory bus. For the highest levels of performance, choose the IntelDX2 and IntelDX4 processors. T FEATURES BENEFITS Complete 32-bit RISC-technology integer core and 32-bit external data bus Performance. For the most data-intense applications On-chip floating-point unit Performance. Highest Intel(R) x86 integration reduces inter-chip communication IntelDX2TM processor speed doubling: 66 MHz core speed using 33 MHz bus clock at 5V 50 MHz core speed using 25 MHz bus clock at 3.3V IntelDX4TM processor speed tripling: 100 MHz core speed using 33 MHz bus clock at 3.3V Performance and flexibility. Multiple frequency choices provide greater flexibility in system designs The IntelDX4 processor supports both speed-doubling and speed-tripling technology Burst data bus: 80Mbps max. burst bus cycle at 25 MHz 106Mbps max. burst bus cycle at 33 MHz Performance. For instruction prefetch and for filling the internal cache INTEL486 PRODUCT TM PROCESSOR SPEED I/O (MHz) PINS INTEL486TM PROCESSOR FAMILY 80486DX4 100 0 32-bit bus 80486DX2 50, 66 0 32-bit bus 80486SX 33 0 32-bit bus 80486SXSF 33 0 32-bit bus 80486GXSF 33 0 16-bit bus (not all speeds are available in all packages) SERIAL PORTS SYS TIMERS/ STATIC MGT A20 DMA CTRS DESIGN MODE GATE CHAN WDT CORE BURST CHIP INTERRUPT DRAM SPEED DTAT INPUT SELECT CLR REFRESH MULTI CACHE BUS LEVELS VOLTAGE PACKAGE TEMP NO 0 YES YES NO 0 NO 0 NO NO 3X CLK NO 0 YES YES NO 0 NO 0 NO NO NO 0 YES YES NO 0 NO 0 NO NO NO 0 YES YES NO 0 NO 0 NO NO 0 YES YES NO 0 NO 0 NO CMOS 3.3V 2X CLK 16Kb, YES WB 8Kb, WT YES CMOS 5.0V-3.3V N/A 8Kb, WT YES CMOS 5.0V NO N/A 8Kb, WT YES CMOS 3.3V A168, FC208 A168, SB208 A168, KU196 FA176 NO N/A 8Kb, WT YES CMOS 3.3V FA176 C C C C C 7 8 Processors and Chipsets developer.intel.com/design/intarch Intel386TM Processor Overview or over 10 years, Intel386 processors have provided the computer industry with reliability and high performance. Initially built as the host CPU for PCs, these processors are still readily available and continue to provide 32-bit processing power for embedded applications. Thanks to the Intel386 processor core design, the new pin-for-pin compatible family enables higher performance, extended temperatures and lower power and voltage capabilities for embedded systems than was previously possible. F FEATURES BENEFITS 32-bit CPU Performance. Performance processing at 5 to 10 MIPS 80386 instruction set Compatibility. Compatibility with all PC applications, development and operating system software 16 MB-4 GB addressability Expandable. Head room for software growth for future system product enhancements Protected mode Security. Ability to develop large, OS-based embedded system; provides restricted access privileges SL enhanced SMM support Capabilities. Application-independent power management Intel386TM EX Integrated Processor Overview he Intel386TM EX processor provides high integration and PC compatibility for embedded applications. Intel based the EX on the same static Intel386 processor 32-bit core, and incorporated PC-compatible and traditional embedded peripherals to provide a high-performance, extended temperature, low power, low voltage and an integrated embedded solution. T FEATURES BENEFITS PC-compatible peripherals (8254, 8259A, enhanced 8237A) Portability. Easy portability of application software developed on a PC 16450-compatible serial ports Compatibility. Standard protocol familiar and well supported within the industry DMA-supported serial transfers Efficient. Reduces CPU load Dynamic bus sizing enables interface to 8- or 16-bit peripherals Reduces costs. Lowers total system cost Synchronous serial I/O Boosts rates. Provides higher data transfer rates (baud rate generator on-chip vs. standard Intel386TM processors) JTAG boundary scan INTEL386 PRODUCT TM Diagnostics. Allows for in-system processor diagnostics PROCESSOR (not all speeds are available in all packages) SYS SPEED I/O SERIAL TIMERS/ STATIC MGT A20 ADD DMA CLK PWR CHIP INTERRUPT DRAM INPUT (MHz) PINS PORTS CTRS DESIGN MODE GATE SPACE CHAN WDT GEN OPTIONS SELECT CTLR REFRESH LEVELS INTEL386 PROCESSOR FAMILY 80386SX 20, 25, 0 NO 33 80386DX 20, 25, 0 NO 33 80386SXTA 25, 33, 0 NO 40 INTEL386TM INTEGRATED PROCESSOR FAMILY 80386EXTB 25 24 3 VOLTAGE PACKAGE TEMP TM 0 NO NO NO 16M 0 NO NO NO 0 NO NO TTL 5.0V NG100 C A132, NG132 KU100 C KU132, FA144 KU132, FA144 KU132, FA144 E 0 NO NO NO 4G 0 NO NO NO 0 NO NO TTL 5.0V 0 YES NO NO 16M 0 NO NO NO 0 NO NO TTL 5.0V 3 YES YES YES 64M 2 YES NO PD, I 8 YES (8259A) YES (8259A) YES (8259A) YES TTL 3.3V YES TTL 5.0V YES TTL 5.0V 80386EXTC 25 24 3 3 YES YES YES 64M 2 YES NO PD, I 8 80386EXTC 33 24 3 3 YES YES YES 64M 2 YES NO PD, I 8 C, E E E developer.intel.com/design/intarch Processors and Chipsets Intel386TM Processor Development Tools ecause the Intel386 processor is a member of the Intel architecture family, the leading architecture used in PCs, a broad range of familiar, low-cost development tools are readily available. Growth and competition in the PC industry have produced tools that are time-proven and run on the PC, which eliminates the need for expensive workstation-based development tools. For example, the Microsoft* and Borland* development tools, used to create more than 50,000 PC applications, can now be used in an embedded environment. For more information about development tools support, refer to the Tools section in this catalog or contact your Intel sales representative or visit our Web site at http://appzone.intel.com/toolcatalog/. B Intel(R) 186 Processor Overview or the Intel(R) 186 standard processor family, the numbers tell the story: more than 10,000 design wins and 100 million units have shipped in its 16 years of production. With the Intel 186 family of products, you can determine the cost and performance requirements for your embedded design and then choose from a wide variety of options: CHMOS, 8- and 16-bit external bus versions and available in commercial/extended temperatures. The 80C186/188XL family is pin-for-pin compatible with the 80186/188 family and adds an enhanced feature set. The high-performance CHMOS process allows the 80C186/188XL to run at twice the clock rate of the HMOS 80186/188 while consuming less than one-fourth the power. F FEATURES BENEFITS 16-bit static CPU (XL operating at 25 MHz) Performance. Performance >1 MIP 8086 instruction set Development. Use PC for easier software development and debugging 1-MB addressing Memory. Large address space (for programs and data). Can also use bank switching for > 1 MB On-chip peripherals Integration. High x86 integration enables low-cost and low-chip-count designs 8-bit external bus available Flexibility. Lower memory and system cost Multiple packaging options 68L (LCC, PLCC, PGA) and 80L (QFP, SQFP) Packaging. Supports varied system requirements CMOS inputs and outputs Noise. Improved noise margins Intel(R) 186 Enhanced Processor Overview n 1990, Intel designed these processors to meet performance, integration and power consumption needs. Intel created a modular core architecture in order to easily proliferate the family. The 80C18xEX (EA/EB/EC) family features an improved 1.0-micron static core design, and all of the enhanced products run at 25 MHz. In addition, the Ex family products incorporate new features (serial channels, DRAM refresh control and power management) to provide more functionality. The Ex core has also been enhanced to run at 3 volts. I FEATURES BENEFITS 3-stage power management unit Power management. Efficient power consumption 3V versions Low power. Enables portable, battery-powered designs Watchdog timer (EC only) High integration. Ensures system integrity in hostile environments Serial channels (EB/EC only) Avoid interrupt latency. Facilitates interprocessor communication and modem interface I/O ports (EB/EC only) Communication. Ability to communicate externally via standard protocols 9 10 Processors and Chipsets INTEL (R) PRODUCT 186 developer.intel.com/design/intarch PROCESSOR (not all speeds are available in all packages) SYS SPEED I/O SERIAL TIMERS/ STATIC MGT A20 ADD DMA CLK PWR CHIP INTERRUPT DRAM INPUT (MHz) PINS PORTS CTRS DESIGN MODE GATE SPACE CHAN WDT GEN OPTIONS SELECT CTLR REFRESH LEVELS VOLTAGE PACKAGE TEMP INTEL STANDARD PRODUCT FAMILY 80C186XL/188XL 12, 20 0 NO 3 YES NO NO 1M 2 NO YES PS 13 YES YES TTL 5.0V 80C186XL/188XL NO 3 YES NO NO 1M 2 NO YES PS 13 YES YES TTL 5.OV INTEL(R) ENHANCED PRODUCT FAMILY 80C186EA/188EA 25 0 NO 80C186EA/188EA 13, 20 0 NO 80L186EA/188EA 13 0 NO 80C186EB/188EB1 25 16 2 3 3 3 3 YES YES YES YES NO NO NO NO NO NO NO NO 1M 1M 1M 1M 2 2 2 O NO NO NO NO YES YES YES YES PS, PD, I PS, PD, I PS, PD, I PD, I 13 13 13 10 YES YES YES YES YES YES YES YES CMOS CMOS CMOS CMOS 5 0V 5.0V 3.0V 5.0V 80C186EB/188EB 13, 20 16 2 3 YES NO NO 1M O NO YES PD, I 10 YES YES CMOS 5.0V 80L186EB/188EB 16 16 2 3 YES NO NO 1M O NO YES PD, I 10 YES YES CMOS 3.3V 80L186EB/188EB 13 16 2 3 YES NO N0 1M O NO YES PD, I 10 YES YES CMOS 3.0V 80C186EC/188E 25 22 2 3 YES NO NO 1M 4 YES YES PS, PD, I 10 YES (8259A) YES CMOS 5.0V 80C186EC/188EC 13, 20 22 2 3 YES NO NO 1M 4 YES YES PS, PD, I 10 YES (8259A) YES CMOS 5.0V 80L186EC/188EC 16 22 2 3 YES NO NO 1M 4 YES YES PS, PD, I 10 YES (8259A) YES CMOS 3.3V 80L186EC/188EC 13 22 2 3 YES NO NO 1M 4 YES YES PS, PD, I 10 YES (82SgA) YES CMOS 3.0V (R) 25 0 A68, N68, R68, S80, SB80 A68, N68, R68, S80, SB80 C, E, N68 N68 N68 N84, S80, SB80 N84, S80, SB80 N84, S80, SB80 N84, S80, SB80 KU100, CS100, SB100 KU100, S100, SB100 KU100, S100, SB100 KU100, S100, SB100 C E E C C E C E C E C E PACKAGING: A = Ceramic Pin Grid Array (PGA), KU = Plastic Quad Flat Pack (PQFP), R = Ceramic Leadless Chip Carrier (LCC), N = Plastic Leaded Chip Carrier (PLCC), NG = Plastic Quad Flat Pack (PQFP), S = Quad Flat Pack (QFP-EIAJ), SB = Shrink Quad Flat Pack (SQFP-EIAJ), FA = Thin Quad Flat Pack (TQFP), FC = Shrink Quad Flat Pack with heat spreader (PQ2 PowerQuad), X = SmartDie product A 168ld 132ld KU 196ld 132ld R Intel486TM Processor Intel386TM Processor Intel186(R) Processor 68ld 100ld 68ld N NG S SB 80ld, 100ld (EC) 80ld, 100ld (EC) 100ld, 132ld (DX) 68ld, 84ld (EB) FA 176ld 144ld FC 208ld POWER OPTIONS PD = Power Down, PS = Power Save, I = Idle TEMPERATURE RANGES: (Degrees Centigrade) C = Commercial (0C to +70C), E = Extended (-40C to +85C). Additional product information is always available via the World Wide Web Intel(R) 186 Processor Development Tools here are many tools available for developing embedded systems with the Intel 186 product family. In fact, Intel 186 processors are compatible with Intel386 processor development tools and the PC architecture. This compatibility provides access to a wide array of familiar, low-cost development tools. Growth and competition in the PC industry have produced tools that are time-proven and run on your PC, which eliminates the need for expensive workstation-based development tools. For example, the Microsoft and Borland development tools, used to create more than 50,000 PC applications, can now be used in an embedded environment. For more information about development tools support, refer to the Tools section in this catalog or contact your Intel sales representative or visit our Web site at http://appzone.intel.com/toolcatalog/. T developer.intel.com/design/intarch EMBEDDED INTEL (R) ARCHITECTURE Processors and Chipsets CHIPSETS Intel(R) 875P Chipset he Intel(R) 875P chipset-based platform delivers performance and high scalability for today's cutting-edge e-Business and e-Home applications while maintaining a balance of price and performance for embedded computing solutions. It is designed, validated and optimized for Intel Pentium 4 processors with Intel NetBurst(R) microarchitecture, including the Intel(R) Pentium(R) 4 Processor with Hyper-Threading (HT) Technology. The Intel 875P chipset consists of the Intel(R) 82875P Memory Controller Hub (MCH) and the Intel(R) 6300ESB I/O Controller Hub (ICH) to provide exceptional graphics bandwidth and support the latest graphics controllers needed to meet the demands of today's communications and embedded computing market segments. Communication Streaming Architecture (CSA), featuring a Dedicated Network Bus (DNB), enables real Gigabit Ethernet performance by eliminating the PCI bottleneck and providing a direct path to system memory. An optional Intel(R) 82547 Gigabit Ethernet Controller readily connects to CSA. Advanced packaging technology and industry-leading electrical design innovations deliver long-term system reliability over wide operating conditions. T PRODUCT PRODUCT CODE PACKAGE FEATURE Intel(R) 82875P Memory Controller Hub 82875P 1005 FC-BGA Intel(R) 6300ESB I/O Controller Hub FW80001ESB 689 BGA 400/533/800 MHz system bus DDR266/333/400 SDRAM with ECC AGP 8X graphics interface CSA network interface PCI 32/33 and PCI-X 64/66 Serial and parallel ATA interfaces USB 2.0 and serial ports AC'97 support Watchdog timer, 37 GPIOs Intel(R) 852GME Chipset he Intel(R) 852GME Chipset for Embedded Computing is an optimized integrated graphics solution featuring low-power design. The 400/533 MHz system bus and integrated 32-bit 3D core at 133 MHz (at 533 MHz system bus) deliver a high-bandwidth connection between the processor and the platform. It supports the Intel(R) Pentium(R) 4 and the Intel(R) Celeron(R) processors with Intel NetBurst(R) microarchitecture, and supports up to 2 GB of DDR266/333 system memory, providing the performance and high scalability required for today's cutting-edge e-Business and e-Home applications. The Intel 852GME chipset is part of Intel's comprehensive validation process that enables fast deployment of next-generation platforms to maximize competitive advantage while minimizing development risks. It features integrated graphics utilizing Intel(R) Extreme Graphics 2 technology, enhanced sound quality and AGP 4X support, along with advanced packaging technology and industry-leading electrical design innovations to deliver long-term system reliability over wide operating conditions. Three USB host controllers provide high-performance peripherals with 480 Mbps of bandwidth, while enabling support for up to six USB 2.0 ports. This results in a significant increase over previous integrated 1-4 port hubs at 12 Mbps. T PRODUCT NAME PRODUCT CODE PACKAGING FEATURES 852GME Memory Controller Hub (GMCH) RG82852GME 732 micro-FC-BGA I/O Controller Hub 4 FW82801DB 421 micro-BGA DDR266/333 Memory Integrated graphics support 400 MHz or 533 MHz System Bus Direct connection to MCH with Intel(R) Accelerated Hub Architecture Supports 32-bit PCI IDE controllers with ATA/100 Six USB ports with USB 2.0 support AC'97 controller with 20-bit audio support Integrated LAN connect interface 11 12 Processors and Chipsets developer.intel.com/design/intarch Intel(R) 855GME Chipset he Intel(R) 855GME Chipset for Embedded Computing is an optimized integrated graphics solution featuring low-power design. A 400 MHz system bus and integrated 32-bit 3D core at 133 MHz, support the Intel(R) Pentium(R) M processor and associated microarchitecture and up to 2 GB of DDR333 system memory, providing the performance and high scalability required for today's cutting-edge embedded computing applications. The Intel 855GME chipset is part of Intel's comprehensive validation process that enables fast deployment of next-generation platforms to maximize competitive advantage while minimizing development risks. It features integrated graphics utilizing Intel(R) Extreme Graphics 2 technology and AGP 4X support, along with advanced packaging technology and industry-leading electrical design innovations to deliver long-term system reliability over wide operating conditions. Three USB host controllers provide high-performance peripherals with 480 Mbps of bandwidth, while enabling support for up to six USB 2.0 ports. Intel(R) Application Accelerator software provides additional performance over native ATA drivers by improving I/O transfer rates and enabling faster O/S load time, resulting in accelerated boot times. Communication and Network Riser (CNR) offers flexibility in system configuration with a baseline feature set that can be upgraded with an audio card, modem card, or network card. Error Correcting Code (ECC) support is available in integrated graphics mode only. T PRODUCT PRODUCT CODE PACKAGE FEATURES 855GME Memory Controller Hub (GMCH) RG82855GME 732 micro-FC-BGA I/O Controller Hub 4 FW82801DB 421 micro-BGA 400 MHz system bus DDR333 Memory Integrated graphics support Direct connection to MCH with Intel(R) Accelerated Hub Architecture Supports 32-bit PCI IDE controllers with ATA/100 Six USB ports with USB 2.0 support AC'97 controller with 20-bit audio support Integrated LAN connect interface Intel(R) 6300ESB I/O Controller Hub he Intel(R) 6300ESB I/O Controller Hub (ICH) supports development of next-generation solutions for the communications and general embedded market segments. It is designed for use with the Intel(R) 875P Memory Controller Hub (MCH) and the Intel(R) 855GME Graphics Memory Controller Hub (GMCH), providing board designers with a variety of platform options to address price, performance and packaging needs. The Intel 6300ESB ICH can be designed into platforms with processors ranging from the Intel(R) Pentium(R) M processor to Intel(R) Celeron(R) and Intel(R) Pentium(R) 4 processors, in socket 478 packaging. PSB configurations are available at 400 MHz, 533 MHz and 800 MHz. The 6300ESB ICH is a derivative of the Intel(R) 82801EB (ICH5) and builds upon the ICH5 design by improving bandwidth via PCI-X 64/66 and PCI 32/33 support. It also provides port 60/64 emulation, dual 16500-compatible UARTs for overall BOM cost savings, a two-stage watchdog timer, and 37 GPIOs including four High Drive GPIOs. The Intel 6300ESB ICH and associated drivers help reduce support and validation costs, and offer a variety of sell-up opportunities while still providing flexibility and performance at value pricing. Flexible memory support allows for 200, 266, 333 or 400 MHz DDR SDRAM to be designed in, enabling cost-effective, high-volume memory. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) 6300ESB I/O Controller Hub FWE6300ESB 689 BGA Direct connection to the GMCH via Hublink 1.5 Designed for use with the Intel(R) 875P MCH and Intel(R) 855GME GMCH PCI-X 64/66 and PCI 32/33 support Dual integrated UARTS PATA/100 and SATA/150 support Four USB 2.0 ports developer.intel.com/design/intarch Processors and Chipsets Intel(R) E7500 and E7501 Chipsets he Intel(R) E7500 chipset and E7501 chipset are validated with the Intel Xeon processor with 512 KB L2 Cache and the Low Voltage Intel Xeon processor. This chipset design delivers maximized system bus, memory, and I/O bandwidth to enhance performance, scalability, and end-user productivity. ECC protection, coupled with high data transfer rates, supports I/O segments with greater reliability and faster access to high-speed networks. Four DIMMs per channel (eight DIMMs total) allow a maximum memory configuration of 16 GB. Single or dual DDR200 or DDR266 memory channels are supported for up to 4.3 GB/s of memory bandwidth. Up to three 64-bit PCI/PCI-X Controller Hub 2.0 (P64H2) devices can connect to the MCH, each providing a maximum bandwidth greater than 1 GB/s. Each P64H2 contains two independent 64-bit, 133 MHz PCI-X interfaces and two PCI hot-plug controllers. T INTEL (R) E7500 CHIPSET PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) E7500 Memory Controller Hub (MCH) RGEE7500PL 1005 FC-BGA Integrated Controller Hub (ICH3-S) 64-bit PCI/PCI-X Controller (P64H2) FW82801CA RG82870P2 421 BGA 567 FC-BGA 400 MHz System Bus Advanced Platform RASUM, ECC 64-bit PCI/PCI-X Controller Hub-2 allows up to 6 PCI-X buses per system Dual-channel DDR200 memory interface for up to 3.2 GB/s memory bandwidth Uni or dual-processor capable ECC, parity for application critical environments INTEL (R) E7501 CHIPSET PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) E7501 Memory Controller Hub (MCH) RGE7501MC 1005 FC-BGA Integrated Controller Hub (ICH3-S) 64-bit PCI/PCI-X Controller (P64H2) FW82801CA RG82870P2 421 BGA 567 FC-BGA 400/533 MHz System Bus Advanced Platform RASUM 64-bit PCI/PCI-X Controller Hub-2 allows up to 6 PCI-X buses per system Dual-channel DDR266 memory interface for up to 4.3 GB/s memory bandwidth Uni or dual-processor capable ECC, parity for application critical environments Intel(R) 845, Intel(R) 845E and Intel(R) 845GV Chipsets he Intel(R) 845 chipset family is designed, validated, and optimized for the Intel Pentium 4 processor with Intel NetBurst microarchitecture, using proven and established building blocks. Intel 845 chipset-based platforms extend the capabilities of the Intel Pentium 4 processor with an excellent balance of price and performance for embedded computing segments. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) 82845 Memory Controller Hub (MCH) RG82845 593 FC-BGA Intel(R) 82845E Memory Controller Hub (MCH) RG82845E 593 FC-BGA Intel(R) 82845GV Memory Controller Hub (GMCH) RG82845GV 760 FC-BGA I/O Controller Hub 2 (ICH-2) for 845 MCH only FW82801BA 360 EGBA I/O Controller Hub 4 (ICH-4) for 845E and 845GV only FW82801DB 421 BGA 400 MHz System Bus SDR PC133, 3GB max DDR1600/2100 Memory, 2GB max AGP4X interface enables over 1 GB/s of graphics bandwidth ECC, parity for application critical environments PCI 2.2 400/533 MHz System Bus DDR200/266 Memory, 2GB max AGP4X interface enables over 1GB/s of graphics bandwidth ECC, parity for application critical environments PCI 2.2 400/533 MHz System Bus SDR PC133, 2GB max DDR200/266/333 Memory, 2GB max; 2 DIMM, No ECC Integrated Intel(R) Extreme Graphics Direct connection to Intel 82845 MCH with Intel(R) Accelerated Hub Architecture Supports 32-bit PCI IDE controllers with ATA/100 Four USB ports, USB 1.1 compliant AC'97 controller with 6-channel sound Integrated LAN connect interface Direct connection to Intel 82845E and Intel 82845GV MCH with Intel(R) Accelerated Hub Architecture Supports 32-bit PCI IDE controllers with ATA/100 Six USB ports with USB 2.0 support AC'97 controller with 6-channel sound Integrated LAN connect interface 13 14 Processors and Chipsets developer.intel.com/design/intarch Intel(R) 82801E C-ICH he Intel(R) 82801E C-I/O Controller Hub (ICH) is specifically suited for use within the communications and network appliance market segments. It is designed for use with a variety of Graphics Memory Controller Hubs (GMCHs) providing board designers with outstanding scalability in a single board design. The Intel 82801E C-ICH can be designed into embedded computing platforms with processors that range from the Intel Pentium III to Intel Celeron processors. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel 82801E Communications I/O Controller Hub (C-ICH) FW82801E 421 BGA Direct connection to the GMCH with Intel(R) Accelerated Hub Architecture Designed for use with the Intel(R) 810, Intel(R) 815E, and Intel(R) 815 GMCHs Dual Integrated MACs and Dual Integrated UARTs for overall system cost savings Supports 32-bit PCI IDE Controllers with ATA/100 Two USB ports (R) Intel(R) 840 Chipset he Intel 840 chipset is validated with the Intel Pentium III processor and features support for 100 or 133 MHz system bus speeds, single- or dual-processor configuration, ECC on memory, high memory bandwidth, large memory capacity, AGP 4X, and a second PCI bus (64-bit/66 MHz) for high-performance I/O. T PRODUCT PRODUCT CODE PACKAGE FEATURES Memory Control Hub (MCH) FW82840 544 BGA I/O Control Hub (ICH) FW82801AA 241 BGA 4 MB Firmware Hub* Contact your local Intel field sales representative for product availability 8 MB Firmware Hub* N82802AB PLCC E82802AC N82802AC TSOP PLCC Dual processing capability Dual memory channels for up to 3.2Gbps memory bandwidth 16-bit wide implementation of accelerated hub architecture for high-performance concurrent PCI I/O with the P64H AGP 4X port Direct connection to the MCH with Intel(R) Accelerated Hub Architecture Supports 32-bit PCI IDE controllers Dual USB ports System BIOS and video BIOS Intel Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols System BIOS and video BIOS Intel(R) Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols *Must be purchased as separate component Optional components of the Intel(R) 840 chipset: 64-bit PCI Controller Hub (P64H) FW82806AA 241 BGA RDRAM Memory Repeater Hub (MRH-R) 324 BGA FW82803AA Supports 64-bit PCI slots at speeds of either 33 or 66 MHz Connects directly to MCH using Intel Accelerated Hub Architecture Dedicated path for high-performance I/O Converts each memory channel into two for expanded memory capacity developer.intel.com/design/intarch Processors and Chipsets Intel(R) 815 and Intel(R) 815E Chipsets he Intel 815 and Intel 815E chipsets provide the highest degree of processor scalability supporting the Intel Celeron processor at 566 MHz to the Intel Pentium III processor with 512K cache at 1.26 GHz. The chipsets support processor side bus speeds of 66, 100 and 133 MHz. The Intel 815 and Intel 815E chipsets also provide graphics scalability through the use of Intel(R) graphics, an add-in Graphics Performance Accelerator (GPA) card, or an add-in AGP 4X card. T PRODUCT PRODUCT CODE PACKAGE FEATURES Graphics and AGP Memory Controller Hub (GMCH) FW82815 544 BGA I/O Control Hub (ICH) for Intel(R) 815 FW82801AA 241 BGA I/O Control Hub 2 (ICH2) for Intel(R) 815E FW82801BA 360 EBGA 4 MB Firmware Hub* Contact your local Intel field sales representative for product availability 8 MB Firmware Hub* N82802AB PLCC Intel(R) Accelerated Hub Architecture 133/100/66 MHz PSB PC133/100 SDRAM, No ECC Integrated scalable graphics Intel(R) 3D graphics with direct AGP Overall BOM cost savings External AGP port with the option for up to 4 MB of dedicated display cache video memory Direct connection to the GMCH with Intel Accelerated Hub Architecture Supports 32-bit PCI IDE Controllers with ATA66 Dual USB ports AC'97 controller with 4 Channel Sound Direct connection to the GMCH with Intel Accelerated Hub Architecture Supports 32-bit PCI IDE Controllers with ATA100 Four USB ports AC'97 controller with 6-Channel Sound Integrated MAC System BIOS and video BIOS Intel(R) Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols E82802AC N82802AC TSOP PLCC System BIOS and video BIOS Intel Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols *Must be purchased as separate component Intel(R) 810 and Intel(R) 810E2 Chipsets he Intel 810 chipset provides processor scalability supporting the Intel Celeron processor at 300 MHz to the Intel Pentium III processor at 800 MHz and above, with processor side bus speeds of 66 and 100 MHz. The Intel 810E2 chipset adds support for 133 MHz processor side bus speed. These chipsets optimize system memory arbitration, similar to AGP technology, resulting in a more responsive and cost-effective system. They help reduce overall system cost by integrating graphics into the memory controller. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) 810 Graphics and AGP Memory Controller Hub (GMCH) FW82810 421 BGA Intel(R) 810E2 Graphics and AGP Memory Controller Hub (GMCH) FW82810E 421 BGA I/O Control Hub (ICH) for Intel(R) 810 FW82801AA 241 BGA I/O Control Hub 2 (ICH2) for Intel(R) 810E2 FW82801BA 360 EBGA 4 MB Firmware Hub* Contact your local Intel field sales representative for product availability 8 MB Firmware Hub* N82802AB PLCC Intel(R) Accelerated Hub Architecture 66/100 MHz PSB, PC66/100 SDRAM, No ECC Intel(R) 3D graphics with Direct AGP Overall BOM cost savings Intel Accelerated Hub Architecture 66/100 MHz PSB, PC66/100 SDRAM, No ECC Intel 3D graphics with Direct AGP Overall BOM cost savings Optional 4MB of dedicated display cache video memory (100 or 133 MHz) Direct connection to the GMCH with Intel Accelerated Hub Architecture Supports 32-bit PCI IDE Controllers with ATA66 Dual USB ports AC'97 controller with 4-channel sound Direct connection to the GMCH with Intel Accelerated Hub Architecture Supports 32-bit PCI IDE Controllers with ATA100 Four USB ports AC'97 controller with 6-channel sound Integrated MAC System BIOS and video BIOS Intel(R) Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols E82802AC N82802AC TSOP PLCC *Must be purchased as separate component System BIOS and video BIOS Intel Random Number Generator (RNG) for stronger encryption, digital signing, and security protocols 15 16 Processors and Chipsets developer.intel.com/design/intarch Intel(R) 440BX AGPset he Intel Pentium III processor, Intel Pentium III processor--Low Power, Intel Pentium II processor--Low Power, Intel Celeron processor and Intel Celeron processor--Low Power families are supported by the Intel 440BX AGPset. The system controller provides support for SDRAM, the interface to the PCI bus, and the interface to the AGP port. The PIIX4E provides the PCI to ISA interface, USB support, and many other features necessary to maintain PC compatibility. The Intel 440BX AGPset operates at both 66 and 100 MHz, providing plenty of headroom for future generations of Intel Pentium III and Intel Celeron processors. Both chips in the Intel 440BX AGPset use a BGA package providing improved layout and signal integrity. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel 440BX Northbridge Intel(R) PIIX4E Southbridge FW82443BX FW82371EB 1 x 492 BGA 1 x PIIX4E 324 BGA AGPset support, 66/100 MHz SDRAM, 66/100 MHz PSB USB Support ACPI-compliant power management ECC, parity for application critical environments Concurrent PCI (R) Intel(R) 440MX PCIset he Intel 440MX is a low-power, single-component chipset specifically designed to reduce system cost, space and power. The Intel 440MX chipset supports low-power Intel Celeron and Intel Pentium III designs. The Intel 440MX is offered in the small form factor, 492 Ball Grid Array (BGA) package with a typical power dissipation of 2.1W making it an effective solution for fanless applications. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) 440MX FW82443MX100 492 BGA Combines the Intel(R) 440BX AGPset core architecture and PIIX4 southbridge into a single chip Advanced power management features AC'97 link interface based on Intel(R) AC'97 Specification v 2.1 PC100 SDRAM and ECC 100 MHz PSB Intel(R) PCIsets he Intel(R) 430TX PCIset is a high integration two-chip solution with BGA packaging, which minimizes board real estate requirements while reducing failure points. It closes the power consumption gap and enables new applications by delivering mobile-style power management with the highest performance. The Intel 430TX PCIset is available in extended temperature range (-40 to +115C), which enables a complete solution when joined with the 166 MHz lower-power Intel Pentium processor extended temperature version. The Intel(R) 430HX PCIset is a two-chip solution featuring uncompromised EDO memory timings, optimized CPU to PCI performance, additional buffering and arbitration and writeback enhancements. The Intel 430HX PCIset also supports USB, ECC and parity. T PRODUCT PRODUCT CODE PACKAGE FEATURES Intel(R) 430HX Northbridge Intel(R) PIIX3 Southbridge FW824391HX SB82371SB 1 X TXC 324 BGA 1 X PIIX3 208 QFP Intel(R) 430TX Northbridge FW82439TX Intel PIIX4E Southbridge FW82371EB 1 X MTXC 324 BGA 1 X PIIX4E 324 BGA PCI 2.1, 64 Mbit DRAM, 66 MHz PSB, No ECC L2 cache controller Concurrent PCI USB support ECC, parity for application critical environments PCI 2.1, 66 MHz PSB, SDRAM, No ECC (R) L2 cache controller Optimized for Pentium(R) processor with MMXTM technology Dynamic Power Management Architecture SDRAM Support USB Support Concurrent PCI Ultra DMA hard drive protocol developer.intel.com/design/intarch EMBEDDED INTEL (R) REFERENCE DESIGNS AND Processors and Chipsets CONFIGURATIONS E mbedded Intel Architecture reference designs support developers in a variety of market segments, including communications, storage, interactive clients, learning solutions, and print imaging. These reference designs may be used off-the-shelf as a market-ready design, or further customized to support additional value-added features. This allows developers to focus technical resources on strategic product innovation and customized applications in order to accelerate time-to-market while reducing the risk of hardware development. Schematics are available for download at no cost from Intel's Developer Web site. In addition, Intel's growing family of reference designs provides these key benefits: Accelerated and economical implementation of leading-edge technologies Shortened platform selection and design cycle Simplified customization with scalable and flexible platforms Extended component life cycles and broad software application support Reference Designs for Communications http://developer.intel.com/platforms/applied/eiacomm/reference_configs.htm ntel provides building blocks that work together in specific configurations to accelerate development of networked storage and other communications applications, including load balancing, network attached storage and storage area networking equipment, network security, Virtual Private Networks, Voice over IP (VoIP), and Web caching. With these proof-of-concept designs, including downloadable schematics, developers can quickly develop boards that scale in processor and I/O performance. I COMMUNICATIONS PRODUCT APPLIANCE PROCESSOR Performance Intel(R) Pentium(R) M processor Communications Appliance Intel(R) E7501 Dual Intel(R) XeonTM processors or Low Voltage Intel Xeon processors Intel(R) 845E Intel(R) Pentium(R) 4 processor or Mobile Intel(R) Pentium(R) 4 processor-M Intel(R) Communications Intel(R) Celeron(R) or Intel(R) Pentium(R) III processors ICH Intel(R) 815E Intel Celeron or Intel Pentium III processor Intel(R) 810 Intel Celeron or Intel Pentium III processor Intel(R) 815E Entry Ultra Low Voltage Intel Celeron processor Intel(R) 440MX Entry-Level Intel Celeron processor--Low Power Intel(R) 440BX Entry-Level Intel Celeron processor 300A INTEL (R) PRODUCT NETSTRUCTURE TM PROCESSOR ZT 5524 High Performance Dual Intel(R) Pentium(R) III Processors with 512K L2 Cache ZT 5515 Value Intel(R) Pentium(R) 4 processor-M BLADE PRODUCT REFERENCE REFERENCE SPEED DESIGNS CHIPSET ETHERNET CATEGORY 1.6 GHz Intel E7501 82546, 82551 Performance 1.6-2.4 GHz Intel E7501 82559, 82554GC Performance 1.7-2.4 GHz Intel 845E 82551QM, 82540EM Value 566 MHz-1.26 GHz Intel 815E GMCH +82801E C-ICH Intel 815E Intel 810 Intel 815E Intel 440MX Intel 440BX/PIIX4E 82559, 82562ET Value 82559ER, 82562ET 82559ER 82551ER 82559ER 82559ER Value Value Entry Entry Entry 566-733 MHz 300-700 MHz 400-650 MHz 400 MHz 300 MHz BOARD (R) REFERENCE DESIGNS SPEED CHIPSET ETHERNET ETHERNET PORTS 933 MHz ServerWorks* LE 82546, 82550 Dual Gigabit 1.2 GHz Intel 845E 82546 Dual Gigabit SPEED CHIPSET ETHERNET CATEGORY 300-700 MHz Intel(R) 440MX NA Entry (R) CONFIGURATION PROCESSOR Intel(R) 440MX Entry PrPMC Ultra Low Voltage Intel(R) Celeron(R) processor or Intel(R) Pentium(R) III processor--Low Power 17 18 Processors and Chipsets developer.intel.com/design/intarch Interactive Client Reference Configurations http://developer.intel.com/design/intarch/platforms/iaclient/reference_configs.htm nteractive Clients are widely used in a variety of market segments including retail, hospitality and other environments where financial, information, or other transactions take place. Applications for interactive clients are evolving from the simple act of processing financial transactions, such as at a cash register or ATM, to becoming an integral part of the business environment. Interactive Clients are now being used to interface to other enterprise resources for business-critical applications such as targeted marketing, Customer Relationship Marketing (CRM), labor management, and employee training. Kiosks and other self-service terminals are being rapidly deployed to provide more customer access points on-premises, or to provide access to goods or services that are not immediately available on-site. Interactive Client development also includes the integration of numerous peripherals a system might use, including network interfaces, audio, LCD touch screens, pole displays, cash drawers, scanners, printers, and other peripherals. I PRODUCT PROCESSOR Intel(R) 852 with Intel Pentium 4 processor Intel(R) Pentium(R) 4 processor Intel(R) 845E Intel Pentium 4 processor and Intel(R) Pentium(R) 4 Processor-M Intel(R) 815E Ultra Low Voltage Intel(R) Celeron(R) processor Intel(R) 815 Intel Pentium III or Intel Celeron processor Intel(R) 810 Intel Pentium III or Intel Celeron processor Embedded Client Intel 810 Intel Pentium III or Intel Celeron processor SPEED CHIPSET ETHERNET CATEGORY 2.0 to 2.6 GHz 82551QM, 82540EM, 82562EZ 82551 Performance Scalability Up to 2.53 GHz Intel(R) 852GME chipset with ICH4 Intel 845E 400-650 MHz 566-866 MHz 300-850 MHz Intel 815E Intel 815 Intel 810 82551ER 82562ET 82559ER Low-Power Value Value 566-866 MHz Intel 810 82562ET Value Performance Intel(R) Print Imaging Reference Configurations http://developer.intel.com/design/intarch/platforms/printimg/reference_configs.htm ncreasing pages per minute and transition to color are driving the need for increased CPU performance and Intel(R) Print Imaging solutions continue to bring increasing benefit to the enterprise. These high-performance, scalable, and low-power Print Imaging reference configurations offer: High performance, high I/O bandwidth and maximum CPU performance, ideal for high I/O bandwidth applications such as high-speed color commercial print solutions. Scalability, performance and value, designed for applications such as midrange multi-function units and digital copiers. Low power and value, intended for low-power and fanless applications such as entry-level color laser and fast monochrome printers. I PRODUCT PROCESSOR SPEED CHIPSET ETHERNET CATEGORY Intel E7501 Intel(R) 845GV Intel(R) 845E Intel(R) 815E Intel Xeon processor Intel(R) Pentium(R) 4 or Intel(R) Celeron(R) processor Intel Pentium 4 or Intel Celeron processor Intel(R) Pentium(R) III or Intel Celeron processor 2.0 GHz 2.0 GHz 1.7-2.2 GHz 1.26 GHz Intel E7501 Intel 845GV Intel 845E Intel 815E 82551, 82559 82551, 82559 82551, 82559 82551, 82559 High Performance Scalable Scalable Low Power (R) (R) TM developer.intel.com/design/intarch Processors and Chipsets Reference Configuration for Student Learning Station http://developer.intel.com/platforms/applied/studentstation/reference_config.htm ntel Architecture-based processors, chipsets and other components can be used in designs for student learning terminals. I PRODUCT PROCESSOR Student Computing Station Intel(R) Celeron(R) processor SPEED CHIPSET ETHERNET CATEGORY 300A, 366, 433 MHz Intel(R) 810 GD 82559 Entry Development Kits ntel provides a wide selection of development kits to support the products on its roadmap. These kits are offered with supporting documents and evaluation software from independent software vendors. Intel's development kits are designed to minimize the customers' development efforts and facilitate quick time-to-market. I PRODUCT NUMBER PRODUCT NAME PROCESSOR SUPPORT CHIPSET PACKAGING MEMORY EID875PDEVKIT Intel(R) 875P MCH with Intel(R) 6300ESB ICH Chipset Intel 875P MCH and Intel 6300ESB ICH 478 FC-PGA Up to 4GB DDR SDRAM at 400/333/266 MHz EIDPM855FBDVKT Intel 855GME GMCH and Intel 6300ESB ICH 478 FC-PGA 200/266/300 MHz DDR SDRAM Intel 855GME GMCH 478 FC-PGA EIDXE7501DEVKIT Intel(R) Pentium(R) M Processor with Intel(R) 855GME MCH and Intel 6300ESB ICH Chipset Intel Pentium M Processor with Intel 855GME and Intel(R) FW82801DB Intel Pentium M processor with Intel(R) E7501 Intel E7501 Scalable Performance Board Intel(R) Pentium(R) 4 processor, Intel(R) Pentium(R) 4 Processor with Hyper-Threading Technology or Intel(R) Celeron(R) processor Intel Pentium M processor at 1.6 GHz 2GB or 266 DDR SDRAM 2 GB or 266 MHz DDR SDRAM 256 MB DDR, expandable to 8 GB DDR EIAP3840DEVKIT Intel(R) Pentium(R) III Processor/Intel(R) 840 EIDP3815BDEVKIT Intel 815E Scalable Performance Board EIAP3FMBDEVKIT Intel(R) 440BX Scalable Performance Board EIACEL18FMBDVKT Intel 440BX Scalable Performance Board EIACEL25FMBDVKT Intel 440BX Scalable Performance Board EIDPLPMXDEVKIT Intel(R) 440MX Scalable Low Power Board EID845GVDEVKIT Intel(R) 845GV Scalable Performance Board EIDPM855HDDVKT EIDPME7501DEVKIT (R) Intel Pentium M processor at 1.6 GHz Intel Pentium M processor at 1.6 GHz Dual Low Voltage Intel(R) XeonTM processors (1.6 GHz) or Dual Intel Xeon processor (2.4 GHz) Dual Intel Pentium III processors (866 MHz) Intel(R) Celeron(R) processor (566 MHz) through Intel Pentium III processor (1.26 GHz) Intel Pentium III processor (850 MHz) Intel Pentium III processor (850 MHz) or Intel Celeron processor (850 MHz) Intel Pentium III processor (850 MHz) or Intel Celeron processor (433MHz) Intel Celeron processor-- Ultra Low Power (700 MHz) or Intel Pentium III processor-- Low Power (500 or 700 MHz) Intel Celeron processor (2.0 GHz) Intel E7501 chipset 478 FC-PGA Intel(R) E7501 Socket 604 Intel 840 w/MCH, ICH, P64H and FWH Intel 815/815E FC-PGA Intel 440BX AGPset PC-PGA 32 MB SDRAM Intel 440BX AGPset PC-PGA 32 MB SDRAM Intel 440BX AGPset PC-PGA 32 MB SDRAM Intel 440MX AGPset PGA 128 MB SDRAM, expandable to 256 MB SDRAM Intel 845GV Socket 478 256 MB DDR, expandable to 2 GB DDR FC-PGA or PC-PGA2 Dual 64 MB RDRAM RIMMS 128 MB SDRAM, expandable to 512 MB SDRAM 19 20 Processors and Chipsets developer.intel.com/design Intel Personal Internet Client Architecture (R) Accelerating Wireless Application Development he convergence of wireless phones and handheld digital devices is advancing daily. To keep pace with this wave of next-generation wireless devices, development of hardware and software must be able to occur along separate paths. The open architectural framework of the Intel(R) Personal Internet Client Architecture (Intel(R) PCA) allows separate development of applications and communication subsystems and speeds development and deployment of wireless Internet devices, applications, and services. It helps enable you to innovate new wireless Internet devices, applications, and services faster than ever before. T Design Independence ntel PCA decouples the applications subsystem from the communication subsystem through an open physical and logical bus interface, while providing a link to memory subsystem. The benefit: you can now drive application development to improve functionality and reduce time-to-market, with independence from communication standards. I Outstanding Flexibility ntel PCA framework enables you to design a single platform to support a broad range of products, from cell phones and smart phones to PDAs and automotive clients. Intel PCA supports application compatibility across multiple levels of hardware integration to protect your platform design and software investments. The benefit: Intel PCA provides consumer and corporate users greater availability of applications, broader deployment of services and networks, and more capable wireless platforms. Applications developers will benefit from shorter development cycles and an open architecture that allows for rapid adaptation of applications across platforms and devices, resulting in faster time-to-market. It's these benefits that make it easy to understand why Intel PCA has such wide industry support. I INTEL (R) PCA PRODUCTS I ntel PCA Application Processors: Intel PCA processors, based on the Intel XScale(R) microarchitecture, deliver advanced integration, leadership multimedia performance and superior power savings for full-featured wireless cell phones, communicators and PDAs. INTEL (R) PXA27X PROCESSOR FAMILY T he Intel(R) PXA27x processors are the first Intel XScale technology-based processors to include Intel(R) Wireless MMXTM technology to enable high-performance multimedia acceleration with an industry proven instruction set. Building Tomorrow's Handheld Today esigned from the ground up for wireless clients and incorporating the latest Intel advances in mobile technology, the Intel PXA27x processor family redefines what a wireless handheld can do by incorporating innovative new features while borrowing and enhancing others from the world of the PC. The Intel PXA27x processors are the first Intel XScale technology-based processors to include Intel Wireless MMX technology to enable high-performance multimedia acceleration D developer.intel.com/design Processors and Chipsets with an industry proven instruction set. Another innovative feature is the Intel(R) Quick Capture Technology which provides one of the industry's most flexible and powerful camera interfaces for capturing digital images and video. And while performance abounds in the Intel PXA27x processor, power consumption is also a critical component. The new capabilities of Wireless Intel SpeedStep(R) Technology provide a quantum leap forward in low-power operation. Finally, the Intel PXA27x family stacks Intel StrataFlash(R) memory and low-power SDRAM with the processor for more functionality in a smaller footprint. Advanced Multimedia Capability nstead of using additional processors or accelerators that can reduce battery life, Intel Wireless MMX technology provides an advanced set of multimedia instructions that will help bring desktop-like multimedia performance to Intel PXA27x processor-based clients while minimizing the power needed to run rich applications. Intel Wireless MMX technology builds on the Intel(R) MMXTM technology originally introduced in the Pentium(R) processor family, enabling the large number of software developers already familiar with these instructions to quickly make their applications such as 2-D and 3-D gaming, streaming MPEG4 video, wireless encryption/decryption, Digital TV reception and voice recognition available for Intel(R)-based cell phones and PDAs. I High-Quality Pictures and Video on a Cell Phone, PDA he ability to send and receive digital pictures or video clips has been one of the fastest-growing developments in the cell phone and PDA segments worldwide. Intel Quick Capture Technology, an interface that allows imaging capabilities to be incorporated into phones and PDAs, improves image quality and reduces the overall cost of adding digital image capabilities to mobile devices. Intel Quick Capture Technology is designed to provide the ability to capture live video and high-quality still images from a wide range of camera sensors in current and future camera-enabled mobile handsets and PDAs. Performing the image processing on the Intel PXA27x processor reduces the need for an external preprocessor, helping save both on cost and power. Intel Quick Capture Technology consists of three primary modes of operation: Quick View mode (providing lowpower, real-time previews), Quick Shot mode (providing high-resolution image capture up to 4+ megapixels) and Quick Video mode (providing full-motion, high-quality video capture). T Steps to Lowering Power irst available in the Intel PXA27x processor family, Wireless Intel SpeedStep Technology provides the ability to dynamically adjust the power and performance of the processor based on CPU demand. This can result in a significant decrease in power consumption for wireless handheld devices to increase standby and talk-time. Wireless Intel SpeedStep Technology advances the capabilities of functions already built into the Intel XScale microarchitecture by incorporating three new low-power states and using advanced Wireless Intel SpeedStep Power Manager Software to intelligently manage the power and performance needs for the end user. The technology is able to change both voltage and frequency on-the-fly, saving additional power while still providing the necessary performance to run rich applications. F 21 22 Processors and Chipsets developer.intel.com/design Using Wireless Data Faster ooking up application processors to communications products today is a non-standard, high-power, and slow performing prospect. Enter Intel(R) Mobile Scalable Link (Intel(R) MSL) a next-generation, scalable, and low-power communications link between application processors and communication processors. This dedicated link was created by Intel to help meet industry requirements for a high-speed interface to supply next-generation clients with data from nextgeneration networks. Intel MSL supports multiplexed interfaces for data and voice, while supporting up to 14 simultaneous transfers at speeds of up to 416Mbps. The result is quicker development times for faster time-to-market, longer battery life, and improved real-time video telephony and multimedia streaming for clients. Intel MSL will be incorporated into all future Intel(R) processor products designed for wireless, handheld devices. H Getting More from Less n the wireless handheld market segment, space is everything. Customers are demanding thinner, lighter and more flexible handhelds that do not sacrifice features. The challenge is to integrate the features that customers want while simultaneously reducing the size and weight of wireless handheld devices packaging. The Intel PXA27x processor family paves the way toward thinner, lighter designs by stacking variations of Intel(R) Flash and low-power SDRAM in a space-saving 14x14-mm package. The PXA27x processor family supports the tight space requirements for today's 3G wireless handheld applications while providing scalable solutions for tomorrow's generation of platforms. I A Trusted Hardware Solution he Intel PXA27x processor family incorporates the Intel(R) Wireless Trusted Platform that is designed to provide platform trust and robust security services required for today's wireless devices. Built around the concepts developed by the Trusted Computing Group* (TCG) industry forum, Intel Wireless Trusted Platform is comprised of hardware and software components that are designed to provide services such as secure boot, secure storage of private information and keys, cryptographic acceleration, and key management support for common security protocols such as Virtual Private Networks (VPN), Secure Sockets Layer (SSL), and Open Mobile Alliance Digital Rights Management (OMA-DRM). The Intel Wireless Trusted Platform also provides the tools to enable OEMs to prevent the reprogramming of International Mobile Equipment Identifiers (IMEI) thus helping reduce handset theft and fraud. T Development Ecosystem ntel is a leader in creating comprehensive developer ecosystems for processors. The Intel PXA27x processor family products are code compatible with all ARM* and Intel XScale technology-based solutions providing an opportunity for developers and manufacturers to maintain their code investments. In addition, the Intel PXA27x family will be supported by the ecosystem of reference platforms compilers, debuggers, code analyzers, codecs, and integrated primitives for performance, graphics and security. In addition, Intel will make available OS board support packages that include drivers and power management software for Linux, Palm* OS, Symbian*, Microsoft (CE.Net*, Smartphone* and Pocket PC*) as well as Nucleus* and SavaJe*. A number of third-party applications developers are optimizing for Intel Wireless MMX technology today, through Intel's Wireless Competency Center's worldwide. All this provides the manufacturer with one of the most exhaustive choices of software and development hardware in the industry. I developer.intel.com/design Processors and Chipsets The Intel(R) PXA27x Applications Processor Advantage FEATURES BENEFITS Intel XScale(R) Technology Highly scalable core up to 624 MHz Secure Solution The Intel(R) Wireless Trusted Platform: Security trusted services such as trusted boot, secure storage of private information, and support for security protocols such as VPN, SSL, OMA, IMEI and OMA-DRM Incredible Multimedia Familiar Intel(R) Wireless MMXTM technology instructions designed for high-performance multimedia, 3-D games and advanced video Advanced Camera Interface Intel(R) Quick Capture technology supports 4+ Megapixel cameras for capturing digital images, video and low-power, real-time previews Enhanced LCD Controller Dual-Panel LCD up to 24-bit color. Hardware color space conversion with 256 Kbytes of on-chip SRAM for faster video. Two overlays to reduce LCD bandwidth. Integrated with Intel Quick Capture technology to enable fast video preview. Reduced Power Consumption Wireless Intel SpeedStep(R) technology with five low-power modes can change frequency and voltage dynamically. Wireless Intel SpeedStep Power Manager software enables built-in, intelligent power management Fast Access to Wireless Data Intel(R) Mobile Scalable Link provides up to 416 Mbps link between communications and applications processors Large Peripheral Set USB Host/Client USB OTG 4-bit SD I/O MMC/SDCard Memory Stick USIM card interface Keypad controller PCMCIA/CF ICP Memory Interface 100 MHz memory bus supports a variety of 1.8V, 2.5V, 3.0V and 3.3V memory Less Space For greater memory density and flexibility Up to 64 Mbytes Intel StrataFlash(R) Memory 32 Mbytes Intel StrataFlash and 32 Mbytes Low-Power SDRAM 23 24 Processors and Chipsets INTEL (R) PXA255 developer.intel.com/design PROCESSORS Wireless Internet Content at Intel Speed obile and wireless devices simplify our lives, keep us entertained and increase productivity. Each day businesses and individuals rely on them more and more. But, to continue satisfying ever-increasing customer demands to communicate and access information anytime, anywhere, manufacturers need technologies that deliver high performance, flexibility and robust functionality--all in the small-size, low-power framework of portable, battery-powered products. The Intel Personal Internet Client Architecture (Intel PCA) applications processors with Intel XScale technology push handheld device functionality to new heights. With a seven-stage pipeline and faster processing speeds, these microprocessors enable wireless devices to meet the performance demands of Enterprise-class wireless computing and feature-hungry technology consumers. All while Intel's power management capabilities deliver unparalleled operating efficiency. By reducing component count and board space, lowering power consumption, minimizing system costs and shortening time-to-market, Intel PCA applications processors deliver solid competitive advantage and superior handheld devices. M Intel(R) PXA255 High-Performance Applications Processor Packing feature-rich devices with multimedia performance. or advanced devices that run the most impactful mobile applications, the Intel(R) PXA255 Applications Processor is the answer. This highly integrated, 32-bit RISC processor combines the efficiency of Intel design with the industry-standard ARM* v.5TE instruction set architecture and the processing power of built-in multimedia capabilities for superior performance and unmatched handheld functionality. This enables increased end-user functionality, the longest battery life and a richer handheld Internet experience. Based on the Intel XScale technology, the Intel PXA255 cost-effectively boosts processing speed and power management for one of the industry's best MIPS/mW ratio. Larger memory caches and gated clocks ensure faster functions with lower power dissipation. And the processing capabilities of the Intel PXA255 enable portable devices to respond faster to optimized operating systems and performance-intensive applications like MP3 audio decode, MPEG4 video decode, speech and handwriting recognition, and Java* interpretation. From surfing animated Web sites to streaming video to mixing MP3s, the Intel PXA255 delivers processing power for superior performance. F The Development Framework for Wireless Advancement utstanding performance and low power consumption are only the beginning when you develop with the Intel PXA255 applications processor. Our robust software and hardware development environment offers a large library of ARMcompliant applications and tools, as well as an array of wireless operating systems and tool chains to ease application development and system prototyping. The Intel(R) Integrated Performance Primitives (Intel(R) IPP) library promises easy access to an array of low-level, cross-platform software algorithms for high-demand communications, signal processing, mathematics and media functions. The Intel IPP's highly optimized implementation helps reduce battery consumption through more efficient CPU execution, enables developers to focus on value-add features, and speeds time-to-market. With the Intel PCA development ecosystem, you have the resources you need to deliver the features your consumers want-- efficiently and effectively. O Intel(R) Personal Internet Client Architecture The blueprint for next-generation wireless development ith Intel Personal Internet Client Architecture (Intel PCA), the next generation of wireless Internet devices, applications and services are at hand. This open, standards-based architecture separates communication and computing subsystems for parallel development of related wireless devices hardware and software. The scalability of the Intel PCA platform ensures compatibility with leading operating systems and global wireless standards to make porting applications or services across devices and platforms easy and efficient. And with the superior performance of optimized Intel(R) wireless hardware and software building blocks, Intel makes the promise of a dynamic, multimedia wireless Internet a reality. W developer.intel.com/design Processors and Chipsets The Intel PCA Developer Network offers device manufacturers, service providers and application developers easy access to the applications, tools and services that speed market penetration and encourage consumer adoption of Intel PCA-based products. This Web-based community offers platform and software development kits; programming tools; software building blocks; technical information; marketing program opportunities; community networking; and market exposure to help developers build value in their Intel PCA products, applications and services. Intel(R) PXA255 At-A-Glance: High Performance: Low-power, high-performance 32-bit Intel XScale core-based CPU--200, 300, and 400MHz ARM Architecture v.5TE compliant and application code compatible with Intel(R) SA1110 processor for rapid upgrade Intel(R) Super pipelined RISC technology utilizing advanced Intel(R) 0.18 process for high core spees at low power Intel(R) Media Processing Technology including 40-bit accumulator and 16-bit SIMD to enhance audio/video decode performance High-performance glue-less burst and page mode interfaces with Synchronous Intel StrataFlash(R) Memory Low Power: Low power and Turbo modes for optimal battery life 32 KB data and 32 KB instruction caches 2 KB Mini data cache for streaming data Support for 2.5 and 3.3V memories I/O Expansion: Integrated Memory and PCMCIA/Compact Flash Controller with 100 MHz Memory Bus, 16-bit or 32-bit ROM/Flash/ SRAM (six banks), 16-bit or 32-bit SDRAM, SMROM (four banks), as well as PCMCIA and Compact Flash for added functionality and expandability System Control Module includes 17 dedicated general-purpose interruptible I/O ports, real-time clock, watchdog and interval timers, power management controller, interrupt controller, reset controller, and two on-chip oscillators Wireless: Peripheral Control Module offers 16-channel configurable DMA controller, integrated LCD controller with unique DMA for fast color screen support, Bluetooth* I/F, serial ports (IrDA, I2C*, I2S*, AC'97, three UARTs, SPI and SSP), USB end point interface, and MMC/SD Card Support for expandable memory and I/O functionality 17x17 mm 256-pin PBGA The Intel(R) PXA255 Applications Processor Advantage FEATURES BENEFITS High-performance, low-power Intel XScale(R) core at 200, 300 and 400 MHz. Micro-power management including low-power modes and Turbo mode application acceleration Ideal for high-performance personal digital assistants and wireless communicators Intel(R) Media Processing Technology Optimized audio and video multimedia functionality Enhanced Memory Controller Supports lower power 2.5V and 3.3V 32-bit and 16-bit memories as well as glue-less burst and page mode interfaces with Synchronous Intel StrataFlash(R) Memory MMC/SD and PCMCIA/CF Card support Expandable storage and I/O device support USB Client Fast host synchronization 1.84 MHz cellular baseband interface Efficient communications integration 920 Kbs Bluetooth* interface Broad inter-device communication Variable latency I/O Add-on functionality capabilities 25 26 Processors and Chipsets INTEL (R) PXA26X developer.intel.com/design PROCESSOR A FAMILY n ideal solution for the low-power, space-sensitive cellular phone market segment, the Intel(R) PXA26x processor family takes portable multimedia processing and integrated memory to breakthrough application performance levels and physical space savings. The Intel PXA26x processor family continues the promise of delivering leadership building blocks based on the Intel Personal Internet Client Architecture (Intel PCA) for the wireless, handheld market segment. The Intel(R) PXA261 and Intel(R) PXA262 processors are the first Intel PCA processors based on Intel's Multiple-Chip Product (MCP) packaging technology. This innovative technology utilizes an Intel XScale technology-based processor with integrated peripherals which are "stacked" in a single package with either 128 Mb (Intel PXA261) or 256 Mb (Intel PXA262) of Intel StrataFlash memory utilizing an internal 16-bit wide memory data bus. This enables higher levels of integration and space savings than previous generations of standalone products. Based on Intel XScale technology, the Intel PXA26x processor family delivers high performance and low power, while providing processing capabilities that allow wireless handsets to respond quickly to performance-intensive applications like MPEG4 video decode, speech and handwriting recognition, and Java interpretation. Featuring integrated peripherals, the Intel PXA261 and Intel PXA262 processors offer wireless designers expanded functionality, such as an integrated LCD controller with its own Direct Memory Access (DMA) as well as Multi-Media, Secure Digital and CompactFlash (MMC/SD/CF) card support for expandable memory and greater versatility. A variety of communication ports, including Universal Serial Bus (USB), Infrared (IrDA), I2S and AC'97 audio codec interfaces, high-speed Bluetooth* and Baseband interfaces, Universal Asynchronous Receive and Transmit (UART), and Synchronous Serial Port (SSP) enable fast synchronization and communication with other devices. Manufactured using Intel's 0.18-micron process technology, the integrated Intel StrataFlash memory offers unprecedented value, performance and reliability, and remains the industry's lowest cost-per-bit NOR Flash memory solution featuring 2-bit-per-cell technology. The Intel PXA26x processor family uses a small 13x13x1.4 mm package, reducing board space and placement costs by using one integrated component instead of multiple discrete Flash and processor components. The Intel PXA26x processor family also provides enhanced scalability within the same envelope, as all derivative configurations utilize the same package and same ball footprint, eliminating the need to redesign a device's main Printed Circuit Board (PCB). Complementing the Intel PXA26x processor family is a robust software and hardware development environment. Developers have access to a large library of ARM-compliant applications and tools plus an abundant set of key wireless operating systems and tool chains, including real-time and interactive development systems. Developers can use these resources to build libraries of new feature-rich, industry-leading applications for Intel XScale technology-based products and reduce overall time-to-market. Finally, Intel delivers Intel Integrated Performance Primitives (Intel IPP) for Intel XScale technology-based processors that helps enable designers to develop applications that can be ported to run on any Intel(R) processor and the Intel(R) Flash Data Integrator (Intel(R) FDI) for Intel StrataFlash Memory which helps designers enable handheld devices to handle the complex features and demands of Internet storage data. This combination allows highly optimized platforms for wireless handheld devices that incorporate all the benefits of Intel PCA. Key Applications Data-enabled Cellular phones Smartphones Wireless Communicators developer.intel.com/design Processors and Chipsets The Intel(R) PXA26x Applications Processor Advantage FEATURES BENEFITS Multi-Chip Product Packaging Technology Helps reduce board size and placement costs by using one component instead of three discrete components Small package Features 13x13x1.4 mm package, 0.65 ball pitch, 294 balls Scalability within same footprint Reduces design cycles by allowing derivative configurations (from high end to entry level) in the same package and same ball footprint, helping eliminate the need to redesign PCB and allows pin-for-pin drop-in of alternate configurations High-performance, low-power Intel XScale(R) core at 200 and 300 MHz Ideal for wireless devices that require low power and advanced application performance. ARM* v.5TE ISA compliant Micro-power management Offers low-power modes and "Turbo mode" application to improve processing acceleration with efficient power consumption Intel(R) Media Processing Technology Helps optimize audio and video multimedia functionality through an integrated 40-bit accumulator Enhanced Memory Controller Supports lower power 2.5V to 3.3V 32- and 16-bit memories as well as glue-less burst and page mode interfaces with Synchronous Intel StrataFlash(R) memory Storage Card support Supports industry-standard expandable storage and I/O devices, including Multi-Media, Secure Digital and CompactFlash cards USB Client Fast host synchronization with USB host 1.84 MHz cellular baseband interface Efficient communications integration with celluar baseband 920 Kbs Bluetooth* interface Broad inter-device communication through industry-standard wireless link Intel StrataFlash Memory 128 Mb or 256 Mb K3/L30 Utilizes reliable and proven two-bit-per-cell technology. High-performance and high-density Intel(R) Flash memory. Synchronous burst mode maximizes MIPS Intel(R) PCA Cellular Processors: Intel PCA Cellular Processors are fully integrated cellular and application processors that are at the heart of an advanced total system solution for today's GSM/GPRS mobile phones. Intel PCA Cellular Processors deliver leading-class performance, with industry-leading application headroom for voice and computationintensive data applications. Intel(R) PXA800F Cellular processor: The Intel PXA800F Cellular Processor is designed for mainstream GSM/GPRS handsets. This high-performance, power-efficient processor integrates Intel XScale technology with Intel(R) On-Chip Flash memory and Intel(R) Micro Signal Architecture, jointly developed with Analog Devices, Inc.*, delivers class-leading performance, with industry-leading headroom to support computation-intensive voice and data applications for mainstream mobile phones. Product Highlights Full GSM/GPRS Class 12 solution High-performance/Low-power Intel XScale technology core, providing class-leading headroom for rich data applications Intel Micro Signal Architecture Intel On-Chip Flash Memory 27 28 Processors and Chipsets developer.intel.com/design Intel(R) PXA800F Cellular Processor Features Intel XScale(R) Technology High-performance, power-efficient processor supports data-intensive applications Processor core operates at an adjustable clock frequency up to 312 MHz Instruction cache and Data cache memories 4 MB integrated Intel On-Chip Flash memory 512 KB integrated SRAM Memory controller supports synchronous Flash mode, page mode Flash, SRAM, SDRAM, and variable latency DMA controller Clock units--GSM slow clocking, GSM frame timing, watchdog, RTC Supports a wide range of standard interfaces--SIM, UART, USB, I2C, SPI, SSP, Digital Audio Interface, MultiMediaCard, Secure Digital Card, Sony Memory Stick, Dallas* 1-Wire* Interface, keypad, PWM D/A, JTAG Interfaces for Bluetooth, IrDA, GPS and digital camera peripherals LCD Controller for up to 120 x 240 display 16-bit color or gray scale Intel(R) Micro Signal Architecture Performs GSM/GPRS baseband signal processing Modified Harvard architecture, dual-MAC, deep pipeline, 104 MHz execution clock Instruction cache and 64 KB dual-banked data SRAM 512 KB integrated Intel On-Chip Flash for field-upgradable signal processing firmware Includes microprocessor instructions such as bit manipulation Includes cipher and Viterbi accelerators Multiple sleep modes and integrated power management minimize power consumption Interface support--digital I/Q, voice codec, auxiliary serial port for mixed-signal analog baseband, I2S audio codec interface, RF synthesizer serial control interface, JTAG Intel(R) On-Chip Flash Memory Single bit-per-cell NOR Flash stores data and allows code to be executed in place (XIP) All the on-chip memory required to run the GSM/GPRS protocol stack The entire RTOS and JVM could fit in the on-chip Flash, accelerating performance and reducing power Potential to reduce memory latency issues with time-critical applications Companion Chips: Companion chips are highly integrated and power-efficient components that complement the leadership performance of the Intel SA-1110 processor by providing I/O capabilities designed for emerging wireless multimedia applications. developer.intel.com/design INTEL (R) 2700G MULTIMEDIA Processors and Chipsets ACCELERATOR T he Intel(R) 2700G multimedia accelerator is a companion chip that, when paired with the Intel PXA27x processor family, delivers hardware-accelerated video and graphics for handheld devices. Product Highlights ext-generation communicators and PDAs enable a host of new entertainment-focused usage models such as capturing and sharing pictures or video clips, video playback and interactive gaming. The introduction of VGA color LCDs has improved the user's visual experience for multimedia applications. The Intel 2700G multimedia accelerator is a companion chip that, when paired with the Intel PXA27x processor family, delivers hardware-accelerated video and graphics for handheld devices. The Intel 2700G enables rich 2D and 3D graphics, high-quality video playback and enterprise-worthy dual display without sacrificing battery life. Intel's multimedia accelerator line features two products that differ in their on-die memory configurations for low power display refresh. The Intel(R) 2700G3 has 384 KB on-die memory and the Intel(R) 2700G5 has 704 KB on-die memory and is optimized for VGA resolution display devices. N DVD-Quality Video Playback ser demands for quality video playback are driving development of color LCDs, cameras, and high-bandwidth connectivity in handhelds. The Intel 2700G is designed to accelerate the leading handheld video formats, including MPEG-2, MPEG-4 and Windows Media Video*. By working closely with leading ISVs, Intel optimizes top video players so they deliver DVD-quality video playback on the Intel(R) platform. U Performance 2D/3D Graphics andsets and PDAs have traditionally not offered a gaming experience comparable to the PC user's experience. The Intel 2700G, together with the Intel PXA27x processor family, is designed to enable a new level of 2D graphics and 3D gaming capabilities. Coupled with support for standard 3D APIs such as OpenGL* ES and JSR-184, software developers will be able to quickly port or create brand-new, near PC-quality games for handheld platforms. In addition, traditional 2D applications such as a graphical user interface will enjoy faster response times, quicker screen refreshes and crisper icons. H Low Power attery life is one of the most important considerations in designing a handheld device. As multimedia capabilities increase, battery life typically decreases. The Intel 2700G multimedia accelerator has been designed from the ground up to work with the Intel PXA27x processor family to provide a balanced approach to performance and power. Using an advanced low power manufacturing process, the chip is designed for low power in all operating modes, extending battery life for entertainment-oriented applications. The Intel 2700G's highly optimized multimedia capabilities are designed to operate efficiently at extremely low-power. By offloading graphics and video traffic, the Intel 2700G helps to enable the Intel PXA27x processor to handle other types of traffic, such as wireless connectivity and audio content. Low power display refresh is another power-saving feature in the Intel 2700G. Because handheld devices are typically in display refresh mode frequently during use, it is imperative that the platform provides a very low power display refresh solution. The Intel 2700G3 and Intel 2700G5 have 384 KB and 704 KB on-die memory configurations respectively. These chips are designed to refresh HVGA and VGA resolution displays using significantly less power than solutions refreshing from higher power external memory. B 29 30 Processors and Chipsets developer.intel.com/design Performance Dual Display he Intel 2700G multimedia accelerator helps bring exciting new dual display capabilities to handheld devices. With support for two displays and high resolution images, the Intel 2700G helps to allow business users to connect their handheld devices to a projector and deliver presentations while away from the office. The dual display capabilities also support independent content on separate displays. For the first time, enterprise users will have the unique ability to view presentation notes on their PDA screen while their audience views the presentation on the projector. T Broad Market Support he Intel 2700G multimedia accelerator meets the needs of broad market segment applications like telematics, portable media players and industrial tablets. The LCD controller supports displays with resolutions up to 1280x1024 at 16-bit color and advanced display features like partial display refresh. T FEATURES BENEFITS Robust hardware video decode support for MPEG-2, MPEG-4 and Windows Media Video* Optimized video players DVD-quality video playback Graphics acceleration hardware 3D API support Optimized 3D games Designed to deliver unprecedented handheld gaming experience On-die memory configuration* Optimization for Intel(R) PXA27x processor Balanced system performance and power, extended battery life Performance dual display architecture Optimized dual display application Enterprise-worthy dual display STRONGARM* INTEL (R) SA-1111 The Intel(R) SA-1111 companion chip provides integrated technology for full-featured, versatile designs. Product Highlights Complements the Intel SA-1110 and Intel PXA25x processor's leadership performance/power attributes with advanced I/O capabilities Provides a highly integrated solution for emerging wireless multimedia applications Provides design flexibility through a wide range of full-function interfaces Supported by a rich suite of Intel(R) and third-party hardware and software development tools The Intel SA-1111 companion chip, a highly integrated and power-efficient component, complements the leadership performance of the Intel SA-1110 processor by providing key I/O capabilities designed for emerging wireless multimedia applications. The Intel SA-1111 brings a new level of integration to portable wireless devices and enables key attributes such as reduced component count, low power dissipation and high performance. The Intel SA-1111 provides a USB host controller, direct connection to AC-link and I2S audio codecs, buffering for one PCMCIA slot and one CF slot, and multiple additional I/O interfaces. A dedicated memory controller can reduce bandwidth demands, to maximize overall system performance. This rich suite of features, combined with a robust development environment, enables manufacturers to bring competitive portable wireless devices to market quickly. Support for USB Devices eaturing a Universal Serial Bus (USB) host controller, the Intel SA-1111 companion chip enables integration with USB-compatible devices and offloads the Intel SA-1110 processor through DMA data transfers. The Intel SA-1111 is compatible with the Open Host Controller Interface (OHCI), Windows* 95 USBD, and USB Rev 1.1. USB-compliant devices can "plug and play" with portable wireless products that incorporate the Intel SA-1110 processor and Intel SA-1111 companion chip. F developer.intel.com/design Processors and Chipsets Integrated I/O Interfaces Provide Scalable, Flexible Handheld Designs o provide maximum design flexibility, reduce design time and lower cost, the Intel SA-1111 companion chip integrates a broad spectrum of I/O interfaces. It incorporates two PS/2 ports, an AC-link, I2S and L3 serial ports for audio, an SSP serial data port, two PWM outputs, one PCMCIA interface, one CompactFlash Interface, and general-purpose I/O (GPIO) pins. The Intel SA-1111 companion chip's SSP serial data port supports National Microwire*, TI* Synchronous Serial Protocol (SSP), and Motorola* Serial Peripheral Interface (SPI) serial protocols, enabling designs incorporating a wide selection of components that require serial communication. PCMCIA and CompactFlash control logic and buffers are integrated within the Intel SA-1111. This eliminates up to 12 external devices, providing a highly integrated, cost-effective and low-power solution for PC companions and vertical handheld applications. Both the USB controller and the serial audio controller make use of DMA to offload the Intel SA-1110 microprocessor, freeing compute resources and bandwidth. The advanced interfaces and features of the Intel SA-1111 companion chip offer broad flexibility to support multiple cost-effective handheld configurations while minimizing time-to-market constraints. The Intel SA-1111 is packaged in a 256-pin mBGA. T Low Power Consumption Minimizes Power Requirement he selective clock-gating feature and three power-down modes (idle, doze and sleep) of the Intel SA-1111 minimize system power requirements. The Intel SA-1111 can power down individual functional blocks that are not in use and power them up quickly when they are needed. T Development Tools ntel Integrated Performance Primitives: The Intel Integrated Performance Primitives (IPP) provide a rich and powerful set of general and multimedia signal processing kernels optimized for maximum performance on Intel Personal Internet Client Architecture (PCA) Applications Processors. I Intel(R) Integrated Performance Primitives for the Intel(R) PXA25x and Intel(R) PXA26x family of Processors, Version 3.0 Beta he Intel Integrated Performance Primitives (Intel IPP) provides a cross-platform, low-level software interface that abstracts multimedia and signal processing from the Intel Personal Internet Client Architecture (Intel PCA) Processors. Intel IPP includes a broad range of functions for basic software functionality including general signal, image, speech and audio processing, vector manipulation and matrix math, as well as more sophisticated primitives for construction of audio, video and speech codecs such as MP3 (MPEG-1 Audio, Layer 3), MPEG-4, H263, JPEG, GSM-AMR, G723.1 and cryptography (DES, TDES, SHA1, and RSA). The Intel IPP release 3.0 Beta introduces additional primitives to support the following codecs/applications: MPEG4--Encoder (simple Profile) AAC--Decoder (Low Complex) MP3--Encoder JPEG 2000--Encoder/Decoder General audio processing--Echo cancellation, VAD Rijndael/TDES cryptography application, and more. With each function highly optimized for the underlying Intel PCA Processors, Intel IPP provides developers with a powerfully simple way to maximize Intel(R) processor performance without writing assembly code. T Intel(R) IPP 3.0 Beta Documentation: Learn more about the powerful capabilities of Intel IPP. Intel Integrated Performance Primitives for the Intel PXA26x and Intel PXA25x family of Processors Intel IPP Product Brief Intel IPP Case Studies 31 32 Processors and Chipsets developer.intel.com/design To download Intel(R) IPP, three easy steps are required: 1. Register for Intel IPP Version 3.0 Beta 2. Check your e-mail. After registering, you will be sent an e-mail with download instructions. If you are a new customer or haven't previously used Intel(R) Premier Support, you will also receive a second e-mail with your login ID and password information. 3. Follow the instructions to download Intel IPP from our Intel Premier Support Web site. Intel(R) IPP Release Notes: Intel(R) IPP for Microsoft Pocket PC* 2002 Release Notes Intel(R) IPP for Linux* Release Notes Intel(R) Graphics Performance Primitives (Intel(R) GPP) for the Intel(R) PXA2xx Family of Processors, Version 1.1 Beta he Intel(R) Graphics Performance Primitives (Intel(R) GPP) provide a rich and powerful set of 3D graphics functions optimized for the Intel Personal Internet Client Architecture (Intel PCA) Applications Processors. Intel GPP include a broad range of 3D graphics functions including date-type conversion, arithmetic, trigonometric, vector, matrix, and raster primitives. With each function highly optimized for the underlying Intel PCA Applications Processors, the Intel GPP provide developers a powerfully simple way to maximize Intel processor performance without writing assembly code. T Intel(R) GPP V1.1 Beta Documentation: Learn more about the powerful capabilities of Intel GPP. Intel Graphics Performance Primitives for the Intel(R) PXA2xx Family of Processors Reference Manual Intel(R) GPP V1.1 Beta Library Download: The Intel GPP V1.1 Beta release supports the Microsoft Pocket PC* 2002 and Microsoft Smartphone* 2002 operating systems. Intel Graphics Performance Primitives: Installation Package and Release Notes INTEL (R) PCA TECHNOLOGY Intel XScale(R) Technology with Intel(R) Wireless MMXTM Technology he trend toward rich multimedia and communications capabilities on mobile devices is growing. End users in the handheld wireless market segment demand multimedia and communication experiences similar to those they enjoy on their desktop--but in a mobile setting. To meet that need, software developers require easy-to-use, general-purpose processor capabilities that provide the performance necessary for rich multimedia. Device manufacturers require that this be accomplished without sacrificing battery power. Intel(R) Wireless MMXTM technology is the latest high-performance, low-power, seamless extension to Intel XScale microarchitecture. Intel Wireless MMX technology offers developers a powerful set of new instructions for future Intel Personal Internet Client Architecture (Intel PCA)-based processors that will help enhance the multimedia experience of Intel PCA-based mobile devices. Developed from a solid foundation of Intel(R) Architecture (IA) technologies, Intel Wireless MMX technology combines the Intel MMX technology instruction set, the integer instructions from Intel(R) Streaming SIMD Extensions (Intel(R) SSE) plus several brand-new multimedia acceleration instructions unique to Intel XScale microarchitecture. This powerful 64-bit Single Instruction Multiple Data (SIMD) architecture gives a performance boost to many applications including motion video, graphics combined with video, image processing, audio synthesis, speech synthesis and compression, telephony, conferencing, 2D graphics, and 3D graphics. Intel Wireless MMX technology brings 43 new instructions to Intel XScale microarchitecture and is enabled by four primary capabilities: Intel(R) 64-bit Data Pipeline, Intel(R) Parallel Media Processing, Intel(R) Media Power On-Demand, and Intel(R) Multi-Sample Technology. The Intel 64-bit Data T developer.intel.com/design Processors and Chipsets Pipeline is tightly coupled to the Intel XScale microarchitecture pipeline resulting in more efficient and fast data transfers. Intel Parallel Media Processing allows Intel Wireless MMX technology to accelerate many applications, that perform calculations on integer data in a repetitive and sequential manner due to its ability to process 8-bit, 16-bit, and 32-bit data elements in parallel. Intel Wireless MMX instructions can be interleaved with Intel XScale microarchitecture instructions and thanks to Intel Media Power On-Demand Technology, the Intel Wireless MMX technology is only activated when required to execute instructions. Finally, Intel Multi-Sample Technology helps improve multimedia algorithm performance by utilizing the large register file of Intel Wireless MMX to store the many intermediate results required when calculating multiple output values concurrently. This allows Intel Wireless MMX instructions to maximize the use of data fetched from memory to help accelerate audio/video performance and help reduce power consumption. Intel Wireless MMX technology was defined to be simple. PC software developers who have already utilized Intel MMX technology and Intel SSE will find a familiar programming environment in Intel Wireless MMX technology that will help speed the porting of existing code bases from the Intel Architecture to Intel PCA-based mobile devices. And Intel Wireless MMX technology is general enough to address the needs of a large domain of mobile software applications built from current and future algorithms. Finally, Intel Wireless MMX instructions can be used in applications, codecs, algorithms, and drivers. Intel(R) Micro Signal Technology: Product Information In order to address the rapidly expanding market segment for communications and portable computing devices, Analog Devices (ADI) and Intel jointly developed Micro Signal Architecture that incorporates both Digital Signal Processing (DSP) and microcontroller functionality in a single core. The Intel/ADI* core delivers vast improvements in performance, programmability and power consumption over traditional DSP design. Both ADI and Intel will take the Micro Signal Architecture core and separately develop products based on it. Intel(R) Micro Signal Architecture (Intel(R) MSA) incorporates Digital Signal Processor (DSP) and microcontroller features in a single platform. It combines a highly efficient computational architecture with features more normally seen on microcontrollers, such as optimizations for high-level language programming, memory protection and byte addressing. This results in the ability to execute highly complex DSP tasks and simple control tasks in a single core architecture. Intel MSA is ideal for a variety of battery-powered communications and consumer applications that require high-intensity signal processing on a strict power budget. High Performance, Low Power ntel MSA is the first DSP architecture to incorporate Dynamic Power Management (DPM) capabilities, delivering 10 times the normal battery life at one-third peak performance. DPM supports continuous monitoring of the software running on the architecture and enables dynamic adjustments of both the voltage delivered to the core and the frequency at which the core runs (MHz). This results in optimized power consumption and performance for real-time applications. I Extended Computing with Intel XScale(R) Microarchitecture: Utilizing Intel XScale(R)Technology S mart Displays* are wireless flat-panel displays that are used as monitors when docked to a base desktop PC, but when detached, become a mobile monitor using 802.11b wireless LAN technology to access information and applications from the desktop PC from anywhere in the home. Smart Displays utilizes the industry-leading performance of Intel XScale technology-based processors and Intel StrataFlash memory. Some of the top makers of wireless Smart Displays such as AboCom*, Fujitsu, Lite-On, MSI, Philips*, Tatung*, TriGem and ViewSonic*--have selected Intel XScale technology-based processors to power new products that help enable wireless PC access throughout the home. Smart Displays running on Intel XScale technology are available today in retail from ViewSonic and Philips, with products currently targeted to be released later this year from Fujitsu and TriGem. 33 34 Processors and Chipsets developer.intel.com/design Intel(R) Telematics Solutions for Emerging Digital Car Products and Services Telematics Design Center The Intel(R) Telematics Design Center provides Web-based development and technical support for designing navigation, multimedia, hands-free phone, and other in-car Internet products and applications using Intel XScale technologybased processors. Intel(R) Wireless Building Blocks for Telematics Product Intel is supplying new multimedia-capable components for current and next-generation cellular technology, including high-performance, low-power processors, flash memory, chipsets, and software. Intel(R) Portable Media Player he Portable Media Player (PMP) is a new type of mobile entertainment product pioneered by Intel. PMPs will be small enough to fit in a coat pocket and will allow people to take video, still pictures and music with them anywhere they go-- on the plane, train, or bus, to the gym, or hand it to the kids sitting in the back seat of the car during a long drive. Intel(R)-based PMPs will feature high-quality video playback using an Intel XScale technology-based processor. The different types of media can be transferred to a PMP from a PC or a Personal Video Recorder using a fast Hi-Speed USB 2.0 connection. Intel(R) PCA Developer's Network: You have an idea for an innovative wireless product. Or you have a development solution that can save other developers time and make you money. You just need the right marketing opportunities and industry connections to make it a success and reduce time-to-market. In today's competitive wireless environment, it's not only a matter of what you know, but whom you know. Membership in the Intel PCA Developer Network gives you fast access to the resources you need. The enhanced Intel(R) PCA Developer Network Solutions Catalog is an extensive database of third-party tools and solutions that help developers identify and connect with the right silicon, hardware designs, board support platforms, independent software vendors, development tools, and manufacturing resources. The new Intel(R) PCA Developer Network Smart-Match Reference Configuration Tool makes recommendations based on specific application and platform requirements. As a member of the Intel PCA Developer Network, you are just a click away from a community of fellow developers who can help you cut time-to-market and reach new customers for innovative solutions based on Intel PCA. Your membership opens the door to these exclusive opportunities. T developer.intel.com/go/PXA255 Processors and Chipsets Embedded PXA Processor Overview INTEL (R) PXA255 PROCESSOR Designed for a Wide Range of Embedded Devices umerous embedded and portable consumer electronics devices simplify our lives, keep us entertained and increase productivity. Each day businesses and individuals rely on them more and more. But, to continue satisfying everincreasing customer demands to communicate and access information, manufacturers need technologies that deliver high performance, flexibility and robust functionality--all in the small-size, low-power framework of portable, battery-powered products. The PXA255 application processor with Intel XScale(R) technology pushes device functionality to new heights. With a seven-stage pipeline and faster processing speeds, these microprocessors enable devices to meet the performance demands of their customers. Coupled with Intel's power management capabilities, the PXA255 delivers unparalleled operating efficiency. By reducing component count and board space, lowering power consumption, minimizing system costs and reducing time-to-market, these applications processors deliver solid competitive advantage and superior devices. N INTEL (R) PXA255 HIGH-PERFORMANCE APPLICATIONS PROCESSOR Packing feature-rich devices with multimedia performance or advanced devices that run the most demanding applications, the Intel(R) PXA255 Applications Processor is the answer. This highly integrated, 32-bit RISC processor combines the efficiency of Intel design with the industry-standard ARM* v.5TE instruction set architecture and the processing power of built-in multimedia capabilities for superior performance and unmatched handheld functionality. This enables increased end-user functionality, the longest battery life and a richer experience. Based on Intel XScale technology, the Intel PXA255 cost-effectively boosts processing speed and power management for one of the industry's best MIPS/mW ratio. Larger memory caches and gated clocks ensure faster functions with lower power dissipation. The processing capabilities of the Intel PXA255 enable portable devices to respond faster to optimized operating systems and performance-intensive applications like MP3 audio decode, MPEG4 video decode, speech and handwriting recognition, and Java* interpretation. From surfing animated Web sites to streaming video to mixing MP3s, the Intel PXA255 delivers processing power for superior performance. F The Development Ecosystem utstanding performance and low power consumption are only the beginning when you develop with the Intel PXA255 applications processor. Our robust software and hardware development environment offers a large library of ARMcompliant applications and tools, as well as an array of operating systems and tool chains to ease application development and system prototyping. The Intel(R) Integrated Performance Primitives (Intel(R) IPP) library promises easy access to an array of low-level, cross-platform software algorithms for high-demand communications, signal processing, mathematics and media functions. The Intel IPP's highly optimized implementation helps reduce battery consumption through more efficient CPU execution, enables developers to focus on value-add features, and speeds time-to-market. With the Intel(R) development ecosystem, you have the resources you need to deliver the features your consumers want--efficiently and effectively. O 35 36 Processors and Chipsets developer.intel.com/go/PXA255 Intel(R) PXA255 At-A-Glance: High Performance: Low-power, high-performance 32-bit Intel XScale(R) core-based CPU--200, 300, and 400MHz ARM Architecture v.5TE compliant and application code compatible with Intel(R) SA1110 processor for rapid upgrade Intel(R) Superpipelined RISC Technology utilizing advanced Intel(R) 0.18 process for high core speeds at low power Intel(R) Media Processing Technology including 40-bit accumulator and 16-bit SIMD to enhance audio/video decode performance High-performance glue-less burst and page mode interfaces with Synchronous Intel StrataFlash(R) Memory Low Power: Low power and Turbo modes for optimal battery life 32 KB data and 32 KB instruction caches 2 KB Mini data cache for streaming data Support for 2.5 and 3.3V memories I/O Expansion: Integrated Memory and PCMCIA/Compact Flash Controller with 100 MHz Memory Bus, 16-bit or 32-bit ROM/Flash/ SRAM (six banks), 16-bit or 32-bit SDRAM, SMROM (four banks), as well as PCMCIA and Compact Flash for added functionality and expandability System Control Module includes 17 dedicated general-purpose interruptible I/O ports, real-time clock, watchdog and interval timers, power management controller, interrupt controller, reset controller, and two on-chip oscillators Portable & User Interface: Peripheral Control Module offers 16-channel configurable DMA controller, integrated LCD controller with unique DMA for fast color screen support, Bluetooth* I/F, serial ports (IrDA, I2C*, I2S*, AC'97, three UARTs, SPI and SSP), USB end point interface, and MMC/SD Card Support for expandable memory and I/O functionality 17x17 mm 256-pin PBGA The Intel(R) PXA255 Applications Processor Advantage FEATURES BENEFITS High-performance, low-power Intel XScale(R) core at 200, 300 and 400 MHz. Micro-power management including low-power modes and Turbo mode application acceleration Ideal for a wide range of embedded applications Intel(R) Media Processing Technology Optimized audio and video multimedia functionality Enhanced Memory Controller Supports lower power 2.5V and 3.3V 32-bit and 16-bit memories as well as glue-less burst and page mode interfaces with Synchronous Intel StrataFlash(R) Memory MMC/SD and PCMCIA/CF Card support Expandable storage and I/O device support USB Client Fast host synchronization 1.84 MHz cellular baseband interface Efficient communications integration 920 Kbs Bluetooth* interface Broad inter-device communication Variable latency I/O Add-on functionality capabilities developer.intel.com/go/PXA255 EXTENDED COMPUTING WITH INTEL XSCALE (R) Processors and Chipsets MICROARCHITECTURE: Intel(R) Telematics Solutions for Emerging Digital Car Products and Services Telematics Design Center The Intel(R) Telematics Design Center provides Web-based development and technical support for designing navigation, multimedia, hands-free phone, and other in-car Internet products and applications using Intel XScale(R) technology-based processors. Intel(R) Building Blocks for Telematics Product Intel is supplying new multimedia-capable components including high-performance, low-power processors, flash memory, chipsets, and software. Intel(R) Portable Media Player he Portable Media Player (PMP) is a new type of mobile entertainment product pioneered by Intel. PMPs powered by an Intel XScale(R) Technology-based PXA255 processor allow users to enjoy their favorite media anywhere, anytime. Intel(R)-based PMPs: Create an exciting, feature rich and high-quality user experience Enable users to enjoy video, still images and music in a device small enough to fit in a coat pocket Accommodate the quick transfer of different types of media from a PC or Personal Video Recorder using USB2.0 Deliver high video performance with low battery consumption Delivering on its vision for Portable Media Players, Intel is continuously working with numerous consumer electronics industry leaders to further develop the portable media player ecosystem. T 37 38 Processors and Chipsets developer.intel.com/design/intelxscale Intel XScale Microarchitecture (R) INTEL W XSCALE (R) MICROARCHITECTURE PRODUCT OVERVIEW ith Intel XScale(R) microarchitecture, a wide range of Internet applications can be optimized from ultra-low power consumption to high-performance processing. Everything from handheld Internet devices to enterprise Internet infrastructure products can now process rich content at all stages of the Internet. This new high-performance, ultra-low-power microarchitecture is compliant with the ARM Version 5TE ISA instruction set (excluding the floating-point instruction set). The microarchitecture surrounds the ARM-compliant execution core with the following: Instruction and data memory management units Instruction, data and mini-data caches Write, fill, pend and branch target buffers Power management, performance monitoring, debug and JTAG units Coprocessor interface MAC coprocessor Core memory bus The Intel XScale microarchitecture, when combined with peripherals, provides Applications Specific Standard Products (ASSP) targeted at selected market segments. For example, the microprocessor core can be integrated with an LCD controller, multimedia controllers and an external memory interface. This gives OEMs the ability to develop smaller, more cost-effective handheld devices with long battery life and the performance to run rich multimedia applications. Or the microprocessor core could be surrounded by high-bandwidth PCI interfaces, memory controllers and networking microengines to provide a highly integrated, high-performance I/O or network processor. Designed with Intel's state-of-the-art 0.18-micron production semiconductor process technology, Intel XScale microarchitecture enables operation of the microprocessor core over a wide range of speed and power, producing industryleading mW/MIPS performance. developer.intel.com/design/intelxscale Processors and Chipsets FEATURES BENEFITS Intel(R) Superpipelined RISC Technology 7-stage integer/8-stage memory superpipelined core achieves high speed and ultra-low power Intel(R) Dynamic Voltage Management Dynamic voltage and frequency scaling on-the-fly allows applications to utilize the right blend of performance and power Intel(R) Media Processing Technology Multiply-Accumulate Coprocessor performs two simultaneous 16-bit SIMD multiplies with 40-bit accumulation for efficient media processing Power Management Unit Gives power savings via idle, sleep, and quick wake-up modes 128-entry Branch Target Buffer Keeps pipeline filled with statistically correct branch choices 32 KB Instruction Cache Keeps local copy of important instructions to enable high performance and low power 32 KB Data Cache Keeps local copy of important data to enable high performance and low power 2 KB Mini-Data Cache Avoids "thrashing" of the D-Cache for frequently changing data streams 32-entry Instruction Memory Management Unit Enables logical-to-physical address translation, access permissions, I-Cache attributes 32-entry Data Memory Management Unit Enables logical-to-physical address translation, access permissions, D-Cache attributes 4-entry Fill and Pend Buffers Promotes Core efficiency by allowing non-blocking and "hit-under-miss" operation with Data Caches Performance Monitoring Unit Furnishes two 32-bit event counters and one 32-bit cycle counter for analysis of hit rates, etc. Debug Unit Uses Hardware Breakpoints and 256-entry Trace History Buffer (for flow change messages) to debug programs 32-bit Coprocessor Interface Provides high-performance interface between core and coprocessors 64-bit Core Memory Bus with simultaneous 32-bit input path Gives up to 4.8 Gbps @ 600 MHz bandwidth for internal accesses 8-entry Write Buffer Allows the Core to continue execution while data is written to memory Third-Party Vendor Program ntel will provide a complete development environment for fast Time-To-Market designs based on the Intel XScale microarchitecture. A number of Third-Party Vendors (TPVs) are enthusiastically supporting this new microarchitecture and will be participating in Intel's tools support programs for this microprocessor core. The Intel XScale microarchitecture development platforms will include a full set of software development tools and related documentation, including both GNU and ARM-based toolchains. Cygnus/Red Hat* and ARM, CAD-UL*, and Green Hills will be providing compiler, assembler, linker, debugger, and monitor software support for the Intel XScale microarchitecture. There will be a variety of operating system development solutions available for designers, because this next-generation RISC microarchitecture's balanced power to performance attributes make it applicable across a broad spectrum of application environments. The Intel XScale microarchitecture will be supported by many operating systems, including those from Accelerated Technology*, Microsoft, MontaVista*, Symbian*, and Wind River*. Additionally, full hardware debug support will be available from vendors such as ARM, Macraigor Systems*, and Wind River. I 39 40 Processors and Chipsets developer.intel.com/design/intelxscale Intel XScale(R) Microarchitecture Introduced at Intel Developers Forum, August 2000 Provides industry-leading MIPS/mW performance in an ARM v.5TE-compliant core Provides scalability for high performance and low power within a specific application FEATURES BENEFITS ARM* v.5TE-Compliant Core Compatibility with the broadest range of applications/OSs written for wireless devices Industry-leading MIPS/mW High-performance and low-power capabilities Intel(R) Dynamic Voltage Management On-the-fly voltage and frequency scaling Intel(R) Media Processing Technology Core enhancements that enable efficient multimedia processing Advanced cache architecture Cache architecture optimized for high performance and low power INTEL (R) XSCALE TM CORE POWER PERFORMANCE MIPS 50 150 400 600 733 800 1GHz POWER CONSUMPTION 10mW 40mW 180mW 450mW 640mW 900mW 1.6W Intel XScale(R) Microarchitecture Enhancements over Intel(R) StrongARM* Architecture ARM v.5TE compliance Lower power at the same frequency -Intel XScale core = 80mW @ 200 MHz (1.0V) -Intel(R) SA1 core = 400mW @ 206 MHz (1.75V) Advanced RISC architecture -Intel(R) Superpipelined Technology -Larger caches, advanced cache architecture -Dynamic branch prediction Enhanced multimedia capabilities Extensive debug support/hardware JTAG support Intel(R) 0.18 leading-edge process -Higher performance, lower power -More scalable power performance Future Intel XScale(R) Microarchitecture Solutions for many applications Internet backbone devices, i.e., Routers, Switches, etc. DSLAM Line Cards and Voice access equipment Internet Storage RAID/SAN PDAs Smart phones developer.intel.com/design/flash Intel(R) Flash Memory for Wireless Applications Intel Flash Memory for Wireless Applications (R) T oday's wireless developers are faced with the challenge of managing the explosion of emerging data types and designing smaller form factors, all while trying to manage costs. Intel's innovative flash memory components, high-volume stacked packaging and sophisticated software provide some of the most advanced, cost-effective, single-chip solutions for code execution and data storage. It's no wonder Intel is the world's leading supplier of flash memory for wireless cell phones and consumer targeted handheld devices. Discover Intel(R) Flash memory, the solution of choice for wireless designs. INTEL(R) STACKED-CHIP SCALE PACKAGING (SCSP) NEW LEVELS OF SPACE SAVINGS FOR WIRELESS PRODUCTS-- I ntel(R) Stacked-Chip Scale Packaging (Intel(R) Stacked-CSP) products deliver wireless customers a new generation of memory subsystems by combining high-density Intel StrataFlash(R) Memory with flexible RAM options for higher levels of integration and space savings. Intel has developed an extensive portfolio of Standard Stacked-CSP products designed to provide the widest range of Flash and RAM product combinations, fast time-to-market, and flexibility to meet your application design requirements. Standard Intel Stacked-CSP products feature x16 and x32 bus widths as well as SRAM, PSRAM, and LP-SDRAM options all in common footprints to allow easy migration for your design. Key Messages: World-Class Silicon Packaging Technology Leadership Extensive RAM supplier network Manufacturing Excellence FEATURES BENEFITS Standard Stacked-CSP Products Provide widest range of Flash + RAM combinations Fast time-to-market Application Flexibility Intel(R) Multi-Level Cell (MLC) Technology Great value and 4th generation of proven reliability Low-profile height and small X & Y dimensions from 8 mm x 10 mm Small Intel(R) Stacked Chip Scale Package/CSP form factor for spaceand height-constrained applications Standard x16 and x32 Ballouts Enables easy upgrades across Flash and RAM product densities and technologies Intel(R) Ultra-Thin Stacked Chip Scale Package Technology Allows up to 5 die stack Provides low package profile from 0.8 mm to 1.2 mm 41 42 Intel(R) Flash Memory for Wireless Applications SCSP COMPONENTS PRODUCT NAME AT PRODUCT COMBINATION A developer.intel.com/design/flash GLANCE: ACCESS TIME (NS) DESIGN-IN PRODUCTS TEMP RANGE PACKAGE BALL COUNT VCC/VCCQ VPP/VPEN LEAD/LEAD-FREE INTEL STRATAFLASH(R) WIRELESS MEMORY SYSTEM (L18/L30 SCSP) LQ 18/30 Code Flash, SRAM, PSRAM (QUAD+ballout) 48F2000L0 64L18+0 85[25]b[14]c 48F2000L0 64L30+0 85[25]b[17]c 48F3000L0 128L18+0 85[25]b[14]c 48F3000L0 128L30+0 85[25]b[17]c 48F3300L0 128L18+128L18 85[25]b[14]c 48F3300L0 128L30+128L30 85[25]b[17]c 48F4000L0 256L18+0 85[25]b[14]c 48F4000L0 256L30+0 85[25]b[17]c 48F4400L0 256L18+256L18 85[25]b[14]c 48F4400L0 256L30+256L30 85[25]b[17]c 38F3040L0 128L18+32P 85[25]b[14]c 38F3040L0 128L30+32P 85[25]b[17]c 38F3050L0 128L18+64P (Burst) 85[25]b[14]c 38F3050L0 128L30+64P 85[25]b[17]c 38F3340LL 128L18+128L18+32P 85[25]b[14]c 38F4050L0 256L18+64P (Burst) 85[25]b[14]c 38F3350LL 128L30+128L30+64P 85[25]b[17]c 38F3352LL 128L30+128L30+64P+8S 85[25]b[17]c 38F4055L0 256L30+64P+64P 85[25]b[14]c 38F4055L0 256L18+64P+64P (Burst) 85[25]b[14]c 38F4350LL 256L18+128L18+64P (Burst) 85[25]b[14]c 38F4455LL 256L30+256L30+64P+64P 85[25]b[14]c 38F4455LL 256L18+256L18+64P+64P (Burst) 85[25]b[14]c P P P P P P P P P P P P P P P P P P P P P P P RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 88 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/1.8V 1.8V/3.0V 1.8V/3.0V 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V L L L, LF L, LF LF L L, LF L, LF L, LF L L, LF L, LF L L L L, LF L L, LF L L L L L LX 18/30 38F4060L0 38F4070L0 38F4462LL 48F3300L0 48F3300L0 48F3300L0 48F4400L0 48F4400L0 38F4360LL 38F4470LL 38F3030L0 38F2030L0 P P P P P P P P P P P P LZ LZ RD RD LZ LZ LZ LZ RD RD RD RD 103 137 103 137 137 137 137 137 137 137 44 44 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/3.0V 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V L L, LF LF L L, LF L L, LF L L L LF LF P P RD RD 88 88 1.8V/1.8V 1.8V/3.0V 0.9-2.0V or 9V 0.9-2.0V or 9V L, LF L Code and DataFlash, SRAM, SDRAM (Performance ballouts) 256L18+256V18+128SD 85[25]b[14]c P 256L18+256L18+256V18+256V18 85[25]b[14]c P 256L18+256L18+256V18+128SD 85[25]b[14]c P RD RD RD 103 103 103 1.8V/1.8V 1.8V/1.8V 1.8V/1.8V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V LF L L Code Flash, SRAM, SDRAM (Performance ballouts) 256L18+128SD (x16) 85[25]b[14]c 256L18+256SD (x16) 85[25]b[14]c 256L18+256L18+128SD +8S 85[25]b[14]c 128L30+128L 30(x32) 85[25]b[17]c 128L18+128L18 (x32) 85[25]b[14]c 128L30 +128L30 (x32) 85[25]b[17]c 256L18+256L18 (x32) 85[25]b[14]c 256L30+256L30 (x32) 85[25]b[17]c 256L18+128L18+128SD (Split Bus) 85[25]b[14]c 256L18+256L18+256SD (Split Bus) 85[25]b[14]c 128L18+16P 85[25]b[14]c 64L18+16P 85[25]b[14]c INTEL STRATAFLASH(R) WIRELESS MEMORY SYSTEM (LV18/LV30 SCSP) LVQ 18/30 Code and DataFlash, SRAM, PSRAM (QUAD+ ballout) 48F4040LV 256L18+256V18 85[25]b[14]c 48F4040LV 256L30+256V30 85[25]b[14]c LVX 18/30 38F4460LV 48F4444LV 58F0012LV Wireless Products Legend Access Time Footnotes: b Page Mode Access c Synchronous Burst Mode Product Combinations Footnotes: P = PSRAM S = SRAM D = SDRAM Temperature Range Footnotes: E = Extended Temperature (-40C to +85C) P = Expanded Temperature (-25C to +85C) Package Footnotes: GE = 0.75mm VF BGA RD = Intel(R) Stacked Chip Scale Package LZ = Intel(R) UT-Stacked Chip Scale Package Access time refers to data component. SCSP ORDERING INFORMATION RD 38F 2240 WW Y Expanded Temperature (-25C to +85C) RD = SCSP Q O Custom Ballout Identifier Q = Quad (See Table 3 for details) SCSP Product Line Designator 38F = Flash + Ram 48F = Flash Only (See Table 1 for details) Flash and Ram Density Configuration (See Table 2 for details) T Flash Boot Configuration (See Table 4 for details) Flash Product Decoder C = 3-Volt Intel(R) Advanced+ Boot Block Flash Memory J = 3-Volt Intel StrataFlash(R) Memory K = 3-Volt Synchronous Intel StrataFlash(R) Memory L = 1.8-Volt Intel StrataFlash(R) Memory W = 1.8-Volt Intel(R) Wireless Flash Memory 0 = No Die (See Table 3 for details) Voltage Options Z = 3 Volt Y = 1.8 Volt M = Mixed Core Voltages (See Table 3 for details) developer.intel.com/design/flash Intel(R) Flash Memory for Wireless Applications Intel(R) Stacked-SCSP Table References Density Decoder CODE Table 1 FLASH DENSITY RAM DENSITY 0 No Die No Die 1 32 Mbit 4 Mbit 2 64 Mbit 8 Mbit 3 128 Mbit 16 Mbit 4 256 Mbit 32 Mbit 5 512 Mbit 64 Mbit 6 1 Gbit 128 Mbit 7 2 Gbit 256 Mbit 8 4 Gbit 512 Mbit 9 8 Gbit 1 Gbit A 16 Gbit 2 Gbit Flash Family Decoder CODE Parameter Configuration Decoder DESIGNATOR PARAMETER (BOOT) CONFIGURATION EXPLANATION B Bottom For stacked products comprising two or more Flash die, the F1 die will be the parameter configuration as designated in the product's part number. T Top Note: Refer to the specific product datasheet for parameter onfiguration details of the other flash die in the stack (i.e., F2, F3, and so forth). D Table 2 Dual For stacked products comprising two Flash die, the F1 and F2 Flash dies are configured as Bottom-Top. Note: Products using the "D" parameter designator are limited to W18/W30 and K18/K30 SCSP envelope line items, and the following individual parts: RD/PF38F4462LLYDB0, RD48F4400L0ZDQ0, RD48F3300L0ZDQ0, RD48F4400L0YDQ0, PF48F4400L0YDN0, PF48F4400L0ZDN0 and RD48F3300L0YDQ0. FLASH DENSITY CORE VOLTAGE C Intel(R) Advanced+ Boot Block Flash Memory 3.0 Volt J Intel StrataFlash(R) Memory 3.0 Volt CODE K Intel StrataFlash Synchronous Memory 3.0 Volt B x16D Performance with DRAM L "I" ballout L Intel StrataFlash(R) Wireless Memory 1.8 Volt P Performance x32 ballout LV Intel StrataFlash(R) Wireless Memory System 1.8 Volt Q QUAD/+ ballout S Sync ballout, original 96-ball version W Intel Wireless Flash Memory 1.8 Volt H x16 Split Bus 0 No Die Not Applicable X Custom ballout; use in conjunction with last character (R) (R) I/O Voltage Decoder CODE FLASH I/O VOLTAGE Z Flash Family A = 3.0 Volt I/O Flash Family B = 3.0 Volt I/O Y Flash Family A = 1.8 Volt I/O Flash Family B = 1.8 Volt I/O M Flash Family A = 3.0 Volt I/O Flash Family B = 1.8 Volt I/O L Flash Family A = 1.8 Volt I/O Flash Family B = 3.0 Volt I/O Table 4 Ballout Decoder Table 3 Table 5 BALLOUT DEFINITION 58Fxxxx Product Density Decoder SEQUENCE CODE NO. FLASH+RAM DIES EXPLANATION 0012 256L (Bottom)/256L (Bottom)/256V (Top)/128D Bottom parameter configuration 0012 256L (Top)/256L (Top)/256V (Bottom)/128D Top parameter configuration TBD TBD Table 6 . . . 9999 Notes: Flash and RAM die densities are referenced in Mbit, unless noted otherwise. L = Flash Code Segment; V = Flash Data Segment; D = DRAM; P = PSRAM; S = SRAM 43 44 Intel(R) Flash Memory for Wireless Applications developer.intel.com/design/flash 1.8 VOLT INTEL STRATAFLASH(R) WIRELESS MEMORY (L18/L30)-- OUR FOURTH-GENERATION INTEL STRATAFLASH(R) MEMORY 1 .8 Volt Intel StrataFlash(R) Wireless Memory (L18/L30) delivers the combination of wireless performance and Intel StrataFlash memory value that today's wireless handset developers require. L18/L30 is the world's first 1.8V Multi-Level Cell (MLC) device offering wireless designers memory features needed for today's rich wireless applications--highperformance, high-density, and low-power operation. Delivered on Intel's fourth-generation of MLC technology and 0.13 m process lithography, the L18/L30 enables highly reliable, high-performance, yet cost-effective wireless solutions. L18/L30 gives wireless products the capacity to do more while consuming less power in the process. Key Messages 1.8 Volt Intel StrataFlash Wireless Memory is the world's first low-power, high-density, multi-level cell flash memory based on 0.13-micron process technology 1.8 Volt Intel StrataFlash Wireless Memory is a single chip solution offering high density and performance that today's wireless industry requires for increased data and new graphic-rich applications on today's wireless handhelds 1.8 Volt Intel StrataFlash Wireless Memory utilizes Intel's industry-leading stacking technology to obtain densities of up to 1Gb resulting in the industry's lowest-power 1Gb code and data memory solution offered in a single package Key Benefits First 1.8 Volt MLC device on 0.13 m process lithography Intel's forth-generation MLC architecture offers highly reliable operation 64-Mb, 128-Mb, and 256-Mb high-density devices Flexible 8 Mb and partitioning allows optimized memory usage Dual-mode RWW/E operation for high data throughput Burst and page mode support for 54 MHz bus speed allows fast code execution 1.8 Volt Intel StrataFlash Wireless Memory is Levels Above and Generations Ahead 1.8 VOLT INTEL(R) WIRELESS FLASH MEMORY (W18/W30)-- OUR HIGHEST PERFORMANCE FLASH DEVICE I ntel(R) 1.8 Volt Wireless Flash memory (W18/W30) is the highest performance memory solution for wireless applications and embedded designs requiring performance or low power.. W18/W30 integrates flexible partition RWW/E architecture with synchronous burst and asynchronous page mode read operations, state-of-the-art security-enabling features and low 1.8V operation. Additionally, the W18/W30 is fully supported by the Intel(R) Flash Data Integrator (Intel(R) FDI) software, which enables effective management of code, data, and files in a flash memory device. Intel 1.8 Volt Wireless Flash is Intel's nextgeneration RWW/E device offering innovative features and revolutionary performance. Key Messages W18/W30 combines four major innovations into one product: Flexible partition Read-While-Write/Erase (RWW/E) operation Synchronous burst and asynchronous page mode read operations 1.8V operations (3.0V I/O option available) Enhanced Factory Programming (EFP) These features make this the ideal RWW/E flash memory solution for next-generation "voice plus data" cellular and wireless applications. developer.intel.com/design/flash COMPONENTS DENSITY PRODUCT AT A GLANCE: VCC VPP/VPEN I/O WIRELESS MEMORY PRODUCTS--LEADING-EDGE FEATURES FOR WIRELESS CODE EXECUTION AND DATA STORAGE APPLICATIONS Intel StrataFlash(R) Wireless Memory (L18/L30) 256 Mb 28F256L18a 16M x 16 85[25]b[14]c, 115[30]b[18]c P GE 28F256L30a 16M x 16 85[25]b[17]c, 115[30]b[25]c P GE 128 Mb 28F128L18a 8M x 16 85[25]b[14]c, 105[25]b[17]c P GE 28F128L30a 8M x 16 85[25]b[17]c, 110[25]b[20]c P GE 64 Mb 28F640L18a 4M x 16 85[25]b[14]c, 105[25]b[17]c P GE 28F640L30a 4M x 16 85[25]b[17]c, 110[25]b[20]c P GE 63 63 56 56 56 56 1.7-2.0V 1.7-2.0V 1.7-2.0V 1.7-2.0V 1.7-2.0V 1.7-2.0V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 0.9-2.0V or 9V 1.7-2.0V 2.2-3.3V 1.7-2.0V 2.2-3.3V 1.7-2.0V 2.2-3.3V Intel(R) Wireless Flash Memory (W18/W30) 128 Mb 28F128W18 8M x 16 28F128W30 8M x 16 64 Mb 28F640W18 4M x 16 28F640W30 4M x 16 32 Mb 28F320W18 2M x 16 28F320W30 2M x 16 56 56 56 56 56 56 1.7-1.95V 1.7-1.95V 1.7-1.95V 1.7-1.95V 1.7-1.95V 1.7-1.95V 0.9-1.95V or 12V 0.9-1.95V or 12V 0.9-1.95V or 12V 0.9-1.95V or 12V 0.9-1.95V or 12V 0.9-1.95V or 12V 1.7-2.24V 2.2-3.3V 1.7-2.24V 2.2-3.3V 1.7-2.24V 2.2-3.3V ORDERING ACCESS TIME (ns) PRODUCTS BALL COUNT Wireless Products Legend Access Time Footnotes: b Page Mode Access c Synchronous Burst Mode ORGANIZATION DESIGN-IN Intel(R) Flash Memory for Wireless Applications TEMP RANGE 65[20]b[11]c, 80[25]b[14]c 70[25]b[20]c, 85[25]b[22]c 60[20]b[11]c, 80[25]b[14]c 70[25]b[20]c, 85[25]b[22]c 60[20]b[11]c, 80[25]b[18]c 70[25]b[20]c, 85[30]b[20]c Product Combinations Footnotes: P = PSRAM S = SRAM PACKAGE E E E E E E GE GE GE GE GE GE Temperature Range Footnotes: E = Extended Temperature (-40C to +85C) P = Expanded Temperature (-25C to +85C) Package Footnotes: GE = 0.75mm VF BGA RD = Intel(R) Stacked Chip Scale Package LZ = Intel(R) UT-Stacked Chip Scale Package INFORMATION G T 2 8 F 6 4 0 W 18 C 70 Access Speed (ns) Commercial Temperature: (0C to +70C) DA = SSOP PA = PSOP E = TSOP RC = Easy BGA Extended Temperature: (-40C to +85C) DT = SSOP RC = Easy BGA GE = 0.75mm VF BGA TB = PSOP GT = 0.75mm BGA* TE = TSOP Density/Organization 00X = x8 X00 = x16 Product Line Designator for all Discrete Intel(R) Flash products Product Identifier B = Advanced Boot Block C = Advanced+ Boot Block J = Intel StrataFlash(R) memory K = Synchronous Intel StrataFlash(R) memory L = Intel StrataFlash(R) Wireless memory S = FlashFileTM memory W = Wireless Process Identifier A = 0.25 m C = 0.18 m D = 0.13 m Boot Position for Boot Block products only T = Top Boot B = Bottom Boot Voltage Options (VCC) 18 = 1.7-1.95V 3 = 2.7-3.6V 30 = 1.7-1.95V; 2.7-3.6 VCCQ 5 = 4.5-5.5V 45 46 Intel(R) Flash Memory for Wireless Applications developer.intel.com/design/flash VF BGA Easy BGA BGA* Finish Process Order (FPO) Part Number Finish Process Order (FPO) Part Number Part Number F320C3BC A1030510 3301ATBA M(c) '99 F128J3A A028123S 120304 M(c) '99 F128W30T 120304 M(c) '99 Logo Copyright Assembly Mark Logo Copyright Assembly Mark Logo Copyright Assembly Mark FPO Number Information -- VF BGA A 1 0 3 Plant Code Last Digit Year Work Week 0 5 1 Assembly Mark Information -- BGA* FPO Number Information -- Easy BGA 0 A 0 2 8 1 Plant Code Last Digit Year Work Week Serial Number Manufacturing Code Assembly Site Code 2 3 S Serial Number Manufacturing Code Assembly Site Code TSOP SSOP Continuation of Part Number Part Number Continuation of Part Number Part Number Spec Number 1 2 0 Last Digit Year Assembly Site Code 3 0 4 Work Week Serial Number DT28F800 F3B95 Q487 ES M(c) 1998 E28F320J5 120 U91600597 M(c) 1997 Logo Copyright Finish Process Order (FPO) Logo Copyright Engineering Sample FPO Number Information -- TSOP/SSOP U 9 Plant Code Last Digit Year Work Week 1 6 0 0 5 9 7 Serial Number Assembly Site Code Change Indicator (optional) INTEL(R) FLASH MEMORY SOFTWARE--FLASH WIRELESS MEMORY SUBSYSTEM FILE MANAGEMENT FOR YOUR I ntel offers a comprehensive line of software solutions, each designed to meet specific system application needs. Intel offers solutions for dynamic XIP code management, data storage, and code+data combined, which make the details of interfacing to flash memory flexible and easy for the system software. Intel(R) Flash Data Integrator (Intel(R) FDI)--Wireless Advantage ntel Flash Data Integrator (Intel FDI) is the leading wireless real-time code+data solution that delivers a true XIP advantage to get the most out of Intel Flash memory. Intel FDI manages code, data, and files in flash memory within an open architecture, including support for downloaded Java* applets, Bluetooth* file transfers, and voice recognition tags. The Intel FDI architecture allows easy integration into most real-time operating systems. I Software Product Highlights: Combined with Intel StrataFlash memory, creates a low-cost and compelling package for cellular handset designs Built-in support for both software-based and hardware-based read-while-write for data-centric real-time systems Simple data storage Application Program Interface (API) File Manager provides data storage in the form of ANSI-style files, to simplify software design Code Manager provides storage and direct execution (XIP) of Java applets and native code Tested, debugged, documented, and easily ported C-source code reduces the time-to-market for OEMs Code size is only 60 to 200 Kbytes (depending on feature set) developer.intel.com/design/flash FEATURES BENEFITS File Manager Code Manager Read-While-Write Robust power-loss recovery and wear-leveling Intel(R) Flash Memory for Wireless Applications ANSI-style file storage Meta-data support for file name, size, date/time stamp, owner, and permissions Multiple open items for high-performance access Enables easier coordination between software development teams by providing an alternative to numeric data identifiers Store, update, and delete code segments XIP of code for high performance Enables downloaded software such as Java applets Takes advantage of hardware-based RWW on dual- and multi-partition flash memory devices Software-based RWW enables real-time data management on singlepartition flash memory Recovers most current data when power is lost during writes Ensures better cycling endurance for flash memory Royalty-free license when using Intel(R) Flash devices No incremental product costs Comprehensive support for Intel Flash memory features Compatible with the newest flash memory technology (R) Intel(R) Persistent Storage Manager (Intel(R) PSM)--The Ideal Windows* CE Solution ntel(R) Persistent Storage Manager (Intel(R) PSM) is the reliable executable storage solution that offers code+data+registry backup in one Intel Flash memory for enterprise Windows* CE systems. Intel PSM software works in conjunction with the file system in the Microsoft Windows CE (PocketPC and SmartPhone) OS to provide simultaneous access to separate code and file partitions in the same chip. Unlike other data-only storage solutions, the code can be direct executed (XIP), demand-paged, or memory-mapped. I Software Product Highlights: Enables one of the most efficient memory system architectures in the marketplace for Windows CE Combines key memory functions into a single flash memory or bank Code Execution manages simultaneous read and write/erase operations Data Storage provides Microsoft Windows CE OS-compliant installable file system with power loss protection and wear-leveling Registry Backup and Restore enables pre-OS registry restore functions Maximizes benefits of Intel StrataFlash memory Cost-effective storage Reliable system backup Less board space, lower component count Easily integrated installable file system and device driver Pre-OS library file plus file system DLL Fully compliant with Microsoft Windows CE .NET operating system, PocketPC, and SmartPhone FEATURES BENEFITS Executable code and data storage in the same chip File system with robust power-off recovery Pre-OS registry recovery and save Efficient use of all memory space in the design Greater design flexibility Reduces power consumption, component count, and required board space Maximizes value of flash memory Media will not corrupt if power is lost during a file modification Allows Intel StrataFlash(R) memory to be used as file storage Extends effective erase cycle endurance More reliable and efficient recovery from registry corruption events 47 48 Intel(R) Flash Memory for Wireless Applications developer.intel.com/design/flash Intel(R) Virtual Small Block File Manager (Intel(R) VFM)--Easy to Integrate ntel(R) Virtual Small Block File Manager (Intel(R) VFM) is the proven, flexible, easy-to-integrate flash file manager for embedded systems. Intel VFM is Intel's Flash software reference code which provides for disk-like sector and file access to Intel Flash. In addition to data storage capability, VFM also accommodates handling code in the same component. I Software Product Highlights Broadbase solution for embedded flash components Intel-developed code creates virtual small-block (VSB) sectors in the larger flash erase blocks File system sector calls are translated to Intel Flash standard commands VSB Flash Media Manager handles flash read/erase/write, wear-leveling, and sector management Intel VFM can work as the file manager or with an existing one Reserved Blocks allows for integration of code, or other capabilities, with the data storage features of Intel VFM Virtual Component support allows for optimal flash array utilization Small code size (14-20KB of code and 2-8KB RAM) High-performance edit capability Robust power-off recovery and media cleanup FEATURES BENEFITS C source code Easy porting to a wide variety of applications Enhancements or changes can be handled by the OEM CFI enabled flash routines Supports a wide range of current and future Intel(R) Flash components Complete documentation Porting Guide, User's Guide, Overview, etc., provides quick access to information to understand the code Reserved flash region Facilitates code handling in same component with data Royalty-free and derivative right license Lower cost Own your own solution Intel(R) Flash Memory Software SUPPORTED COMPONENTS S/W SOLUTIONS (R) Intel FDI Intel(R) VFM Intel(R) PSM Wireless L18/L30 LV18/LV30 W18/W30 Mainstream J3 K3, K18 Basic C3, B3 Fully supported and validated Code modifications required If you wish to get Intel(R) Flash Software, please order a physical copy of the software product's user's guide. Instructions on how to download the software from our Web site will be shipped with the manuals. Intel(R) Flash Memory Documentation For a complete list and to download available literature, visit our flash memory Web site at: http://developer.intel.com/design/flash developer.intel.com/design/flash Intel(R) Flash Memory for Embedded Applications Intel Flash Memory for Embedded Applications (R) E mbedded applications increasingly require rugged, versatile memory solutions. Designers need to accommodate features and functionality, while protecting the end-user's hardware investment. As the world's leading supplier of flash memory, Intel's combination of supply availability, innovative product offerings, high-quality standards, and superior customer support result in embedded memory subsystem solutions unrivaled in the industry. When it comes to embedded memory solutions, reliable high-density, low-cost flash memory from Intel is the answer. 3 VOLT INTEL STRATAFLASH(R) MEMORY (J3 FAMILY)-- SECOND-GENERATION INTEL STRATAFLASH(R) MEMORY ARCHITECTURE I ntel StrataFlash(R) memory components utilize reliable and proven two-bit-per-cell technology to deliver 2x the memory in 1x the space, offering high-density flash at low cost. Intel StrataFlash memory offers exceptional value and reliability with over four generations of products and 100 million units shipped. Intel StrataFlash Memory (J3) is the best value for mainstream applications requiring both performance and large space for code and data storage. Available in densities up to 256 Mbit (32 Mbyte), J3 is the highest density NOR-based flash component available in high-volume manufacturing today. On Intel's 0.18-micron technology, J3 sets a new benchmark for fast read speeds by adding both a four and eight word page mode feature. Page mode reads are up to three times faster than asynchronous reads on standard flash memory devices. J3 also offers a high-performance glueless interface to a myriad of processors for various applications (see CPU to Flash Solution Matrix at http://developer.intel.com for details). This success of Intel's StrataFlash memory over the past six years has resulted in other flash memory manufacturers producing compatible parts to Intel's J3 product family. FEATURES BENEFITS Intel(R) MLC Technology Over six years of leading-edge reliability, performance, and value 32-, 64-, 128-, 256-Mb densities Lowest cost-per-bit NOR devices 56-lead TSOP package Over 100 million TSOP packages shipped 64-ball Easy BGA package Long-term size and footprint capability; 50 percent smaller than 56-lead TSOP Common Flash Interface (CFI) Compatibility with future products today One-Time-Programmable protection registers 64 bits programmed at the factory with a unique ID, and 64 bits can be programmed by the OEM; traceability, license control, and system authentication Page Mode Interface Page access mode improves read performance up to 3x Complete selection of Intel(R) Flash Management Software Dramatically reduces the time-to-market for OEMs and is easily ported to OEM's environment. 49 50 Intel(R) Flash Memory for Embedded Applications INTEL (R) ADVANCED+ BOOT BLOCK developer.intel.com/design/flash FLASH MEMORY (C3/B3 FAMILY) T he Intel(R) 3 Volt Advanced+ (C3) and Advanced Boot Block (B3) Flash memory family is the world's first flash memory on the 0.13 m process lithography--Intel's fifth generation of its successful boot block memory products. Intel's C3 and B3 products are the industry's most widely used flash memory. Designed for a diverse range of applications, the Advanced+ and Advanced Boot Block devices are available in 16- to 64-Mbit densities, with access times up to 70 ns. Packaged offerings include 48-lead TSOP, 48-ball VF BGA, 64-ball Easy BGA, and 8 x 9 matrix Stacked Chip Scale Package. By using the same package configuration, designers can easily migrate from one density to another across five generations of boot block products. FEATURES BENEFITS Intel's 0.13 m process lithography Ideal solution for next-generation applications High performance 70 ns access times @ 2.7-3.6V Vcc operation Full Extended Operating Temperature: -40 C to +85 C 12V Vpp fast programming option improves throughput time for lower manufacturing costs Full range of easy-to-upgrade, pin-compatible densities 16 Mb, 32-Mb and 64-Mb densities for diverse application needs TSOP, VF BGA, Easy BGA and Stacked Chip Scale Packaging Wireless and broad market package offerings Industry-standard JEDEC packaging Proven package reliability VF BGA and Stacked-CSP flash for space-constrained applications Consistent package footprint across densities makes migrations easier Instant individual block locking (C3 only) 128-bit fraud protection register (C3 only) Ensures immediate data protection for individual blocks Unique ID and OTP enables fraud protection capabilities 3 VOLT SYNCHRONOUS INTEL STRATAFLASH T (R) MEMORY (K3/K18 FAMILY) he Synchronous Intel StrataFlash memory product provides a high-performance burst-mode interface and other additional features to the Intel StrataFlash memory family of products. Looking forward, the K3/K18 family of products is expected to only be supported through 2007. For designs requiring support beyond the K3/K18 life cycle, there are currently two choices. For designs that require the performance of a Synchronous interface, focus on the W18/30 products. Information on these products can be found in the "Intel(R) Flash Memory for Wireless Applications" chapter. For designs requiring higher densities up to 256Mb, refer to the J3 family of products earlier in this chapter. developer.intel.com/design/flash FEATURES Intel(R) Flash Memory for Embedded Applications BENEFITS Intel(R) MLC Technology Over five years of proven reliability, performance, and value 256-Mb, 128-Mb, 64-Mb densities Industry leading, highest density NOR flash Page and Burst Mode Interfaces Page and burst modes improve read performance up to 5x Complete selection of Intel(R) Flash management software Dramatically reduces the time-to-market for OEMs and is easily ported to OEMs' environment Buffered Enhanced Factory Programming (BEFP) BEFP speeds up MLC flash programming up to 80 percent for today's beat-rate sensitive manufacturing environments One-Time-Programmable protection registers 64 bits programmed at the factory with a unique ID, and 2K bits can be programmed by the OEM; traceability, license control, and system authentication Common Flash Interface (CFI) Compatibility with future products today 64-ball Easy BGA package Long-term size and footprint capability; 50 percent smaller than 56-lead TSOP VF BGA package and Intel(R) Stacked-CSP Small packaging for wireless applications INTEL (R) FLASH MEMORY DEVELOPMENT TOOLS I ntel(R) Flash memory tools reduce product development time and save money by getting your product to the market faster. Intel and third-party vendors worldwide provide a wide range of tools for all stages of the product development cycle. Information and vendor URL links pertaining to these tools are located on the World Wide Web at the Intel(R) Flash Memory Tools and Software site and in the Electronic Tools Catalog. The Electronic Tools Catalog contains thousands of tools from more than 200 companies. These tools provide solutions for the definition, design, prototype, and production stages of the product development cycle. Examples of Intel Flash memory tools range from pre-silicon software models, PCB layout files, Intel(R) software, programming products, information and services, test accessories, PCB design guidelines, SMT manufacturing tips, and rework equipment. Many other items are available on Intel's Web site, including Chip Scale Package (CSP) information, product information, application notes, datasheets, and online ordering of hard-copy manuals, such as the Intel(R) Flash Memory Tools Guide. TOOL HIGHLIGHTS Definition and Design Tools * IBIS, VHDL, and Verilog software models * PCB flexible layout and escape routing gerber files * Schematic symbol files * Media/file managers, templates, and utility software * Intel(R) Flash memory SOFTWAREBuilder * Intel(R) Flash memory packaging technology Prototype and Production Tools * PCB contract manufacturers * Programming Tools Web page, (developer.intel.com/design/flash/swtools/tools.htm), onboard (JTAG/ATE), off-board, application notes, etc. * Programmers: engineering, concurrent, gang, and automated * Programming, prototype, and production sockets and adapters * Programming and shipping media services * Tape and reel equipment and services * SIMM/DIMM manufacturers * Test accessories * Rework equipment 51 52 Intel(R) Flash Memory for Embedded Applications developer.intel.com/design/flash FEATURES BENEFITS Programming tools, sockets and support Variety of programming solutions that improve your flash memory programming process by decreasing development times, lowering costs, and improving production capabilities. Intel also works proactively with many programming companies and socket manufacturers to ensure reliable programming hardware and software support is available for Intel(R) Flash memory products. Pre-silicon software models (IBIS, VHDL, and Verilog) Assists the designer in evaluating design functionality and/or electrical characteristics of Intel Flash memory components through software simulation. PCB flexible layout and escape routing files Software-based files that allow for multiple Intel Flash memory packages to be designed into a single PCB land pad area or escape routing designs for Intel Flash memory CSPs. Files can be downloaded directly for PCB design. Media/file managers, templates, and utility software Software-based files that provide standard schematic symbols, software management functions, low-level flash access routines to help simplify your product development. Test accessories Test accessories include a variety of test debug tools usually used in the prototype and production stage of product development. These tools range from vacuum wands and handling procedures to test clip and access fixtures for all Intel Flash Memory packages. Rework equipment Reviews rework systems that encompass multiple process steps such as component removal, site redress, solder paste application, split-vision part placement, and reflow oven on the same system. developer.intel.com/design/flash COMPONENTS DENSITY PRODUCT AT A ORGANIZATION GLANCE: ACCESS TIME (ns) DESIGN-IN I/O MAINSTREAM MEMORY PRODUCTS--COST-EFFECTIVE FLASH MEMORY FOR MAINSTREAM CODE EXECUTION AND DATA STORAGE APPLICATIONS Intel StrataFlash(R) Memory (J3) 256 Mb 28F256J3 32M x 8 or 16M x 16 125[30]b E TE/RC 56/64 2.7-3.6V 128 Mb 28F128J3 16M x 8 or 8M x 16 120[25]b E TE/RC 56/64 2.7-3.6V 64 Mb 28F640J3 8M x 8 or 4M x 16 115[25]b E GE/TE/RC 48/56/64 2.7-3.6V 32 Mb 28F320J3 4M x 8 or 2M x 16 110[25]b E GE/TE/RC 48/56/64 2.7-3.6V 3V 3V 3V 3V 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V Synchronous Intel StrataFlash(R) Memory (K3/K18) 256 Mb 28F256K3 16M x 16 28F256K18 16M x 16 128 Mb 28F128K3 8M x 16 28F128K18 8M x 16 64 Mb 28F640K3 4M x 16 28F640K18 4M x 16 E E E E E E BASIC MEMORY PRODUCTS--DEPENDABLE AND MOST WIDELY USED FLASH MEMORY Intel(R) Boot Block Flash Memory (C3, B3) 64 Mb 28F640C3 4M x 16 80 E 32 Mb 28F320C3 2M x 16 70, 90 E 28F320B3 2M x 16 70, 90 E 16 Mb 28F160C3 1M x 16 70, 90 E 28F160B3 1M x 16 70, 90 E PACKAGE PRODUCTS VPP/VPEN 120[25]b[13]c 120[30]b[15]c 115[25]b[13]c 115[30]b[15]c 110[25]b[13]c 110[30]b[15]c TEMP RANGE Intel(R) Flash Memory for Embedded Applications NUMBER PINS VCC GE/RC GE/RC GE/RC GE/RC GE/RC GE/RC 63/64 63/64 56/64 56/64 56/64 56/64 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V 3V 3V 3V 3V 3V 3V 2.375-3.6V 1.65-1.95V 2.375-3.6V 1.65-1.95V 2.375-3.6V 1.65-1.95V TE, GE/RC TE, GE/RC TE, GE TE, GE/RC TE, GE 48/64 48/64 48 48/64 48 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V 2.7-3.6V 1.65-3.6V or 12V 1.65-3.6V or 12V 2.7-3.6V or 12V 1.65-3.6V or 12V 2.7-3.6V or 12V 1.65-2.5V or 2.7-3.6V 1.65-2.5V or 2.7-3.6V 1.65-2.5V or 2.7-3.6V 1.65-2.5V or 2.7-3.6V 1.65-2.5V or 2.7-3.6V * Speed @ 3.0-3.6V. 3 Volt Boot Block parts are marked with 2.7-3.6V Vcc speeds. Embedded Products Legend Access Time Footnotes: b Page Mode Access c Synchronous Burst Mode Temperature Range Footnotes: C = Commercial Temperature (0C to +70C) E = Extended Temperature (-40C to +85C) P = Expanded Temperature (-25C to +85C) Package Footnotes: Commercial Temperature: (0C to +70C) DA = SSOP PA = PSOP E = TSOP RC = Easy BGA Extended Temperature: (-40C to +85C) DT = SSOP TB = PSOP GE = 0.75mm VF BGA TE = TSOP RC = Easy BGA Temperature range on Intel(R) Stacked Chip Scale Package/CSP (-25C to +85C) 53 54 Intel(R) Flash Memory for Embedded Applications ORDERING developer.intel.com/design/flash INFORMATION G T 2 8 F 6 4 0 W 18 C 70 Access Speed (ns) Commercial Temperature: (0C to +70C) DA = SSOP PA = PSOP E = TSOP RC = Easy BGA Density/Organization 00X = x8 X00 = x16 Process Identifier A = 0.25 m C = 0.18 m D = 0.13 m Product Line Designator for all Discrete Intel(R) Flash products Extended Temperature: (-40C to +85C) DT = SSOP RC = Easy BGA GE = 0.75mm VF BGA TB = PSOP GT = 0.75mm BGA* TE = TSOP Boot Position for Boot Block products only T = Top Boot B = Bottom Boot Product Identifier B = Advanced Boot Block C = Advanced+ Boot Block J = Intel StrataFlash(R) memory K = Synchronous Intel StrataFlash(R) memory L = Intel StrataFlash(R) Wireless memory S = FlashFileTM memory W = Wireless VF BGA Easy BGA BGA* Finish Process Order (FPO) Part Number Finish Process Order (FPO) Part Number Part Number F320C3BC A1030510 3301ATBA M(c) '99 F128J3A A028123S 120304 M(c) '99 F128W30T 120304 M(c) '99 Logo Copyright Assembly Mark Logo Copyright Assembly Mark Logo Copyright Assembly Mark FPO Number Information -- VF BGA A 1 Plant Code Last Digit Year Work Week Voltage Options (VCC) 18 = 1.7-1.95V 3 = 2.7-3.6V 30 = 1.7-1.95V; 2.7-3.6 VCCQ 5 = 4.5-5.5V 0 3 0 5 1 Assembly Mark Information -- BGA* FPO Number Information -- Easy BGA 0 A 0 2 8 1 Plant Code Last Digit Year Work Week Serial Number Manufacturing Code Assembly Site Code 2 3 S Serial Number Manufacturing Code Assembly Site Code TSOP SSOP Continuation of Part Number Part Number Continuation of Part Number Part Number Spec Number 1 2 0 Last Digit Year Assembly Site Code DT28F800 F3B95 Q487 ES M(c) 1998 E28F320J5 120 U91600597 M(c) 1997 Logo Copyright Finish Process Order (FPO) Logo Copyright Engineering Sample FPO Number Information -- TSOP/SSOP U 9 Plant Code Last Digit Year Work Week 1 6 0 0 5 9 7 Serial Number Assembly Site Code Change Indicator (optional) Intel(R) Flash Memory Documentation For a complete list and to download available literature, visit our flash memory Web site at: http://developer.intel.com/design/flash 3 0 4 Work Week Serial Number developer.intel.com/design/storage I/O Products Intel I/O Processors (R) INTEL'S I/O PROCESSORS (IOP) I ntel's I/O processor family offers 32-bit microprocessor products that are designed to enable high-performance I/O solutions. These I/O processors have been designed from the ground up optimizing and balancing dataflow in order to deliver the highest I/O throughput possible. Intel's I/O processors range from high-frequency discrete products to fully integrated devices offering all of the required components of a complete I/O solution such as a PCI-X interface or bridge, memory controller, high-performance core, and an XOR engine (for RAID 5 parity generation). Intel's I/O processor family is specifically designed to increase system-level performance by off-loading many of the I/O tasks traditionally handled by the host processor. From a system-level standpoint, an I/O processor can reduce the utilization of the host CPU by servicing I/O requests and interrupts without host intervention, resulting in a significant increase in overall performance of servers. Intel's I/O processors provide high I/O performance and better system balance, improving scalability and performance. Applications that can best utilize these features include networked storage applications, servers, SAN, NAS, RAID adapter cards, LAN adapter cards, computer telephony devices, networking devices and other I/O-intensive systems. Intel's I/O processors have also found usage in VoIP, iSCSI, Video processing, set-top boxes, control plane processing, medical and others. Intel(R) IOP331 I/O Processor with Intel XScale(R) Microarchitecture he Intel(R) IOP331 is a highly integrated I/O system on a chip for I/O-intensive storage, networking, communications, and embedded applications. The IOP331 features an 800 MHz CPU, high-performance internal bus, dual-ported memory controller, a high-bandwidth PCI-X to PCI-X Bridge, and an improved interrupt controller to provide a high-performance, highly integrated processor solution. Target applications include PCI/PCI-X host-based adapters (RAID cards, iSCSI cards, FC cards, Security/SSL NICs, etc.), control plane and system controller applications utilizing PCI/PCI-X as a system interconnect and/or backplane Virtual Private Network devices, video servers, Network gateways, Network Attached Storage, External Storage Arrays), PCI/PCI-X-based line cards (VoIP, Routers, etc.), and a host of other applications that require a highly integrated, high-performance system on a chip processor. As Intel's sixth-generation I/O processor, the IOP331 continues to build on Intel's strength in delivering high-performance, low-power Intel XScale(R) technology processors. The IOP331 is code compatible with the Intel(R) IOP321 I/O Processor, other Intel XScale core processors, and ARM*-based devices, simplifying code porting from existing designs. The IOP331 provides ultra-fast memory transactions due to its Double Data Rate (DDR) SDRAM dual-ported memory controller that supports up to 2 GB of DDR 333 MHz memory or 1 GB of DDRII 400 MHz memory. The memory controller supports 32-bit or 64-bit memory subsystems with or without ECC. The IOP331 features a new dual-ported memory controller that provides both a direct port from the CPU to memory (core port) and a port from the ATU/internal bus to memory (internal bus port). The Intel IOP331 also has made significant improvements to the interrupt controller in order to reduce interrupt latency. The interrupt controller includes an advanced vector generator for both FIQ and IRQ interrupts, delivering the vector directly to the interrupt service routine, saving software overhead. Also included is an interrupt prioritizer that uses a two-bit field for each interrupt source to provide four levels of interrupt priority. T 55 56 I/O Products developer.intel.com/design/storage FEATURES 500/667/800 MHz Intel XScale(R) core Integrated, System on a chip design Dual PCI/PCI-X Interfaces Integrated PCI-X Bridge Up to 133 MHz operation 2 DMA units with chaining support Support to configure the device from remote PCI host Optimized Memory Controller DDR 333 and DDRII 400 with ECC 64-, 72-bit memory, and 32-bit mode also supported Communications High performance with low power PCI-X to PCI-X Bridge integration lowers BOM cost and helps reduce board space Intel XScale core has direct memory access resulting in much improved performance Integration helps reduce board space and lower BOM cost I2C* UARTs 16-bit local bus with two chip selects 8 GPIO pins Application Accelerator Units in DMA BENEFITS RAID5 XOR iSCSI CRC32C Application-specific integration in hardware improves RAID5 and iSCSI performance and helps reduce CPU overhead Intel XScale(R) 80219 General-Purpose PCI Processor he Intel XScale(R) 80219 general-purpose PCI processor is a single-chip solution that opens the door to cost sensitive, high-performance embedded application use. The 64-bit PCI-X interface is one of several enticing features. The 80219 processor's 64-bit PCI-X interface is fully backward compatible to PCI 2.2 standards enabling easy interface to cheaper PCI components today, and the PCI-X 1.0a compatibility makes it simple to upgrade to PCI-X in the future. The 133 MHz 64-bit PCI-X interface achieves up to 1 GB per second throughput. The internal bus operates at 200 MHz delivering internal bandwidth of up to 1.6 GB/second. The 80219 also features a 200 MHz DDR SDRAM controller with ECC that supports up to 1 GB of 64-bit DDR SDRAM. The 32-bit local bus is programmable at 33, 66 and 100 MHz making it simpler to develop embedded applications requiring a connection to non-PCI peripheral components such as ASICs, Flash memory, or DSPs. The 80219 is a highly integrated chip with the high performance and bandwidth necessary to serve a wide range of embedded applications such as industrial controllers, low-end networking, set-top boxes, compact PCI, digital surveillance security, vision inspection equipment, personal storage appliances, control plane processing, Voice over Internet Protocol (VoIP) blades and devices, print imaging devices and a host of other applications requiring high performance and low power in a tightly integrated environment. The 80219 general-purpose PCI processor introduces a powerful combination of integrated features. The 133 MHz PCI-X interface achieves up to 1 Gbyte per second throughput, a two-fold increase over 66 MHz PCI. The internal bus operates at 200 MHz and offers internal bandwidth of up to 1.6 Gbytes/second. The 80219 also features a 200 MHz DDR SDRAM controller with ECC that supports up to 1 Gbyte of 64-bit DDR SDRAM. It also supports 32-bit memory for applications that are more space and cost sensitive. It contains a programmable (33, 66, 100 MHz), 32-bit local bus that is excellent for embedded applications requiring connections to non-PCI peripheral components such as ASICs, flash memory, or DSPs. T developer.intel.com/design/storage I/O Products FEATURES BENEFITS 400, 600 MHz Intel XScale(R) Core High-performance with low power Integrated, System-On-A-Chip Design Smaller packaging for board space cost savings 64-bit PCI 2.2 Interface Industry Standard I/O Bus allowing flexible inexpensive interconnect 133 MHz PCI-X 1.0a Interface Easy upgrade to higher speed I/O interconnect 200 MHz DDR SDRAM Bus Higher memory performance for higher system performance Up to 1GB memory support Supports large memory subsystems when necessary 1.6 GB/s Internal Bus Increases overall design performance 32-bit Local Bus Excellent for embedded applications requiring non-PCI peripherals such as ASICs, DSPs, or flash 8 GPIOs 4 SDRAM Output Clocks Reduces chip count Saves board space 2 Programmable Timers Intel(R) IOP315 I/O Processor Chipset with Intel XScale(R) Technology he Intel(R) IOP315 chipset--Intel(R) 80200 processor and Intel(R) 80314 companion chip--dramatically improves upon the performance of the first-generation I/O processor chipset (Intel(R) IOP310). The IOP315 2-chip combo touts a 60 percent performance increase over the previous pair. The performance is scalable with either single or dual core options. Thanks to the Intel XScale microarchitecture, developers of a variety of applications can optimize the needs from ultra-low power of high-performance processing. This new microarchitecture is compliant with the ARM* Version 5TE instruction set (excludes the floating-point instruction set). T 57 58 I/O Products developer.intel.com/design/storage High-performance companion chip for the Intel(R) 80200 processor he Intel(R) 80314 companion chip for the Intel(R) 80200 processor provides a rich peripheral set designed for storage and network applications. The Intel 80314 can support either one or two Intel 80200 processors. The Intel 80314 uses an internal switch fabric and supports concurrent transactions from any interface to any other interface. For fast memory transactions, the Intel 80200 processor interface has a dedicated bus to the DDR SDRAM memory controller that allows multiple concurrent outstanding transactions. The Intel 80314 is especially well suited for high-performance storage applications such as network storage target devices (SAN, iSCSI, NAS) and intelligent network adapter cards (iSCSI, IPv4, IPv6, IPSec). The integrated PCI-X bridge, dualported ECC memory, low-latency 1 MB SRAM, high-bandwidth switch fabric and CRC32C and XOR engines make it an ideal choice for these applications. In addition, the Intel 80314 is an excellent solution for embedded and networking applications with its integrated dual-10/100/1000 Mbps MACs and flexible endian support. T FEATURES BENEFITS Intel 80200 Interface High-performance Intel XScale(R) technology that scales (R) 100 MHz Request Bus 4-Entry Request Buffer 2.5V I/O generation, 3.3V tolerant (from Intel 80200) Support for single or dual Intel 80200 processors ECC-based bus integrity protection Dual PCI/PCI-X Interfaces Integrated PCI-X bridge 25-133 MHz operation 4 DMA units with chaining support Support to configure the device from remote PCI host CPCI hot-swap support 5V tolerant/3.3V I/O 4 concurrent split transactions Configurable arbitration logic Optimized Memory Controller PCI-X to PCI-X bridge integration lowers Bill of Material (BOM) cost and helps reduce board space Provides for increased system concurrency Dramatically increases core to memory performance Dual-ported MCU 64- and 72-bit memory 12 GB support, 3 DIMMs Optional 1 MB of Low-Latency SRAM Low-latency memory option helps reduce bottlenecks and improve performance Communications Integration reduces board space, lowers BOM, and improves performance 2 GbE MACs 133 MHz, 32-bit local bus with 4-chip selects I2C* UARTs 8 GPIO pins Application Accelerator Units in DMA RAID5 XOR iSCSI CRC32C Storage-specific integration in hardware improves performance and helps reduce CPU overhead developer.intel.com/design/storage I/O Products Intel(R) IOP321 I/O Processor he Intel(R) IOP321 I/O processor is Intel's fifth-generation I/O processor. It is the first I/O processor to integrate an Intel XScale core and a PCI-X interface. Many storage, networking, and embedded applications require fast I/O throughput for optimal performance. The Intel IOP321 is a highly integrated, cost-effective I/O system on a chip that delivers a two-fold performance boost over its predecessor, the Intel(R) IOP310 I/O processor chipset, in I/O-intensive applications. The Intel IOP321 is especially well suited to storage applications including RAID (Redundant Array of Independent Disks), HBAs (Host Bus Adapters), and ROMB (RAID on motherboard). Its small package size, high data throughput, and integrated AAU/XOR provide an optimized solution for ROMB applications. In addition, the Intel IOP321 processor is an ideal choice for applications requiring a high-performance I/O subsystem in a tightly-integrated environment. The Intel IOP321 offers the flexibility to interface with a wide variety of different interconnect technologies, including SCSI, Fibre Channel, SATA, IB, and GBit Ethernet. Utilization of the Intel IOP321 across multiple applications can contribute to cost savings, ease of development, and more effective inventory management. T FEATURES BENEFITS 400, 600 MHz Intel XScale(R) Core High-performance with low power Integrated, System-On-A-Chip Design Smaller packaging, board space cost savings 133 MHz PCI-X Interface Industry-Standard I/O Bus 200 MHz DDR SDRAM Bus Higher memory performance Up to 1GB memory support Two-fold increase in total memory addressability 32 bit Local Bus Excellent for embedded applications requiring non-PCI-X peripherals such as ASICs, DSPs, or glueless FLASH 8 GPIOs Reduces chip count 4 SDRAM Output Clocks Saves board space 2 Programmable Timers Simplifies design AAU/XOR Integrated data protection for RAID; cuts board cost/space 59 60 I/O Products developer.intel.com/design/storage Intel(R) IOP303 I/O Processor he Intel(R) IOP303 I/O processor, Intel's third-generation I/O processor, provides developers with a fully validated, singlechip solution that can deliver a 25 percent increase over the Intel(R) i960(R) RN processor in I/O performance in RAID 0 applications. While the Intel IOP303 I/O processor is based on the Intel i960 processor core, the chip inaugurates a new naming convention for Intel(R) I/O processors. The new "Intel(R) IOP300" series name provides an easier reference for continuing performance increases on Intel's I/O processor roadmap. The Intel IOP303 I/O processor continues Intel's commitment to strong I/O performance, delivered with high-integration. In addition to its integrated 66 MHz PCI-to-PCI bridge, other enhanced integrated features include a 100 MHz internal bus and 100 MHz SDRAM controller, XOR engine, SDRAM clocks, secondary PCI clocks and eight general-purpose I/O registers, all on a single chip. Compared to the Intel i960 RN I/O processor, maximum accessible memory has been increased from 128 Mbytes to 512 Mbytes of SDRAM. The chip supports both the 5V and 3.3V PCI 2.2 specifications. T FEATURES BENEFITS Single chip, integrated I/O processor Integration. Pre-validated, fast time-to-market solution 66 MHz, 64-bit PCI-to-PCI bridge Standards. High data bandwidth and PCI compliant 64-bit, 100 MHz internal bus Data throughput. 800Mbps peak bandwidth for optimum data flow Two address translation units ATU. Maps PCI memory space onto the internal bus for high-performance, direct processor access Three channel DMA controller Two channels between primary PCI bus and local memory One channel between secondary PCI bus and local memory DMA. Transfers blocks of data between the PCI bus and the local processor memory at a maximum throughput of 528Mbps Application accelerator unit (integrated hardware XOR engine) XOR. Supports fast parity generation for applications such as RAID levels 3 and 5 Performance Monitoring Unit (PMU) Performance tuning. Providing monitoring capabilities of 98 discrete events to assist in fine-tuning applications for maximum performance Integrated memory controller Memory. Supports 100 MHz SDRAM, also flash memory I2C* bus interface unit System management. Supports server management features (temperature control, LCD display) I/O PROCESSORS LINE PRODUCT CORE SPEED (MHz) PCI BUS SPEED (MHz) Intel 80331M500 Intel(R) 80331M667 Intel(R) 80331M800 Intel(R) 80219M400 Intel(R) 80219M600 Intel(R) 80314GN 500 667 800 400 600 N/A 133(PCI-X) 133(PCI-X) 133(PCI-X) 133(PCI-X) 133(PCI-X) 133(PCI-X) Intel(R) 80314GS N/A 133(PCI-X) Intel 80321M400 Intel(R) 80321M600 Intel(R) 80200M200 Intel(R) 80200M200T Intel(R) 80200M400* Intel(R) 80200M400T* Intel(R) 80200M600* Intel(R) 80200M600T* Intel(R) 80200M733* Intel(R) 80200M733T* Intel(R) 80303 400 600 200 200 400 400 600 600 733 733 100 133(PCI-X) 133(PCI-X) N/A N/A N/A N/A N/A N/A N/A N/A 66 (R) (R) CARD PCI CACHE AAU PMU LOCAL BUS PACKAGE 64-bit PCI-X bridge 64-bit PCI-X bridge 64-bit PCI-X bridge 64-bit PCI-X Interface 64-bit PCI-X Interface 2 x 64-bit PCI-X Interfaces 2 x 64-bit PCI-X Interfaces 64-bit PCI-X Interface 64-bit PCI-X Interface N/A N/A N/A N/A N/A N/A N/A N/A 64-bit PCI-to-PCI bridge 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache N/A Yes Yes Yes No No Yes Yes Yes Yes Yes Yes Yes 16 bit 16 bit 16 bit 32 bit 32 bit 32 bit 829L FCBGA 829L FCBGA 829L FCBGA 544L PBGA 544L PBGA 1027L HSBGA 1MB SRAM Yes Yes 32 bit 1027L HSBGA 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 32K I cache, 32K D cache 16K I cache, 4K D cache Yes Yes N/A N/A N/A N/A N/A N/A N/A N/A Yes Yes Yes N/A N/A N/A N/A N/A N/A N/A N/A Yes 32 bit 32 bit No No No No No No No No No 544L PBGA 544L PBGA 241L PBGA 241L PBGA 241L PBGA 241L PBGA 241L PBGA 241L PBGA 241L PBGA 241L PBGA 540L PBGA * The Intel(R) 80200Mxxx and Intel(R) 80312 constitute the "Intel(R) IOP310 chipset." developer.intel.com/go/networkprocessors Network Processors Network Processors I ntel(R) network processors combine the high performance and low power consumption of Intel XScale(R) technology with an easy-to-use programming framework that enables flexible implementation of rich networking services at line rates up to OC-192/10 Gbps. They are designed to meet the specialized packet handling requirements of market segments ranging from customer premises equipment, to access, edge and the core of the network, and up through platforms that support secure content processing. Network Processors covered in this section are: Intel(R) IXP2850: Network edge security and storage area network applications to OC-192/10 Gbps Intel(R) IXP2800: Network edge and core applications to OC-192/10 Gbps Intel(R) IXP2400: Network access and edge applications to OC-48/2.5 Gbps Intel(R) IXP425: A broad range of home, SME, and embedded networking applications requiring high performance Intel(R) IXP422: Home, SME, and embedded networking applications requiring security Intel(R) IXP421: Home, SME and embedded networking applications requiring voice Intel(R) IXP420: Cost-sensitive home, SME and embedded networking applications INTEL (R) IXP2XXX NETWORK PROCESSOR PRODUCT LINE Family Overview quipment designed for network edge and core applications requires high levels of processing performance to support value-added network services at line rates up to and including OC-192/10 Gbps. While rapidly adding these new services, network equipment vendors must continue to minimize development time and cost. To support these services and to extend time-in-market network processors must combine performance with highly flexible control of processing resources. In addition, implementation of standards-based interfaces for easy component integration and the ability to leverage software investments by reusing code can dramatically speed time-to-market and lower development costs. Intel's second-generation network processors, the Intel IXP2400, Intel IXP2800, and Intel IXP2850, use fast and flexible sharing of data and event signals among threads and microengines to manage data-dependent operations among multiple parallel processing stages with low latency. Through this combination of flexible packet processing and fast inter-process communication, Intel delivers rich processing capability at line rates up to and including OC-192/10 Gbps. The Intel(R) IXP2XXX network processors deliver this enhanced performance with the programmability designed to speed the deployment of intelligent network services. A centerpiece of Intel(R) Internet Exchange Architecture (Intel(R) IXA), Intel's second-generation network processor architecture scales to successive generations of networking products and is supported by a common set of development tools, libraries, and example designs. In combination, the Intel IXP2400, Intel IXP2800, and Intel IXP2850 provide the foundation for a comprehensive development environment that can dramatically accelerate time-to-market, while enabling customers to reuse their investments in software. E Development Environment ntel provides a comprehensive development environment that enables customers to rapidly develop applications for the Intel IXP2400, Intel IXP2800, and Intel IXP2850 network processors and migrate existing applications from the Intel(R) IXP1200 network processor family. The development environment includes the Intel(R) Internet Exchange Architecture Software Development Kit (Intel(R) IXA SDK) 3.x, complemented by a choice of hardware development platforms, supporting software and tools, example designs and professional services. I 61 62 Network Processors developer.intel.com/go/networkprocessors Intel provides developers designing with the Intel(R) IXP2XXX network processors a choice of advanced development platforms based on their application needs: The Intel(R)IXDP2400 and the Intel(R) IXDP2800/IXDP2850 Advanced Development Platforms are dual-chip implementations ideal for developing access, edge and metro/core applications up to OC-192/10 GbE line rates. The Intel(R)IXDP2401 and the Intel(R) IXDP2801/IXDP2851 Advanced Development Platforms are standards-based, PICMG 3.0 Advanced Telecom Computing Architecture* (AdvancedTCA) compliant single-chip implementations ideal for designing access and edge applications up to OC-48/4 GbE line rates. These development platforms further enhance the value of the network processors by providing a robust development environment that can dramatically accelerate the development and validation of new products designed for OC-3 to OC-192 line rates. These development platforms can be used in several ways: Developers can write code and run simulations in a Windows*-based PC environment using the graphical workbench and the cycle-accurate simulator, and then use the development platform to verify system functionality before the customer hardware is available. Hardware design engineers can reuse schematic source files included in their board design to jump-start their board development effort. Developers can validate a design using the base card and mezzanine cards available from Intel, or design and test a custom I/O subsystem using the development platform prior to committing to a full board design. With the IXDP2401, IXDP2801 and IXDP2851, developers can add additional AdvancedTCA boards from Intel as well as third parties to prototype more complete systems. Developers can design a proprietary switch fabric card, and use an interface on the base card to implement a fabric backplane. The Intel IXA SDK 3.x enables hardware and software engineering to proceed in parallel. The SDK provides the software team with an easy-to-use graphical simulation environment for developing, debugging, and optimizing a network application at the same time that the hardware team is working on design and prototyping the device. By using the development tools, network building blocks and the Intel(R) IXA Portability Framework in the SDK, the design team can achieve an unparalleled time-to-market advantage. Intel IXA SDK 3.x preserves investments in software for the Intel IXP1200 network processor by maintaining the familiar best-in-class Developer's Workbench programming environment and extending it to support the Intel IXP2400, Intel IXP2800, and Intel IXP2850 network processors. Developers who use the Intel(R) IXA SDK dataplane library, Intel(R) Microengine C Compiler and the programming framework with the Intel IXP1200 will be able to retarget their code for the Intel IXP2400, Intel IXP2800, and Intel IXP2850 by using the same or similar facilities in SDK 3.x. Intel IXA SDK 3.x consists of two parts separately packaged and released: Intel IXA SDK Tools 3.x and Intel IXA SDK Software Framework 3.x. Intel IXA SDK Tools 3.x includes microengine (MEv2) development environment and tools used by customers to develop, debug and tune application code that runs on microengines of IXP2XXX network processors. Intel IXA SDK Software Framework 3.x includes software building blocks, framework for combining these building blocks and software pipelines based on these blocks for jump-starting customer application development. Intel also provides all the tools needed to build challenging products while meeting aggressive development schedules, including example designs and professional software services to enable developers to take advantage of the flexibility offered by Intel(R) network processors. As a result, developers can reduce the time, effort, and resources required for lower-level, standards-based platform software, and focus on developing new value-adding services and features that differentiate products at the application level. developer.intel.com/go/networkprocessors INTEL(R) IXP2850 NETWORK PROCESSOR FOR CONTENT PROCESSING IN A SINGLE CHIP HIGH-SPEED, Network Processors SECURE Product Overview he newest member of the Intel(R) second-generation network processor product family, the Intel IXP2850 network processor, delivers high-performance packet and content processing with robust security features in a single platform. By integrating capabilities that have typically required multiple specialized processors, the Intel IXP2850 provides a secure and cost-effective platform that enables a broad range of emerging applications.. T Target Applications everal current application trends are driving the need for high-performance secure content processing. Global enterprise networks are moving from dedicated connections to virtual private networks. Applications for e-Commerce must support secure Web browsing. Wireless LAN applications have multiple new security standards to support. Distributed storage applications use secure mechanisms for protocol integration and data exchange. In addition, cost efficiencies and performance requirements are fostering a migration of these applications from computing platforms to communications products. These development opportunities include: Converged security gateway applications including IPSec and SSL VPN, Stateful Firewall, TCP Offload, IDS/IPS and Virus detection Service blades for bulk cryptography and TCP offload in infrastructure switches, routers and appliances IPsec/TCP termination and offload functionality in networked storage applications Content-aware load balancing in network appliances, such as Web switches, located in front of server farms S FEATURES BENEFITS Sixteen integrated programmable 1.4 GHz microengines Multithreaded dataplane processing elements provide headroom for high-speed packet, content, and secure processing Two integrated cryptography blocks Provide hardware acceleration for DES, 3DES, AES, and SHA-1 algorithms. Enables bulk encryption/decryption for IPsec data streams at speeds up to 10 Gbps Flow-through cryptography architecture processes packets "on the fly" Minimizes packet reassembly in memory and increases performance Supports ECB and CBC cipher modes Provides flexibility to address multiple application environments Integrated Intel XScale(R) Core 32 Kbyte--Instruction cache 32 Kbyte--Data cache 2 Kbyte--Mini-data cache Embedded 32-bit RISC core for IKE, route table maintenance and systemlevel management functions lowers system cost and saves board space Support for more than 2 GB of memory Supports large numbers of security associations for robust performance PCI 2.2 I/O Interface Supports industry-standard connection to additional processors to accelerate security functions such as public key exchange Modular software building blocks for IPsec and TCP Simplifies product development and speeds time-to-market Comprehensive development environment: Software SDK and Hardware Development Platform Improves time-to-market via robust hardware and software development tools Professional design services Reduces development risk and time ~2 watts of incremental power for cryptography blocks Low power consumption reduces system costs Power Dissipation ~27.5 Watts typical, ~32 Maximum @ 1.4 GHz operation ~19.5 Watts typical, ~25 Maximum @ 1.0 GHz operation ~16.5 Watts typical, ~21 Maximum @ 650 MHz Software- and pin-compatible with IXP2800 Enables reuse of board designs, reduces development cost, and saves board space 63 64 Network Processors developer.intel.com/go/networkprocessors INTEL(R) IXP2800 NETWORK PROCESSOR EDGE AND CORE APPLICATIONS FOR OC-192/10 GBPS NETWORK Product Overview he Intel IXP2800 network processor is a member of Intel's second-generation network processor family. Based on the first-generation Intel IXP1200, the Intel IXP2800 is a programmable network processor that integrates a highperformance parallel processing design on a single chip for processing complex algorithms, deep packet inspection, traffic management, and forwarding at wire speed. Its store-and-forward architecture combines a high-performance Intel XScale core with sixteen 32-bit independent multithreaded microengines that cumulatively provide more than 23.1 giga-operations per second. The microengines provide the processing power to perform tasks that traditionally required expensive high-speed ASICs. T Application Flexibility he ability of the Intel IXP2800 network processor to support OC-192/10 Gbps line rates makes it the optimal solution for a wide variety of high-performance applications such as Metropolitan Area Network (MAN) switches and routers, Internet edge and core switches and routers, multi-service switches, 10 Gbps enterprise switches and routers designed to meet the requirements of advanced data centers, storage area networks (SAN), and content-aware server off-load/Web switches. The network processor's programmability also makes it the right choice for IPSec and Virtual Private Network (VPN) solutions, and wireless infrastructure equipment. Functionality includes: Ethernet/POS/ATM Layer 4 forwarding in core, MAN and edge applications Protocol conversion, forwarding and aggregation for multi-service switches, cable headends and DSLAM aggregation ATM SARing and forwarding with advanced traffic shaping Content-aware load balancing, forwarding, and policing Encryption for VPNs and IPSec applications GPPS Tunneling Protocol and IPv6 in wireless infrastructure applications TCP/IP termination for enterprise data center and SANs SSL/TLS acceleration T developer.intel.com/go/networkprocessors Network Processors FEATURES BENEFITS 16 integrated programmable microengines with 8K instruction program stores Enhanced second-generation flexible multithreaded RISC processors that can be programmed to deliver intelligent transmit and receive processing, with robust software development environment for rapid product development Integrated Intel XScale(R) Core 32 Kbyte--Instruction cache 32 Kbyte--Data cache 32 Kbyte--Mini-data cache Embedded 32-bit RISC core for high-performance processing of complex algorithms, route table maintenance and system-level management functions. Lowers system cost and saves board space Two unidirectional 16-bit Low Voltage Differential Signaling (LVDS) data interfaces programmable to be SPI-4 Phase 2 or CSIX Supports industry-standard interfaces to media and fabric devices, delivering OC-192 and 10Gbps Ethernet performance rates; simplifies design and interface to custom ASIC Three industry-standard RDRAM interfaces Memory subsystem to support the network processor store-and-forward processing model Four industry-standard 32-bit QDR SRAM interfaces Memory subsystem for look-up tables and access lists PCI 2.2 I/O Interface Supports industry-standard connection to system host processors 8-bit asynchronous control interface Provides control interface for connecting to maintenance port of PHY devices and flash memory Hardware support for memory access queuing Simplifies product development and reduces system cost JTAG support Improve hardware debug ability Comprehensive Development Environment: Software SDK and Hardware Development Platform Improves time-to-market via robust hardware and software development tools Power Dissipation ~25.5 Watts typical, ~ 30 Maximum @ 1.4 GHz operation ~17.5 Watts typical, ~ 23 Maximum @ 1.0 GHz operation ~16 Watts typical, ~20 Maximum @ 650 MHz Additional integrated hardware features: Hardware Hash Unit (48, 64, and 128 bit) 16-Kbyte Scratchpad Memory Serial UART port for debug Four general-purpose I/O pins Four 32-bit timers Simplifies development, reduces development cost and saves board space INTEL(R) IXP2400 NETWORK PROCESSOR ACCESS AND EDGE APPLICATIONS FOR OC-48/2.5 GBPS NETWORK Product Overview he Intel IXP2400 network processor is a member of Intel's second-generation network processor family. It is designed for a wide range of access and edge applications including multi-service switches, routers, broadband access devices, and wireless infrastructure systems. Based on the first-generation Intel IXP1200 network processor, the Intel IXP2400 is a fully programmable network processor that implements a high-performance parallel processing architecture on a single chip for processing complex algorithms, deep packet inspection, traffic management, and forwarding at wire speed. Its store-andforward architecture combines a high-performance Intel XScale core with eight 32-bit independent multithreaded microengines that cumulatively provide more than 5.4 giga-operations per second. The microengines provide the processing power to perform tasks that traditionally required expensive high-speed ASICs. T 65 66 Network Processors developer.intel.com/go/networkprocessors Application Flexibility he ability of the Intel IXP2400 network processor to support OC-48/2.5 Gbps line rates makes it ideal for a wide variety of high-performance applications such as Wide Area Networking (WAN) multi-service switches, DSLAMs (DSL access multiplexers), CMTS (cable modem termination system) equipment, 2.5G and 3G wireless infrastructure base station controllers and gateways, and Layer 4-7 switches including content-based load balancers, and firewalls. The programmability of the Intel IXP2400 also makes it well suited for VoIP gateways, multi-service access platforms, high-end routers, remote access concentrators, and Virtual Private Network (VPN) gateways. Usage models for the Intel IXP2400 in the target market segments listed above are as follows: Aggregation, ATM SARing, traffic shaping, policing, forwarding, and protocol conversion in DSLAM equipment Aggregation, forwarding, and protocol conversion in CMTS equipment ATM SARing, encryption, and forwarding in base station controllers/radio network controllers GTP Tunneling and IPv6 forwarding in wireless infrastructure ATM SARing, traffic shaping, policing, protocol conversion, and aggregation for multi-service switches Content-aware load balancing, forwarding, and policing T FEATURES BENEFITS Eight integrated programmable microengines with 4K instruction program stores Enhanced second-generation flexible multithreaded RISC processors that can be programmed to deliver intelligent transmit and receive processing, with robust software development environment for rapid product development Integrated Intel XScale(R) Core 32 Kbyte--Instruction cache 32 Kbyte--Data cache 2 Kbyte--Mini-data cache Embedded 32-bit RISC core for high-performance processing of complex algorithms, route table maintenance, and system-level management functions. Lowers system cost and saves board space Two unidirectional 32-bit media interfaces (Rx and Tx) programmable to be SPI-3, UTOPIA 1/2/3 or CSIX-L1. Each path is configured for 4x8 bit, 2x16 bit, 1x32 bit or combinations of 8 and 16 bit data paths Supports industry-standard cell and packet interfaces to media and fabric devices delivering 4 Gbps performance rates that can support OC-48 plus fabric encapsulation overhead or 4 x GbE; simplifies design and interface to custom ASIC devices One industry-standard DDR DRAM interface Memory subsystem supports the network processor store-and-forward processing model Two industry-standard QDR SRAM interfaces Memory subsystem for look-up tables and access lists, or coprocessors (such as CAM/TCAM, IPsec devices). NPF standardized interface for coprocessors PCI 2.2 64 bit/66 MHz I/O Interface Supports industry-standard connection to system host processors Asynchronous control interface supports 8-, 16-, 32-bit slow port devices Provides control interface for connecting to maintenance port of PHY devices and flash memory Hardware support for memory access queuing Simplifies application development and reduces system cost JTAG support Improves hardware debug ability Software SDK Hardware Development Platform Improves time-to-market via robust hardware and software development tools Power Dissipation ~13 Watts typical, ~ 16 Maximum @ 600 MHz operation ~9 Watts typical, ~ 12 Maximum @ 400 MHz operation Additional integrated hardware features: Hardware Hash Unit (48, 64, and 128 bit) 16 Kbyte Scratchpad Memory Serial UART port for debug Eight general-purpose I/O pins Four 32-bit timers Simplifies development, reduces development cost, and saves board space developer.intel.com/go/networkprocessors INTEL (R) IXP4XX NETWORK PROCESSOR PRODUCT Network Processors LINE Family Overview he Intel(R) IXP4XX product line is designed to meet the needs of a variety of applications such as high-end residential gateways; small-to-medium enterprise (SME) routers, switches, security devices; wireless access points; industrial control systems, networked printers, and other embedded networked applications. The IXP4XX product line delivers wirespeed performance and sufficient "processing headroom" for manufacturers to add a variety of rich software services to support their applications. These are highly integrated processors that support a variety of WAN and LAN technologies giving customers a common architecture for multiple applications. The IXP4XX product line meets the requirements of networking applications with a unique distributed architecture that features the performance of the Intel XScale(R) core and up to three Network Processor Engines (NPEs). The combination of the four high-performance processing elements provides tremendous processing power and enables wire-speed performance at both the LAN and WAN ports. The NPEs are designed to offload many computationally intensive data plane operations from the core. This provides ample processing headroom on the Intel XScale core for developers to add differentiating product features. The four network processors in the IXP4XX product line are the Intel(R) IXP425, the Intel(R) IXP422, the Intel(R) IXP421, and the Intel(R) IXP420. The Intel(R) IXP425 network processor is the most feature rich of these processors, supporting the widest variety of processor speed and connectivity options. The other three network processors offer a subset of the features found on the Intel(R) IXP425 network processor. For an easy reference of features, see the table following the product descriptions. T Tools, Applications, and Operating Systems Support Rapid Development ntel XScale technology includes a broad range of development tools and applications, together with support for multiple operating systems making software development easier. The Intel IXP4XX product line currently supports Wind River* VxWorks*, Microsoft* Windows CE, and the standard Linux* kernel. Third-party products are available for the Intel IXP4XX product line including Wind River Tornado* for VxWorks, and the MontaVista* Linux Professional Edition. Multiple third-party vendors provide application stacks and advanced development environment support. To help speed time-to-market and reduce development costs, developers have a wide choice of Intel XScale technologybased tools. The Intel IXP4XX network processor may be controlled during debug through a JTAG interface to the processor. The Macraigor* Raven*, Wind River Systems visionPROBE*/visionICE* and EPI* MAJIC*, and other JTAG ICE systems will plug into the JTAG interface through a 20-pin connector. I Development Platform for Faster Time-to-Market he Intel(R) IXDP425 Development Platform is a powerful tool for development and verification of hardware and software for the Intel IXP4XX product line. Using a common development platform across the product line helps reduce costs and speeds development by providing a consistent tools/development environment. Developers can use this flexible and extendable platform to conduct rapid initial chip evaluation, chip performance evaluation, product development and prototyping. Pin compatibility among members of the Intel IXP4XX product line further reduces hardware design complexity. T 67 68 Network Processors developer.intel.com/go/networkprocessors INTEL(R) IXP425 NETWORK PROCESSOR FOR A BROAD SME, AND EMBEDDED NETWORKING APPLICATIONS RANGE OF HOME, Product Overview he Intel IXP425 network processor is a highly integrated, versatile single-chip processor that can be used in a variety of products that need network connectivity and high performance to run their unique software applications. The Intel IXP425 combines integration with support for multiple WAN and LAN technologies in a common architecture designed to meet requirements for high-end gateways, Voice over IP (VoIP) applications, wireless access points, small-to-medium enterprise (SME) routers, switches, security devices, industrial control systems, networked imaging, and other networked embedded applications. The IXP425 network processor offers the choice of multiple clock speeds at 266, 400, and 533 MHz, with both commercial and extended temperature options. The Intel IXP425 network processor feature set includes a UTOPIA 2 interface, two highspeed serial (HSS) interfaces, high-performance PCI interface, USB controller, two 10/100 Ethernet MACs and an IPsecenabled network processor engine (NPE) to accelerate cryptography and authentication algorithms. T Product Highlights Member of the Intel IXP4XX network processor product line Intel XScale(R) core at up to 533 MHz provides headroom for customer-defined applications Integrated hardware acceleration of popular cryptography algorithms (SHA-1, MD5, DES, 3DES, AES) for secure applications DSP software library on the Intel XScale core supports 2-4 voice channels and reduces system cost Two high-speed serial (HSS) ports for VoIP SLIC/CODEC or T1/E1 Two integrated 10/100 Base-T Ethernet MACs with Media Independent Interface (MII) for design flexibility and cost-effective wire-speed performance UTOPIA 2 interface with multiple ADSL/G.SHDSL or VDSL support 33/66 MHz PCI v2.2 host and option interface for glueless connection of up to four devices SDRAM controller supports from 8 to 256 Mbytes of SDRAM memory Low system power consumption (1.0-1.5 Watt typical) USB version 1.1 device controller Two high-speed UARTS support up to 921 Kbaud each Sixteen GPIO pins 16-bit configurable expansion bus Commercial temperature (0 to +70 C) and extended temperature (-40 to +85 C) versions developer.intel.com/go/networkprocessors INTEL(R) IXP422 NETWORK PROCESSOR REQUIRING SECURITY FEATURES FOR HOME/SME Network Processors APPLICATIONS Product Overview he Intel IXP422 network processor is a versatile, single-chip processor that integrates robust security features with the necessary interfaces, wire-speed performance and processing headroom to meet demanding applications including wireless access points, residential gateways, VPN firewall appliances, SME routers and switches, industrial control, networked imaging, and other embedded networked applications. The Intel IXP422 network processor feature set includes a 266 MHz Intel XScale RISC core, high-performance PCI interface, USB controller, two 10/100 Ethernet MACs and an IPsec-enabled Network Processor Engine (NPE) to accelerate cryptography and authentication algorithms. T Product Highlights Member of the Intel IXP4XX network processor product line Intel XScale(R) core at 266 MHz provides headroom for customer-defined applications Integrated hardware acceleration of popular cryptography algorithms (SHA-1, MD5, DES, 3DES, AES) for secure applications Two integrated 10/100 Base-T Ethernet MACs with Media Independent Interface (MII) for design flexibility and cost-effective wire-speed performance 33/66 MHz PCI v2.2 host and option interface for glueless connection of up to four devices SDRAM controller supports from 8 to 256 Mbytes of SDRAM memory Low system power consumption (1.0-1.5 Watt typical) USB version 1.1 device controller Two high-speed UARTS support up to 921 Kbaud each Sixteen GPIO pins 16-bit configurable expansion bus Commercial temperature (0 to +70 C) INTEL(R) IXP421 NETWORK PROCESSOR SUPPORTING VOICE OVER IP FOR HOME/SME APPLICATIONS Product Overview he Intel IXP421 network processor is a versatile single-chip processor that meets the needs of high-performance and cost-sensitive data and Voice over IP (VoIP) applications ranging from residential gateways, Integrated Access Devices (IADs) and small office IP/PBX systems to industrial control, networked imaging, and other embedded networked applications. The Intel IXP421 network processor provides cost-effective implementations that extend the rich performance and features on the Intel IXP425 network processor into targeted market segments. The Intel IXP421 network processor feature set integrates a 266 MHz Intel XScale RISC core, high-performance PCI interface, USB controller, UTOPIA 2 interface, two high-speed serial HSS and one 10/100 Ethernet MAC. These features provide developers with the processing power, low power consumption, cost-effectiveness and flexibility to address the needs of data plus VoIP applications. T 69 70 Network Processors developer.intel.com/go/networkprocessors Product Highlights Member of the Intel IXP4XX network processor product line Intel XScale(R) core at 266 MHz provides headroom for customer-defined applications DSP software library on Intel XScale core supports 2-4 voice channels and reduces system cost Two high-speed serial (HSS) ports for VoIP SLIC/CODEC or T1/E1 One integrated 10/100 Base-T Ethernet MACs with MII/RMII interface for design flexibility and cost-effective wire-speed performance UTOPIA 2 interface supports up to four xDSL PHYs (ADSL, G.SHDSL or VDSL) 33/66 MHz PCI v2.2 host and option interface for glueless connection of up to four devices SDRAM controller supports from 8 to 256 Mbytes of SDRAM memory Low system power consumption (1.0-1.5 Watt typical) USB version 1.1 device controller Two high-speed UARTS: can support up to 921 Kbaud each, or one UART at 921 Kbaud and one Console UART (230 Kbaud) Sixteen GPIO pins 16-bit configurable expansion bus Commercial temperature (0 to +70 C) INTEL(R) IXP420 NETWORK PROCESSOR HOME/SME APPLICATIONS FOR HIGHLY COST-SENSITIVE Product Overview he Intel IXP420 network processor is a single-chip integrated processor that meets the needs of high-performance and cost-sensitive applications ranging from home gateways, small office/home office (SOHO) routers and wireless access points to industrial control, networked imaging, and other networked embedded applications. The Intel IXP420 network processor feature set integrates an Intel XScale(R) core, high-performance PCI interface, USB controller, and two 10/100 Ethernet MACs. This network processor enables cost-effective implementations that extend the processing power, low power consumption and flexibility of the Intel IXP425 network processor into targeted market segments. T Product Highlights Member of the Intel IXP4XX network processor product line Intel XScale(R) core provides headroom for customer-defined applications Two integrated 10/100 Base-T Ethernet MACs with MII/RMII interface for design flexibility and cost-effective wire-speed performance 33/66 MHz PCI v2.2 host and option interface for glueless connection of up to four devices SDRAM controller supports from 8 to 256 Mbytes of SDRAM memory Low system power consumption (1.0-1.5 Watt typical) USB version 1.1 device controller Two high-speed UARTS support up to 921 Kbaud each Sixteen GPIO pins 16-bit configurable expansion bus 266, 400 and 533 MHz Commercial temperature (0 to +70 C) 266 MHz extended temperature (-40 to + 85 C) developer.intel.com/go/networkprocessors SUMMARY OF INTEL (R) IXP4XX LINE FEATURES INTEL IXP425 INTEL IXP422 INTEL(R) IXP421 INTEL(R) IXP420 266/400/533 MHz * * * * * * * * * * Supports 8-256 MB * * * 2-4 channels * * 266 MHz 266 MHz * * * * * * 266/400/533 MHz (R) Intel XScale(R) Core Speed UTOPIA 2 GPIO UART 0/1 HSS 0 HSS 1 MII 0 MII 1 USB PCI Expansion Bus SDRAM AES/DES/DES3 SHA-1/MD-5 Multi-Channel HDLC VoIP support Commercial Temperature Extended Temperature PRODUCT Network Processors (R) * * * * * * * Supports 8-256 MB * * * * * Supports 8-256 MB * 2-4 channels * * Intel(R) IXP4XX Product Line Ordering Information PRODUCT ORDER NUMBER Intel IXP425 Network Processor, 266 MHz CT FWIXP425BB Intel(R) IXP425 Network Processor, 266 MHz ET GWIXP425BBT Intel(R) IXP425 Network Processor, 400 MHz CT FWIXP425BC Intel(R) IXP425 Network Processor, 400 MHz ET GWIXP425BCT Intel IXP425 Network Processor, 533 MHz CT FWIXP425BD Intel(R) IXP425 Network Processor, 533 MHz ET GWIXP425BDT Intel IXP425 Network Processor, 533 MHz CT (Lead Free Eng Samples) PRIXP425BD Intel(R) IXP422 Network Processor, 266 MHz CT FWIXP422BB Intel(R) IXP421 Network Processor, 266 MHz CT FWIXP421BB Intel(R) IXP421 Network Processor, 266 MHz CT (Lead Free Eng Samples) PRIXP421BB Intel(R) IXP420 Network Processor, 266 MHz CT FWIXP420BB Intel IXDP425 Network Processor Development Platform KIXDP425BD2 Intel(R) IXDP425 Network Processor Development Platform Voice Module Upgrade Kit KIXDP425VMU Intel(R) IXDP425 Network Processor Development Platform WinCE Upgrade Kit KIXDP425CEU (R) (R) (R) (R) * * * * * * * Supports 8-256 MB * * 71 72 Network Processors developer.intel.com/go/networkprocessors developer.intel.com/design/network Networking Products Networking Products WORKGROUP AND ENTERPRISE SOLUTIONS Ethernet Transceivers thernet transceivers are 10BASE-T Physical Layer (PHY) devices that provide low-cost solutions for desktop and node applications. These industry-standard single-port transceivers implement all required functions of the physical coding sublayer (PCS) and physical media attachment (PMA) sublayers as defined in IEEE 802.3. They provide all the active circuitry to interface 802.3-compliant media access controllers (MACs) and either twisted-pair or coax transmission media. E Fast Ethernet Transceivers ast Ethernet transceivers are 10/100 PHY devices that provide high-performance interface solutions for networks that use equipment running at either 10Mbps or 100Mbps. They support standard CSMA/CD operation or full-duplex operation at 10Mbps or 100Mbps. Available as a single- or multi-port option, they are suited for uses ranging from embedded applications to high-density enterprise switches. Fast Ethernet transceivers provide the active circuitry to interface 802.3-compliant 10/100Mbps MACs and twisted-pair or fiber network media. Line operating conditions are determined using auto-negotiation or parallel detection for legacy systems. The devices implement all required functions of the PCS, PMA, and physical media dependent (PMD) sublayers, with a media independent interface (MII) as defined in IEEE 802.3. F Gigabit Ethernet Transceivers 000BASE-T Gigabit Ethernet transceivers are 10/100/1000 PHY devices that provide high-performance interface solutions for 10/100/1000Mbps network equipment. They support standard CSMA/CD operation or full-duplex operation at 10, 100, or 1000Mbps. The single-port device is ideally suited for embedded applications or uplinks on high-performance Ethernet switches. Gigabit Ethernet PHY transceivers provide the active circuitry to interface 802.3-compliant 10/100/1000Mbps MACs and twisted-pair network media. Line operating conditions are determined using auto-negotiation or parallel detection for legacy systems. The 10/100/1000Mbps Ethernet transceiver implements all the required functions of the PCS, PMA, and PMD sublayers, with a Gigabit media independent interface (GMII) as defined in IEEE 802.3. 1 Ethernet and Fast Ethernet Repeaters n Ethernet repeater is a device that repeats a signal received from any port onto all other ports and is, therefore, a shared technology. It is the "hub" that links physically distinct network segments into one logical network. It can also be used to "fan-out" one Ethernet connection to many connections. The family of workgroup and enterprise repeater products includes a variety of cost-effective repeater silicon solutions for managed and unmanaged applications. 10BASE-T solutions are available as four-port devices. 10/100Mbps solutions are available in five-, six-, or eight-port devices. Port density and management options enable these devices to be used in a variety of applications such as small office hubs or home gateways/modems. A Media Access Controllers edia Access Controllers (MACs) in a local area network control access to the shared medium by LAN-attached devices. Within a MAC are defined data link layer options which specify the basis on which devices access the shared medium, and the basis on which congestion control is exercised. The first members of the new MAC family, the Intel(R) IXF1110 Gigabit and Intel(R) IXF1010 100/1000 Megabit MACs, are the first to use a more robust SPI4-2 interface implementation called "dynamic phase alignment." Dynamic phase alignment improves data integrity to help ensure 10-Gbps wire-speed performance. These MACs are ideal for solutions in high-end, modular switching applications such as routers and multi-service switches that support LAN and WAN technologies. M 73 74 Networking Products developer.intel.com/design/network Ethernet Switching Devices n Ethernet switch is a multi-port device used to relay frames or packets among a set of networks. Multi-layer switch/routers combine the functions of a Layer 2 switch and a router. The Intel(R) Media Switch Family, including silicon, software, and system building blocks, supports the needs of media-aware networks with advanced quality of service (QoS) capabilities, programmability, and performance at competitive pricing. The Intel Media Switch Software Architecture is a comprehensive package of licensed software tools including APIs and device drivers. Intel partners with other vendors to provide protocol support. A flexible, scalable architecture makes these devices ideal for designs across the entire networking equipment spectrum including: 10/100/1000Mbps standalone switches to the desktop, stackable switches for workgroup aggregation, chassis-based switches for connecting to the enterprise backbone, and routing switches within the data center and network core. A Intel(R) Carrier Class Ethernet any networking and telecom applications require high-performance Ethernet components capable of operating under harsh environmental conditions. Intel(R) Carrier Class Ethernet products support operation over the entire extended temperature range while providing features that increase reliability. Each device has an operation lifetime of at least 10 years with less than 100 failures per billion hours. All Intel Carrier Class Ethernet devices will be available a minimum of five years from product introduction. The Intel Carrier Class Ethernet product portfolio includes solutions for Ethernet physical layer, switching and repeater technologies at a variety of speeds. Intel Carrier Class Ethernet products are ideal for applications where equipment must function reliably in uncontrolled environmental conditions such as base stations, telecom/network switches, factory floor equipment, and industrial computers. Products include the IXE2424EE, LXT9880AGE, LXT914, LXT973, LXT9785, LXT905, and LXT971A/972A. M NETWORKING PRODUCT LINE SUMMARY The following table summarizes the networking product application features. For full information refer to the product datasheets. APPLICATIONS PART NUMBER FEATURES LXT907A/LXT908 Integrated AUI transceivers Integrated 10BASE-T transceivers Improved filters to simplify FCC compliance Integrated Manchester encoder/decoders Automatic/manual AUI/RJ-45 selection Automatic polarity correction Standard and full-duplex Ethernet Power-down mode with tri-stated outputs Four loopback modes Four LED drivers Selectable termination impedance for use with shielded or unshielded twisted-pair (LXT901A only) Signal Quality Error (SQE) disable function for hub and switch applications (LXT907A & LXT908 only) Ethernet Transceivers Ethernet Interface Adapter (Universal) 10BASE-T hub and switching products 10BASE-T LAN adapter boards for computers/workstations Printer network attachments PCMCIA LAN cards Workstation/graphic terminals PC-PC servers (adapter/motherboard) 10BASE-T interconnects (MAU) Bridges/routers Terminal servers Point-of-sale interfaces Ethernet Interface Adapter (10BASE-T) Portable computers PDAs switching hubs Printer adapter cards PCMCIA cards Diagnostic port in telecom LXT905 3.3V or 5V operation, power-down mode for battery operation Provides all active circuitry for interfacing 802.3 controllers to a 10BASE-T media Includes Manchester encoder/decoder, reversed polarity detection/correction, integrated filters LED driver, full duplex capability Signal Quality Error (SQE) disable function for hub and switch applications Intel(R) Carrier Class Ethernet support developer.intel.com/design/network APPLICATIONS Networking Products PART NUMBER FEATURES LXT970A The single RJ-45 port for 10BASE-T and 100BASE-TX simplifies designs, reduces board space and minimizes system cost Baseline Wander Correction delivers consistent, error-free performance Devices perform error free over distances greater than 130 meters of Category 5 cable--far exceeding the IEEE specification of 100 meters Auto-negotiation for 10Mbps or 100Mbps, with full- or half-duplex and parallel detection, provides flexible application support and interoperability with legacy equipment MII operates with either a 3.3V or 5V power supply, allowing the use of low-power MACs 100BASE-FX port provides fiber-optic media support Multiple operating modes for NICs and switches help reduce costs and simplify design cycles Dual operating modes for standard MII and symbol mode MII provide flexible MAC support Fast Ethernet Transceivers Fast Ethernet Transceiver 10/100 NICs 10/100 switches 100BASE-FX NICs and switches Fast Ethernet Transceiver LXT971A Combination 10BASE-T/100BASE-TX or 100BASE-FX NICs 10/100 PCMCIA cards Cable modems and set-top boxes 3.3V operation, low power consumption (350 mW typical), lowpower "sleep" mode 10BASE-T and 100BASE-TX using a single RJ-45 connection Supports auto-negotiation and parallel detection MII interface with extended register capability Robust baseline wander correction performance 100BASE-FX fiber-optic capable Standard CSMA/CD or full-duplex operation Configurable via MDIO serial port or hardware control pins Integrated, programmable LED drivers 64-pin PBGA, 64-pin LQFP Intel Carrier Class Ethernet support Fast Ethernet Transceiver LXT972A Combination 10BASE-T/100BASE-TX NICs 10/100 PCMCIA cards Cable modems and set-top boxes 3.3V operation, low power consumption (350 mW typical) 10BASE-T and 100BASE-TX using a single RJ-45 connection Supports auto-negotiation and parallel detection MII interface with extended register capability Robust baseline wander correction performance Standard CSMA/CD or full-duplex operation Configurable via MDIO serial port or hardware control pins Integrated, programmable LED drivers 64-pin LQFP Fast Ethernet Transceiver LXT973 Building block for telecom backplane systems Internet protocol telephones Twisted pair to fiber converter modules Customer premise equipment Two-port Fast Ethernet PHY 2.5V operation 3.5V operation I/O compatibility Low power consumption (250 mW per port typical) Full two-port MII interface with extended registers Auto MDI/MDIX switch-over capability Status bits for LED generation 100BASE-FX fiber-optic capability on both ports Support for Next Page Integrated termination resistors 100-pin PQFP at commercial and extended temperature Fast Ethernet Transceiver LXT9785 Enterprise switches Workgroup switches Storage area networks Multi-port NICs IP telephony switches (LXT9785E) Eight independent IEEE 802.3-compliant 10BASE-T or 100BASE-TX ports Very low power consumption (250 mW per port, typical) 2.5V operation Multiple interfaces: RMII, SMII, SS-SMII Auto MDI/MDI-X Robust baseline wander correction Autonegotiation, parallel detection 10/100Mbps full-duplex operation Sectionalization into 1x8 or 2x4 configurations Register compatibility with LXT9781, LXT9782 LXT9785E Configurable via MDIO port or external control pins JTAG boundary scan Compatible with 2.5V I/O and 3.3V I/O Integration of input termination resistors Intel(R) Carrier Class Ethernet support Added DTE discovery, enhanced IP Telephony features 75 76 Networking Products developer.intel.com/design/network APPLICATIONS PART NUMBER FEATURES LXT914 Four 10BASE-T ports Reversible AUI port Configuration/status interface Four LED modes Cascadable backplane (no glue logic required) Integrated filters Programmable squelch Intel Carrier Class Ethernet support Ethernet Repeaters Managed Repeaters Stackable and stand alone workgroup hubs Embedded applications for print servers and multi-port routers Remote access SOHO applications LED Managed Or Unmanaged Repeaters LXT915 LXT9860/LXT9880 Stackable and stand alone workgroup hubs Remote access SOHO applications "Personal" hubs Embedded applications for multi-port routers and print servers Backplane interconnect for central office equipment (LXT9880AGE) "Personal" hubs Stackable and stand alone workgroup hubs Embedded applications for multi-port routers and print servers Dual Speed 10/100 Repeaters Four 10BASE-T ports Simple AUI port Four LED modes Cascadable backplane (no glue logic required) Integrated filters Programmable squelch Six- or eight-port 10/100 managed repeater with integrated twistedpair PHYs including integrated filters Two 10/100 MIIs for bridging Independent segments for 10Mbps and 100Mbps operation Less than 3.4W peak power, 3.3V operation Cascadable inter-repeater backplanes (IRBs), with option for 5V stacking compatibility Hardware assist for RMON and the repeater MIB High-speed SMI Two address-tracking registers per port Source Address matching function Integrated LED drivers with user-selectable modes Available in 208-pin QFP package Commercial temperature range: 0C-+70C, ambient Added Intel Carrier Class Ethernet support LXT9880AGE LXT9863/LXT9883 Six- or eight-port 10/100 unmanaged repeater with integrated twisted-pair PHYs including integrated filters Two 10/100 MIIs for bridging Independent segments for 10Mbps and 100Mbps operation Less than 3.4W peak power, 3.3V operation Cascadable interrepeater backplanes (IRBs), with option for 5V stacking compatibility Integrated LED drivers with user-selectable modes Available in 208-pin QFP package Commercial temperature range: 0C-+70C, ambient Media Access Controllers High-end switches Multi-service switches High-end routers IXF1110/IXF1010 Ten-port 100/1000Mbps or 1000Mbps for copper or fiber connectivity SPI4-2 with dynamic phase alignment SPI4-2 supports 400MHz clock 32-bit microprocessor interface Internal 17.0 KB receive FIFO and 4.5 KB transmit FIFO per channel Less than 6W peak power 552 CBGA package Commercial temperature range: 0C-+70C, ambient Multi-service switches, router and aggregation platforms at the service provider and enterprise edge targeting 4 GbE WAN Access and Edge Aggregation systems. DSLAM, CMTS, NG-DLC Wireless Infrastructure such as BTS, BSC, RNC, xGSN, PDSN VPNs; firewall and intrusion detection systems VoIP gateways and web switch appliances OC-48 Layer 4-7 switches and routers IXF1104 Quad Gigabit Ethernet MAC with SPI3 system interface and interfaces for connectivity to Copper PHYs and Optic modules. * Ability to power down individual channels SerDes physical interface for fiber Extended Temp operation for Copper connectivity (-40C to +85C) 32-bit MPHY mode 4x8-bit SPHY mode * Flexible system interfaces SPI-3 System Interface Allows for dedicated channel per GbE port at 125 MHz GBIC/I2C* Controller Interface for optics modules 10Kbyte transmit, 32Kbyte receive FIFOs developer.intel.com/design/network APPLICATIONS Networking Products PART NUMBER FEATURES IXE5416 Single chip, 16-port Gigabit switch/router with Layer 2/3/4 support Wire-speed performance across all ports in switching or IP routing modes Advanced traffic prioritization, QoS and bandwidth management Link aggregation Supports VLANs based on IEEE 802.1Q, ports, and protocol Advanced multicast, broadcast, and filtering capabilities Integrated 10/100/1000 Ethernet MACs, packet buffer memory and address look-up table Ethernet Switching Switching Engine 16-24 port Gigabit Layer 2 workgroup switches 16-24 port Gigabit Layer 2/3/4 workgroup switches Daisy chain or Star stackable 10/100/1000 Layer 2/3/4 switches High-port-count Layer 2/3/4 switch/router solution suitable for stackable and chassis switches (Can be incorporated into stacking solutions with the Intel(R) Media Switch IXE2424) Cellular switching systems Voice and data integration gateways Edge routers Packet-based video distribution systems Switching Engine IXE5216 16-24 port Gigabit Layer 2 workgroup switches Daisy chain or Star stackable 10/100/1000 Layer 2 switches High-port-count Layer 2 switch solution suitable for stackable and chassis switches (Can be incorporated into stacking solutions with the Intel Media Switch IXE2424) Cellular switching systems Voice and data integration gateways Edge routers Packet-based video distribution systems Switching Engine Single chip, 16-port Gigabit switch/router with Layer 2 support Wire-speed performance across all ports Advanced traffic prioritization and QoS Link aggregation Supports VLANs based on IEEE 802.1Q, ports, and protocol Advanced multicast, broadcast, and filtering capabilities Integrated 10/100/1000 Ethernet MACs, packet buffer memory and address look-up table IXE2424 24+4 Layer 2/3/4 workgroup and enterprise switches Cascadable high-port-count Layer 2/3/4 switch/router when using one or all Gigabit ports for cascading Layer 2/3/4 switch/router with Gigabit uplinks and advanced bandwidth management 24+4 MPLS label edge/switch routers Cellular switching systems Voice and data integration gateways Edge routers Packet-based video distribution systems Single chip, 24-port 10/100 and four-port Gigabit Ethernet Layer 2/3/4 switch/router Wire-speed performance across all ports in switching or IP/MPLS routing modes Advanced traffic prioritization, QoS, Diffserv, WRED, and bandwidth management Link aggregation in any combination of up to eight ports per group Hardware assistance for several L2 and L2/3/4 protocols Supports VLANs based on IEEE 802.1Q, ports, and addresses Advanced multicast, broadcast, and filtering capabilities Support for multiple IP networks on a single port, and multiple ports on the same network Connects to other devices using standard interfaces such as SERDES/GMII, SMII, PCI, I2C and SSRAM IXE2424EE Same as IXE2424 Support for industrial temperature range of -40C to +85C Intel Carrier Class Ethernet support Switching Engine 24+4 Layer 2 workgroup and enterprise switches with advanced bandwidth management Cascadable high-port-count Layer 2 switches when using one or all Gigabit ports for cascading Cellular switching systems Voice and data integration gateways Packet-based video distribution systems IXE2426 Single chip, 24-port 10/100 and four-port Gigabit Layer 2 Ethernet switch Wire-speed performance across all ports in switching modes Advanced traffic prioritization, QoS and bandwidth management Link aggregation in any combination of up to eight ports per group Hardware assistance for several L2 protocols Supports VLANs based on IEEE 802.1Q, ports, tags, and addresses Low-cost mode of operation Connects to other devices using standard interfaces such as SERDES/GMII, SMII, PCI, I2C and SSRAM 77 78 Networking Products NETWORKING developer.intel.com/design/network PRODUCTS LINE CARD 10MBPS TRANSCEIVERS1 Product LXT905 Ports TP LXT907 TP & AUI LXT907A TP & AUI LXT908 TP & AUI Interface 7-pin MAC interface, auto AUI/RJ-45 selection 7-pin MAC interface, auto AUI/RJ-45 selection 7-pin MAC interface, auto AUI/RJ-45 selection 7-pin MAC interface, auto AUI/RJ-45 selection Power 3.3V or 5V 5V 3.3V 3.3V Package 28 PLCC 32 LQFP 44 PLCC Special Features 4 LED drivers, Intel(R) Carrier Class Ethernet support2 44 PLCC 64 LQFP 44 PLCC 64 LQFP 4 LED drivers, SQE disable 4 LED drivers, SQE disable 4 LED drivers, extended temperature, SQE disable 10/100MBPS TRANSCEIVERS1 Product LXT970A Ports TP or fiber Interface MII, MDIO/MDINT, hardware control MII, MDIO/MDINT Power 5V, 3.3V 64 PQFP 3.3V, 2.5V Package 64 TQFP Special Features 5 LED drivers, baseline wander correction LXT971A TP or fiber 64 PBGA TP MII, MDIO/MDINT, hardware control 3.3V, 2.5V 64 LQFP LXT973 2 TP or fiber 2.5V 100 PQFP LXT9785 8 TP or fiber Independent MII for each port RMII/SMII/SS-SMII (2.5V/3.3V) 2.5V LXT9785E 8 TP or fiber RMII/SMII/SS-SMII (2.5V/3.3V) 2.5V 241 PBGA 208 PQFP 241 PBGA 208 PQFP 3 LED drivers, programmable LEDs, CDE protection, JTAG boundary scan, baseline wander correction, Intel(R) Carrier Class Ethernet support2 3 LED drivers, programmable LEDs, CDE protection, JTAG boundary scan, baseline wander correction, low power consumption Auto MDI/MDIX, CDE tolerance, Intel Carrier Class Ethernet support2 Low power, auto MDI/MDIX, MDIO sectionalization, Intel Carrier Class Ethernet support2 Enhanced IP telephony features, auto MDI/MDIX, DTE discovery LXT972A NOTES All products offer Energy Saving Mode and support commercial temperature range (0C to 70C). Intel(R) Carrier Class Ethernet support includes: extended temperature range (-40C to 85C), extended lifetime (>10 years of operation), reliability (<100 failures per billion hours over operating life), and extended availability (minimum of five years from product introduction) 1 2 10MBPS REPEATERS Product LXT914 Ports 4 TP & 1 reversible AUI Interface IRB, SMI, AUI Power 5V 5V Package 68 PLCC 100 PQFP 64 PQFP Special Features 7 LED drivers, 4 LED modes, stackable, status and control, Intel(R) Carrier Class Ethernet support2 7 LED drivers, 4 LED indication modes, stackable, unmanaged LXT915 4 TP & 1 AUI IRB, AUI Product LXT9860 Ports 6 TP Interface 2 IRB (5V tolerant), SMI, 2 MII Power 3.3V Package 208 PQFP Special Features SNMP and RMON, stackable, 30 status LEDs, 3 direct drive LEDs (4 selectable modes), 4 segment LEDs, 2 activity graph LEDs Unmanaged, stackable, 30 status LEDs, 3 direct drive LEDs (4 selectable modes), 4 segment LEDs, 2 activity graph LEDs SNMP and RMON, stackable, 30 status LEDs, 3 direct drive LEDs (4 selectable modes), 4 segment LEDs, 2 activity graph LEDs SNMP and RMON, stackable, 30 status LEDs, 3 direct drive LEDs (4 selectable modes), 4 segment LEDs, 2 activity graph LEDs, Intel(R) Carrier Class Ethernet support2 Unmanaged, stackable, 30 status LEDs, 3 direct drive LEDs (4 selectable modes), 4 segment LEDs, 2 activity graph LEDs LXT9863 6 TP 2 IRB (5V tolerant), 2 MII 3.3V 208 PQFP LXT9880 8 TP 2 IRB (5V tolerant), SMI, 2 MII 3.3V 208 PQFP LXT9880AGE 8 TP 2 IRB (5V tolerant), SMI, 2 MII 3.3V 208 PQFP LXT9883 8 TP 2 IRB (5V tolerant), 2 MII 3.3V 208 PQFP 10/100MBPS REPEATERS developer.intel.com/design/network Networking Products 100MBPS & 10000MBPS MEDIA ACCESS CONTROLLERS Product IXF1110 Ports 10 fiber Interface SPI4-2, GBIC/SerDes Power 1.8V, 2.5V Package 552 CBGA IXF1010 10 TP SPI4-2, RGMII 1.8V, 2.5V 552 CBGA Product IXE5416 Ports 16 TP or fiber Interface GMII, TBI, MII Package 836 EBGA IXE5216 16 TP or fiber GMII, TBI, MII IXE2424 IXE2424EE 24/4 TP or fiber SERDES/GMII, SMII PCI, I2C, SSRAM Power 2.5V 3.3V 2.5V 3.3V 1.8V 3.3V IXE2426 24/4 TP or fiber SERDES/GMII, SMII, PCI, I2C, SSRAM 1.8V 3.3V Special Features SPI4-2 with dynamic phase alignment, double data clock, receive FIFO, cost-effective memory architecture SPI4-2 with dynamic phase alignment, double data clock, receive FIFO, cost-effective memory architecture INTEL(R) MEDIA SWITCH 836 EBGA 792 TBGA 792 TBGA Special Features 16-port Gigabit switching/routing, traffic classification, QoS, filtering, prioritization 16-port Gigabit switching, traffic classification, QoS, filtering, prioritization 24-port 10/100, four-port Gigabit, Layer 2/3/4 switching/routing, integrated 10/100 and Gigabit MACs, MPLS, Diffserv, WRED, QoS, VLAN compliance, Intel(R) Carrier Class Ethernet support2 (IXE2424EE) 24-port 10/100, four-port Gigabit, Layer 2 switching, integrated 10/100 and Gigabit MACs, VLAN compliance, QoS NOTES All products offer Energy Saving Mode and support commercial temperature range (0C to 70C). Intel(R) Carrier Class Ethernet support includes: extended temperature range (-40C to 85C), extended lifetime (>10 years of operation), reliability (<100 failures per billion hours over operating life), and extended availability (minimum of five years from product introduction) 1 2 KEY TERMS AUI CDE FX GMII IRB MAC MII PCI PHY Attached Unit Interface Cable Discharge Event Fiber Media Gigabit Media Independent Interface Inter-Repeater Backplane Media Access Controller Media Independent Interface Peripheral Components Interconnect OSI Physical Layer device RMII RMON SMI SMII SNMP TBI TDR TP Reduced Media Independent Interface Remote Monitoring Serial Management Interface Serial Media Independent Interface Simple Network Management Protocol Ten-Bit Interface Time Domain Reflectometry Twisted Pair 79 80 Networking Products developer.intel.com/design/network developer.intel.com Advanced Ethernet Controllers Advanced Ethernet Controllers--PCI Based INTEL'S 10/100/1000 ETHERNET CONTROLLERS (MAC/PHY) Intel(R) 82541PI Gigabit Ethernet Controller he Intel(R) 82541PI Gigabit Ethernet Controller provides optimized Gigabit networking for PCI designs. This highly efficient controller, with enhanced power management, consumes less than 1.0W of power at Gigabit speeds. When no signal is detected on the wire, the controller reduces power consumption by switching to 100 or 10 and powering down the physical-layer circuitry (PHY). When a signal is detected, the controller automatically negotiates the connection to Gigabit, if available. The Intel 82541PI Gigabit Ethernet Controller enhances secure manageability and system health monitoring over the LAN with support for IPMI 1.5. For IPMI designs, the onboard SMBus port can pass management traffic through the controller to a management device, such as a Baseboard Management Controller (BMC). The Intel 82541PI combines Intel's fifth-generation Gigabit MAC design with fully integrated PHY to provide a standard IEEE 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX and 10BASE-T applications. In addition, the controller provides a direct Peripheral Component (PCI) Interconnect designed to be compliant with the PCI 2.3 bus up to 66MHz. Packaged in a 15x15 mm PBGA, the Intel 82541PI Gigabit Ethernet Controller is footprint-compatible with the Intel(R) 82551QM and Intel(R) 82551ER Fast Ethernet Controller and Intel(R) 82562EZ device. Footprint-compatibility, plus Intel(R) SingleDriverTM technology allow for a flexible Gigabit Ethernet or Fast Ethernet implementation on the same motherboard layout. T Intel(R) 82541ER Gigabit Ethernet Controller he Intel(R) 82541ER Gigabit Ethernet Controller provides optimized Gigabit networking for PCI designs. This highly efficient controller, with enhanced power management, consumes less than 1.0W of power at Gigabit speeds. When no signal is detected on the wire, the controller reduces power consumption by switching to 100 or 10 and powering down the physical-layer circuitry (PHY). When a signal is detected, the controller automatically negotiates the connection to Gigabit, if available. The Intel 82541ER combines Intel's fifth-generation Gigabit MAC design with fully integrated PHY to provide a standard IEEE 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX and 10BASE-T applications. In addition, the controller provides a direct Peripheral Component (PCI) Interconnect designed to be compliant with the PCI 2.3 bus up to 66MHz. Packaged in a 15x15 mm PBGA, the Intel 82541ER Gigabit Ethernet Controller is footprint-compatible with the Intel 82551ER and Intel 82562EZ device. Footprint-compatibility allows for a flexible Gigabit Ethernet or Fast Ethernet implementation on the same motherboard layout. T Intel(R) 82545GM Gigabit Ethernet Controller he Intel(R) 82545GM Gigabit Ethernet Controllers are single, compact components with integrated Gigabit Ethernet MAC and PHY layer functions. Packaged in a 21x21 mm TFBGA, the 82545GM Gigabit Ethernet controller is footprintcompatible with the Intel(R) 82546GB Dual Port Gigabit Ethernet Controller (same package size, same number and pattern of pins and similar signal layout), allowing for a flexible, single port or dual port, multipurpose design. The Intel 82545GM integrates Intel's fourth-generation Gigabit MAC design with fully integrated, physical-layer circuitry to provide a standard IEEE 802.3 Ethernet interface for 1000Base-T, 100Base-TX, and 10Base-T applications (802.3, 802.3u, 802.3ab). The controller is capable of transmitting and receiving data at 1000 Mb/s, 100 Mb/s, or 10 Mb/s data rates. For fiber-optic applications, the Intel 82545GM's integrated SERDES supports 1000Base-SX and 1000Base-LX (802.3z). In addition, the controller provides a direct Peripheral Component Interconnect (PCI) 2.2 and PCI-X 1.0a-compliant bus at clock frequencies up to 133 MHz. T 81 82 Advanced Ethernet Controllers developer.intel.com The Intel 82545GM Gigabit Ethernet Controller architecture is optimized to deliver both high performance and PCI/PCI-X bus efficiency. Using state logic design with a pipelined DMA Unit and 128 bit wide buses for the fastest performance, the Intel 82545GM controller handles Gigabit Ethernet traffic with low network latency and minimal internal processing overhead. The controller's architecture includes independent transmit and receive queues to limit PCI bus traffic, and a PCI interface that maximizes the use of bursts for efficient bus usage. The Intel 82545GM Gigabit Ethernet Controller prefetches up to 64 packet descriptors in a single burst for efficient PCI bandwidth usage. A 64 KB on-chip packet buffer maintains superior performance as available PCI bandwidth changes. Advanced interrupt moderation hardware manages interrupts generated by the Intel 82545GM controller to further improve system efficiency. In addition, using hardware acceleration, the controller also offloads tasks from the host processor, such as TCP/UDP/IP checksum calculations and TCP segmentation. The Intel 82545GM Gigabit Ethernet Controller is designed for use in the following applications: LAN on Motherboard (LOM) in dense, space-constrained systems such as rack-mounted servers and high-density blade servers Communications platform using dual Gigabit Ethernet on the backplane (PICMG 3.1 compliant or 1000BASE-X) Internet infrastructure devices with high-speed requirements and limited board real estate, such as switches, routers and load balancers Intel(R) 82546GB Dual Port Gigabit Ethernet Controller he Intel 82546GB Dual Port Gigabit Ethernet Controller incorporates two full Gigabit Ethernet MAC and PHY layer functions and Serializer/ Deserializer (SerDes) on a single, compact component. Packaged in a 21x21 mm PBGA, the 82546GB Dual Port Gigabit Ethernet Controller provides dual port functionality without requiring additional board space for the component. The Intel 82546GB integrates Intel's fourth-generation Gigabit MAC design, with fully integrated, physical-layer circuitry, to provide two standard IEEE 802.3 Ethernet interfaces for 1000BASE-T, 100BASE-TX, and 10BASE-T applications (802.3, 802.3u, 802.3ab). For Ethernet on the backplane and fiber-optic applications, the Intel 82546GB's two integrated SerDes support 1000BASE-X (802.3z). In addition, the controller provides a single, direct Peripheral Component Interconnect (PCI) 2.3 and PCI-X 1.0a-compliant bus that operates as a single multi-function device on the bus at clock frequencies up to 133MHz. The Intel 82546GB Gigabit Ethernet Controller architecture is optimized to deliver both high-performance networking and PCI/PCI-X bus efficiency. Using state logic design with a pipelined DMA Unit and 128-bit-wide buses for the fastest performance, the 82546GB controller handles Gigabit Ethernet traffic with low network latency and minimal internal processing overhead. The controller's architecture includes independent transmit and receive queues to limit PCI bus traffic, and a PCI interface that maximizes the use of bursts for efficient bus usage. The Intel 82546GB Gigabit Ethernet Controller prefetches up to 64 packet descriptors in a single burst for efficient PCI bandwidth usage. Two 64KB on-chip packet buffers maintain superior performance as available PCI bandwidth changes. Advanced interrupt moderation hardware manages interrupts generated by the 82546GB controller to further improve system efficiency. In addition, using hardware acceleration, the controller also offloads tasks from the host processor, such as TCP/UDP/IP checksum calculations and TCP segmentation. The Intel 82546GB Gigabit Ethernet Controller is designed for use in the following applications: LAN on Motherboard (LOM) in dense, space-constrained systems such as rack-mounted servers and high-density blade servers Communications platform using dual Gigabit Ethernet on the backplane (PICMG 3.1 compliant or 1000BASE-X) Internet infrastructure devices with high-speed requirements and limited board real estate, such as switches, routers and load balancers T developer.intel.com Advanced Ethernet Controllers Intel(R) 82547GI Gigabit Ethernet Controller he Intel(R) 82547GI Gigabit Ethernet Controller enables full-duplex Gigabit Ethernet performance using the Communication Streaming Architecture (CSA). The Intel 82547GI Gigabit Ethernet Controller bypasses the PCI bus, freeing its bandwidth for other I/O operations, and connects to the dedicated CSA bus on the Memory Control Hubs (MCH) of Intel(R) 865 and Intel(R) 875 chipsets for the Intel(R) Pentium(R) 4 processor. The CSA port architecture is invisible to both system software and the operating system, allowing conventional "PCI-like" configuration. CSA offers lower memory latency and higher performance than PCI-based controllers, giving the end user a true Gigabit networking experience. The Intel 82547GI Gigabit Ethernet Controller enhances secure manageability and system health monitoring over the LAN with support for IPMI 1.5. For IPMI designs, the onboard SMBus port can pass management traffic through the controller to a management device, such as a Baseboard Management Controller (BMC) responsible for management functions. The Intel 82547GI combines Intel's fifth-generation Gigabit MAC design with fully integrated physical-layer circuitry (PHY) to provide a standard IEEE 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX and 10BASE-T applications. Packaged in a 15x15 mm PBGA, the Intel 82547GI Gigabit Ethernet Controller is footprint-compatible with the Intel 82562EZ device. Footprint-compatibility and Intel SingleDriver technology allow for a flexible Gigabit Ethernet or Fast Ethernet implementation on the same motherboard layout. T INTEL'S 10/100 ETHERNET CONTROLLERS (MAC/PHY) Intel(R) 82551QM Integrated Fast Ethernet Controller he Intel(R) 82551QM Fast Ethernet Multi-function PCI/Cardbus Controller is an evolutionary addition to Intel's family of Intel(R) 8255X controllers. It provides excellent performance by offloading TCP, UDP and IP checksums and supports TCP segmentation off-load for operations such as Large Send. It combines a low-power and small package design, which is ideal for power and space-constrained environments. Intel 82551QM enhancements over the Intel(R) 82559 include improved Bit Error Rate performance, Deep Power-down state power reductions. The Intel 82551QM is pin-compatible with the Intel(R) 82550 and Intel 82559 Fast Ethernet controllers, and layout-compatible with 82541 Gigabit Ethernet controllers. T Intel(R) 82551ER/IT Integrated 10Base-T/100BASE-TX Ethernet Controllers he Intel(R) 82551ER integrated 10Base-T/100Base-TX Ethernet Controller is an evolutionary addition to Intel's family of 8255X controllers. As part of Intel's fourth generation of fully integrated Fast Ethernet MAC/PHY solutions, the Intel 82551ER is optimized for low-cost, embedded applications. An extended temperature version of the 82551ER product is also available, the Intel(R) 82551IT which supports an identical feature set and footprint as the 82551ER. The Intel 82551ER provides excellent performance by offloading TCP, UDP and IP checksums. Its optimized 32-bit interface and efficient scatter-gather bus mastering capabilities enable the Intel 82551ER to perform high-speed data transfers over the PCI bus. This capability accelerates the processing of high-level commands and operations, which lowers CPU utilization. Its architecture enables data to flow efficiently from the bus interface unit to the 3 Kbyte transmit and receive FIFOs, providing the perfect balance between the wire and system bus. In addition, multiple priority queues are provided to augment Quality of Service performance. The Intel 82551ER is pin-compatible with the Intel(R) 82559ER Fast Ethernet controller, and layout-compatible with the Intel(R) 82540 and 82541 Gigabit Ethernet controllers. Intel supported Intel 82551ER drivers run on the standard Intel 82551QM, providing OEMs an upgrade path to the Intel 82551QM for additional features and increased functionality. T 83 84 Advanced Ethernet Controllers developer.intel.com Intel(R) 82562ET and Intel(R) 82562EZ 10Base-T/100Base-TX Platform LAN Connect Solution he Intel(R) 82562ET and Intel(R) 82562EZ are highly integrated Platform LAN Connect (PLC) devices combining 10Base-T and 100Base-TX physical layer capabilities, and providing a core ingredient of the enabling solution for the integrated networking connectivity in Intel(R) I/O Controller Hub (ICH2/3/4/5) based platforms. The Intel 82562ET and Intel 82562EZ support a single interface fully compliant with the IEEE 802.3/802.3u standard. The IEEE 802.3u standard for 100Base-TX defines networking over two pairs of Category 5 unshielded twisted pair cable. The Intel(R) 82562ET/EZ complies with the IEEE 802.3u Auto-Negotiation (and 100Base-TX) standard and the IEEE 802.3x Full-Duplex Flow Control standard. The ICH2/3/4/5/6 LAN solution that the Intel 82562ET/EZ enables is a 32-bit PCI device that features enhanced scattergather bus mastering capabilities which allows the LAN solution to perform high-speed data transfers over the PCI bus. The bus mastering capabilities enable the LAN solution to process high-level commands and perform multiple operations, thereby offloading communications tasks from the system CPU. Two large transmit and receive FIFOs are also included in the architecture to enhance performance while minimizing the use of system resources. Target applications include but are not limited to LAN on motherboard (LOM) and embedded designs targeted at the value segment and requiring reliable 10/100 LAN capabilities. T INTEL PRODUCT (R) ETHERNET FUNCTION CONTROLLER MAT'L. MASTER PART NUMBER BUS 10/100/1000 ETHERNET CONTROLLERS 82547GI Single port integrated 855106 CSA MAC/PHY 82541PI Single port integrated 857520 PCI MAC/PHY 82541ER Single port integrated 858265 PCI MAC/PHY 82546EB Dual port integrated 845635 PCI-X/PCI MAC/PHY/SerDes 82546GB Dual port integrated 855352 PCI-X/PCI MAC/PHY/SerDes 82545EM Single port integrated 845633 PCI-X/PCI MAC/PHY/SerDes 82545GM Single port integrated 855561 PCI-X/PCI MAC/PHY/SerDes 82540EM Integrated MAC/PHY 845194 PCI 10/100 ETHERNET CONTROLLERS 82551QM Integrated MAC/PHY 844662 PCI 82551ER Integrated MAC/PHY 844687 PCI 82551IT Integrated MAC/PHY 855622 PCI 82559 Integrated MAC/PHY 822772 PCI 82559ER Integrated MAC/PHY 825111 PCI 82559ER* Integrated MAC/PHY 826238 PCI 10/100 ETHERNET PLATFORM LAN CONNECT (PLC) DEVICES 82562ET PLC for ICH2/3/4/5 829706 PLC 82562EZ PLC for ICH2/3/4/5 PLC * expanded temperature version (-25C-+85C) LINE CARD BUS SPEED INTERFACE PCI BUS OPERATING TEMP. VOLTAGE POWER DISSIPATION STANDBY POWER MODE PACKAGEPINS n/a n/a 0C-+70C 1.2, 1.8, 3.3V ~1.0W 105mA @ 3.3V 196 PBGA 33/66 MHz 32 bit 0C-+70C 1.2, 1.8, 3.3V ~1.0W 45mA @ 3.3V 196 PBGA 33/66 MHz 32 bit 0C-+70C 1.2, 1.8, 3.3V ~1.0W 45mA @ 3.3V 196 PBGA 33/66/133 MHz 32/64 bit 0C-+55C 1.5, 2.5, 3.3V ~2.6W 220mA @ 3.3V 364 PBGA 33/66/133 MHz 32/64 bit 0C-+55C 1.5, 2.5, 3.3V ~2.6W 220mA @ 3.3V 364 PBGA 33/66/133 MHz 32/64 bit 0C-+70C 1.5, 2.5, 3.3V ~1.8W 170mA @ 3.3V 364 TFBGA 33/66/133 MHz 32/64 bit 0C-+70C 1.5, 2.5, 3.3V ~1.5W 125mA @ 3.3V 364 TFBGA 33/66 MHz 32 bit 0C-+70C 1.5, 2.5, 3.3V ~1.4W 120mA @ 3.3V 196 TFBGA 33 MHz 33 MHz 33 MHz 33 MHz 33 MHz 33 MHz 32 bit 32 bit 32 bit 32 bit 32 bit 32 bit 0C-+85C 0C-+85C -40C-+85C 0C-+70C 0C-+70C -25C-+85C 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V ~0.5W ~0.5W ~0.5W ~0.6W ~0.6W ~0.6W n/a n/a n/a n/a n/a n/a 196 PBGA 196 PBGA 196 PBGA 196 PBGA 196 PBGA 196 PBGA n/a n/a n/a n/a 0C-+70C 0C-+70C 3.3V 3.3V ~0.5W ~0.5W n/a n/a 48 SSOP 196 PBGA developer.intel.com/design/network Optical Products Optical Products PRODUCT OVERVIEW I ntel enables development of a wide range of Optical solutions that help meet demands of carrier equipment manufacturers to accelerate services deployment, reduce cost and ease migration to higher bandwidth. Intel incorporates leading-edge technologies and delivers them through a well-demonstrated, high-volume, low-cost manufacturing. Transport Electrical (to "client") Framer MAC FEC WRAP Physical Layer (PHY) Optics Driver Laser CDR SerDes LIA TIA Photodiode Optical (to "system") Optical Transceiver Electrical to Optical Conversion (E/O) he optical transmission system converts the electrical signal into an optical signal. The quality of the transmitted optical signal (i.e., the maximum transmission distance) is highly dependent on the jitter of the serial bit stream. The jitter is the phase noise most commonly caused by the uncertainty or variations in the bit periods. To resolve this, Intel has directed significant effort toward the system and component design, focused at maintaining precise, constant duration of the bit periods in the outgoing data stream. T Framer/Media Access Controller (MAC) SONET/SDH Framer allows for SONET/SDH frame transport by encapsulating electrical data streams into packets or frames, and adding a header with section, line and path overhead bytes. The device can map different kinds of payloads such as ATM, IP, Voice, and Ethernet into the synchronous SONET/SDH frame. A Forward Error Correction (FEC)/Digital Wrapping Forward Error Correction (FEC) transponder device provides coding and decoding functionality for 10Gbps fiber optical transmission, based on the out-of-band FEC scheme recommended by ITU-T G.975. At each receiver, instead of passing on incorrect data, an FEC module recovers the original data and corrects the error. A clean generation of client data travels to the next receiver and the process is repeated. FEC helps to ensure data accuracy across the network and improve network reliability at the highest possible transfer speed over longer distances. An Optical Digital Wrapper device covers additional functions defined in ITU-T G.709 recommendation, it enables Optical Transport Network (OTN) functionalities and supports synchronous as well as asynchronous mapping schemes. A Clock and Data Recovery (CDR) Clock and Data Recovery (CDR) device converts the analog input signal to a digital bit stream with an associated clock. The clock output from the CDR is used to clock the data on the parallel interface into the next device. The key function block in the CDR is the Phase Locked Loop (PLL), which locks onto the incoming data stream. The phase detector is equipped with a discriminator that evaluates the incoming data signal in the middle of the bit period (the "eye") and determines whether a 1 or a 0 is received. A separate lock detector determines whether the incoming data rate deviates too much from a given frequency. If data input is absent or deviates too much, the external reference clock ensures that the Voltage Controlled Oscillator (VCO) remains in a selectable 500 to 2,000 ppm capture range. A 85 86 Optical Products developer.intel.com/design/network Serializer/Deserializer (SerDes) he Deserializer or Demultiplexer (DeMUX) has the purpose of transforming the serial data signal into four parallel data signals at a corresponding lower data rate. If, for example, a 2.488Gbps signal (OC-48) is fed into a 1:4 DeMUX, it will produce four parallel data outputs at 622.08Mbps. This signal then interfaces to the digital processing system. Notice that most of Intel's DeMUX have an integrated Clock and Data Recovery (CDR) device meeting the market segments requirement of small form factor solutions. In the optical transmission system, the Serializer or Multiplexer (MUX) has the opposite function of the DeMUX. The MUX converts the parallel signal from the processing system into one serial bit stream at a corresponding higher data rate. If, for example, 16 parallel data inputs at 622.08Mbps are led into a 16:1 MUX, the output data will be at 9.95328Gbps (OC-192). The serial signal is amplified before it is passed on to the next building block. T Optical to Electrical Conversion (O/E) n optical reception system receives an optical signal and converts it into an electrical signal. The optical receiver can be either a photodiode or an Avalanche Photo Detector (APD) and it converts the optical input to a small electrical current. A Transimpedance Amplifier (TIA) Transimpedance Amplifier (TIA) is placed right after the O/E transducer. It receives the output current from the photodiode and converts it into an electrical voltage. The TIA signal, which varies from a few mV up to 50 mVpp or more, can then be passed to an Automatic Gain Controlled (AGC) amplifier or a Limiting Amplifier (LIA). A Limiting Amplifier (LIA) Limiting Amplifier (LIA) or an Automatic Gain Control amplifier (AGC) follows the TIA. The LIA and AGC have the function of obtaining a signal of sufficient amplitude/power to drive the next building block. A Laser Diode Driver (LDD) he Laser Diode Driver (LDD) provides the opposite function of the Transimpedance Amplifier (TIA). The LDD converts the electrical voltage serial signal received from the Multiplexer (MUX) into an electrical current with strictly controlled amplitude. T Optical Transceiver ntel(R) Optical transceivers are subsystems comprised of high-speed optical to electrical conversion, which offers networking OEMs Multi-Source Agreement (MSA)-compliant turnkey solutions for OC-192 and 10GbE interfaces. Potential applications include: Optical switches and routers, add/drop multiplexers, digital cross-connects, Dense Wavelength Division Multiplexing (DWDM) terminals, other WDM and non-WDM metro system equipment, and optical test equipment. I 10Gbps Framer/MAC/Digital Wrapper WB4500 W SONET/SDH Virtual Concatenation Multi-Protocol OC-48/STM-16, OC-12/STM-4, and OC-3/STM-1 Data Framer ith up to 48 separate logical channels, the Intel(R) WB4500 SONET/SDH virtual concatenation framer is designed for use in highly channelized telecom and datacom applications in metropolitan area networks and wide area networks. Typical applications include Ethernet over SONET/SDH, RPR, ATM, POS, LAPS, and TDM. This includes systems such as MSPPs, routers, switches, access concentrators, ADMs, and dense wave division multiplexing (DWDM) systems. There are two system interfaces shown in the Intel WB4500 high-level block diagram: the SPI-3 bus and Telecom Add/Drop bus--combined with a time slot interchange the device can support concurrent TDM and data services in one component. developer.intel.com/design/network Optical Products The line side auxiliary telecom bus can be used to connect low-cost external framers for up 16 OC-3/STM-1 ports. It can also be used as a mate interface to connect to another Intel WB4500 device enabling a variety of options to solve APS design problems: 1+1, 1:N, BLSR/MS_SPRing, and UPSR/SNCP. An example of a complete SONET/SDH system solution based on the Intel WB4500 is shown in the Complete SONET/SDH Solution diagram. The telecom bus add/drop interface is used to connect to a T1/E1 module. The SPI-3 interface connects to an Ethernet services module. On the line side, the auxiliary telecom bus connects to an external framer for a cost effective 1+1 APS solution. IXF19301/19303/19325 Bandwidth Aggregation and Channelizer Devices with Virtual Concatenation I ntel(R) IXF19301/19303/19325 Bandwidth Aggregation and Channelizer Devices with Virtual Concatenation family of service framer products are highly integrated interface solutions for the transport of multi-service traffic. The various devices are tailored for 10G, 5G and 2.5G applications with or without line and path protection applications. Intel IXF19301/19303/19325 supports Packet Over SONET (POS), Generic Framing Procedure (GFP), X.85, X.86, Link Access Procedure-SDH (LAPS) and Asynchronous Transfer Mode (ATM) data mapping for up to 64 SONET/SDH virtually or contiguously concatenated containers. The devices support the SPI4 Phase 2 System Interface for easy connection to multi-port MACs, Field Programmable Gate Arrays (FPGAs), or Network Processors. Intel IXF19301/19303/19325 devices perform section/line overhead termination by implementing a cross-connect allowing the non-blocking transfer of non-concatenated and concatenated payloads between the data and line interfaces. The devices manage both VC-3 to AU-3 and VC-3 to TU-3 container mapping options for flexible SDH configurations. IXF19301: STS-192/STM-64, 10GbE LAN/WAN, x4 STS-48/STM-16, x16 STS-12/STM-4 and STS-3/STM-1 working interface and STS-192/STM-64, x4 STS-48/STM-16 protection interface IXF19303: STS-192/STM-64, x4 STS-48/STM-16, 10GbE LAN/WAN, x16 STS-12/STM-4 and STS-3/STM-1 unprotected, or x2 STS-48/STM-16, x8 STS-12/STM-4 and STS-3/STM-1 protected (1+1; 1:1) IXF19325: x2 STS-48/STM-16, x8 STS-12/STM-4 and STS-3/STM-1 unprotected, or x1 STS-48/STM-16, x4 STS-12/STM-4 and STS-3/STM-1 protected (1+1; 1:1) IXF19302 T 10Gbps Bandwidth Aggregation and Channelizer Device he Intel(R) IXF19302 10-Gbps Bandwidth Aggregation and Channelizer Device service framer is a highly integrated interface solution for the transport of multi-service traffic. The device supports a single STS-192/STM-64, 4 STS-48/ STM-16, 16 STS-12/STM-4, 16 STS-3/STM-1 or combination of these via four distinct ports per interface. Intel IXF19302 also provides an aggregation/protection interface for single STS-192/STM-64 or quad STS-48/STM-16. The integrated 10 Gigabit Ethernet Media Access Controller (MAC) allows Wide Area Network (WAN) and Local Area Network (LAN) operations. It supports concatenated and non-concatenated payloads STS-1, STS-Xc (where X = 3, 6, 9, ..., 48) and STS-192c. Intel IXF19302 supports the mapping/demapping of POS, GFP, X.85, X.86, LAPS and ATM data for up to 64 SONET/SDH virtually or contiguously concatenated payloads/containers. The packets and cells that are mapped/demapped to/from these containers are transferred to/from the next packet device using an SPI-4 Phase 2 system interface. Intel IXF19302 performs section/line OH termination on both interfaces. It also supports higher order VC-4/STS-3 and lower order VC-3/STS-1 path termination on the mapped/demapped SPE/container. The Intel IXF19302 implements a cross-connect allowing the non-blocking transfer of non-concatenated and concatenated payloads between the Data and Line interfaces. Work and Protect Framers supports Multicast, Add/Drop or configurable for any port to any port protection. 87 88 Optical Products IXF18101 developer.intel.com/design/network 10Gbps Physical Layer Device for STS-192c/STM 64c POS/GFP and 10 Gigabit Ethernet LAN or WAN PHY T he Intel(R) IXF18101 is the flagship device in the footprint and register set-compatible IXF1810x family of 10 Gigabit Physical Layer devices. The IXF18101 is a highly integrated solution for STS-192c/STM 64c and 10 Gigabit Ethernet LAN/WAN port applications, as specified in IEEE 802.3ae. The IXF18101 supports various modes of operation for transport of 10 Gigabit Ethernet, High Level Data Link Control (HDLC) frames, Packet over SONET (POS), or Generic Framing Procedure (GFP) packet formatting. Internal mapping engines provide the required formatting and maintenance of packet data into the STS-192c/STM 64c SONET/SDH frame payload. The device also supports Automatic Protection Switching (APS) in OC192 and 10GbE WAN Modes. A data-over-fiber packet mapping mode is supported for complete flexibility that can be used for test equipment, test functionality verification within a system, or direct data to line mapping. The GFP mappings are per G. 7041 and can be used for transport of multiplexed data flows of Gigabit Ethernet, FICON, ESCON, Fiber Channel and other protocols. The 10 Gigabit MAC handles frame encapsulation, verification, flow control, and Remote Monitoring/Simple Network Management Protocol (RMON/SNMP) statistics management, per IEEE 802.3ae standards. The IXF18101 also handles the Physical Coding Sublayer (PCS) and WAN Interface Sublayer (WIS) functions of the 802.3ae 10 Gigabit Ethernet standard. The PCS hardware handles the 64B/66B encoding/decoding to provide the transition density and balance the 10.3125Gbps stream. The WAN interface sublayer provides the rate matching mechanism for 9.953Gbps rate transport, as well as the STS-192c/STM 64c framing structure used in WAN PHY applications. The GFP mapping engine can be connected directly to Forward Error Correction (FEC) or Optical Transport Networks (OTN) digital wrapper devices for GFP client mapping directly per G.709. On the System side, it supports the System Parallel Interface-level 4 (SPI-4) Phase 2. On the line side, the IXF18101 supports both the OIF SFI-4 and IEEE 802.3ae XSBI interfaces. An integrated Pseudo Random Bit Sequence (PRBS) packet generator/analyzer for the PCS and WIS blocks (per IEEE 802.3ae clause 49 and 50) is also supported. Various loopback modes for line, system and debug features are provided in the device. The Intel IXF18101 offers a powerful solution for a variety of 10Gbps line card applications for Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and Dense Wavelength Division Multiplexing (DWDM). The flexibility built into the Intel IXF18101 gives customers the ability to design a software-reconfigurable line card that will support any of the protocols above. Intel provides an Evaluation and Development platform to assist customers with the development of their line cards. And for their Software development, we offer a complete Development platform that includes an Application Program Interface (API) management software, Drivers and Documentation. IXF18102 T 10Gbps Physical Layer Device for STS-192c/STM 64c POS/GFP he Intel(R) IXF18102 offers a feature, power and cost optimized solution for STS-192c/STM 64c line card applications for Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and Dense Wavelength Division Multiplexer (DWDM). The Intel IXF18102 is a highly integrated framer solution for STS-192c/ STM 64c port applications. The IXF18102 supports various modes of operation for transport of High Level Data Link Control (HDLC) frames, Packet over SONET (POS), or Generic Framing Procedure (GFP) packet formatting. Internal mapping engines provide the required formatting and packet data maintenance into the STS-192c/STM 64c SONET/SDH frame payload. A data-over-fiber packet mapping mode is supported for test equipment and test functionality verification within a system or direct data over fiber applications. The GFP mapping engine can be connected directly to Forward Error Correction (FEC) or Optical Transport Networks (OTN) digital wrapper devices for GFP client mapping over G.709 OTN Networks. The system interface is 16 bits wide, features 622Mbps-800Mbps Double Data Rate (DDR) clocking and supports the industry-standard System Parallel Interface Level 4 (SPI-4) Phase 2. The SPI-4 Phase 2 interface is Low Voltage Differential Signaling (LVDS), which produces fewer connection concerns than previous 64-bit High-Speed Transport Layer (HSTL) interfaces. developer.intel.com/design/network Optical Products On the line side, the IXF18102 supports the OIF SerDes Framer Interface Level 4 (SFI-4) interface, which is 16 bits wide with 622Mbps data rate. The IXF18102 supports Automatic Protection Switching (APS) for SONET/SDH. Various types of loopbacks such as line remote, line local, system remote as well as system local and Synchronous Payload Envelope (SPE) payload test are supported for general development functionality test and debug. It is footprint and register set compatible with the IXF18101 device, and therefore offers a feature, cost and power optimized migration path for customers line cards. Since the devices are footprint and register set compatible, customers IP in terms of Software, drivers, and more are protected and can be reused. For Design development assistance, we offer Hardware Evaluation and Software Development platforms. IXF18103 10-Gigabit Ethernet LAN or WAN PHY T he Intel(R) IXF18103 is the third device in the IXF1810x family of 10Gbps Physical Layer Devices. The IXF18103 is a highly integrated solution for 10GbE Local Area Network (LAN) and Wide Area Network (WAN) port applications compliant as per IEEE802.3ae specifications. The IXF18103 supports 10GbE LAN (10.3125Gbps) and WAN (9.953Gbps) applications. The 10 Gigabit MAC (per IEEE 802.3ae) handles frame encapsulation, verification, 10GbE flow control, and Remote Monitoring/Simple Network Management Protocol (RMON/SNMP) statistics management. The IXF18103 also handles the Physical Coding Sublayer (PCS) and WAN Interface Sublayer (WIS) functions of the IEEE 802.3ae 10 Gigabit Ethernet standard. The PCS hardware handles the 64B/66B encoding/decoding to provide the transition density and balance of the 10.3125Gbps stream. The WIS provides the rate matching mechanism for 9.953Gbps rate transport, as well as the STS192c/STM 64c framing structure used in WAN PHY applications. The system interface supports the industry-standard System Parallel Interface Level 4 (SPI-4) Phase 2. This interface is 16 bits wide with 622Mbps-800Mbps Double Data Rate (DDR) clocking. The SPI-4 Phase 2 interface is Low Voltage Differential Signaling (LVDS), which produces fewer connection concerns than previous 64-bit High-Speed Transport Layer (HSTL) interfaces. On the line side, the IXF18103 supports the IEEE 802.3ae XSBI interfaces. The 16-bit LVDS interface can operate at 622Mbps to support the 10GbE WAN rate of 9.953Gbps, and at 644Mbps to support the 10GbE LAN rate of 10.3125Gbps. The IXF18103 also supports an integrated Pseudo Random Bit Sequence (PRBS) packet generator/analyzer for the PCS and WIS blocks per IEEE 802.3ae clause 49 and 50. Line remote, line local, system remote, and system local loopbacks are also supported, as well as Synchronous Payload Envelope (SPE) payload test loopbacks for general development functionality test and debug. The IXF18103 comes with Evaluation and Software Development platforms to assist customers in the development of their line card solutions. Since it is optimized for 10GbE applications, it gives customers the advantage of being able to build cost-optimized, feature rich line cards for these applications without having to pay for features that they may not want. IXF18103 may be used in combination with Intel(R) 10Gb LXT16726/27 MUX and CDR DeMUX chips and Intel's TXN18107 XFP optical transceiver for efficient 10GbE LAN/WAN support in enterprise and real estate-sensitive applications. IXF18104 T 10 Gigabit LAN PHY he Intel(R) IXF18104 is a highly integrated solution for 10GbE Local Area Network (LAN) port applications compliant as per IEEE802.3ae specifications. The IXF18104 supports the 10GbE LAN mode of operation for transport of Ethernet frames in LAN (10.3125Gbps) applications. The 10 Gigabit MAC (per IEEE 802.3ae) handles frame encapsulation, verification, 10GbE flow control, and Remote Monitoring/Simple Network Management Protocol (RMON/SNMP) statistics management. The IXF18104 also handles the Physical Coding Sublayer (PCS) functions of the IEEE 802.3ae 10 Gigabit Ethernet standard. The PCS hardware handles the 64B/66B encoding/decoding to provide the transition density and balance of the 10.3125Gbps stream. 89 90 Optical Products developer.intel.com/design/network The system interface supports the industry-standard System Parallel Interface Level 4 (SPI-4) Phase 2. This interface is 16 bits wide with 622Mbps-800Mbps Double Data Rate (DDR) clocking. The SPI-4 Phase 2 interface is Low Voltage Differential Signaling (LVDS), which provides the customer with less connection concerns than previous 64-bit High-Speed Transport Layer (HSTL) interfaces. On the line side, the IXF18104 supports the LAN version of the IEEE 802.3ae XSBI interface. The 16-bit LVDS interface operates at 644Mbps to support the 10GbE LAN rate of 10.3125Gbps. The IXF18104 also supports an integrated Pseudo Random Bit Sequence (PRBS) packet generator/analyzer for the PCS. Line remote, line local, system remote, and system local loopbacks are supported for general development functionality test and debug. The IXF18103 is offered with Evaluation and Software development platforms to assist customers in the development of their line card solutions. IXF18104 may be used in combination with Intel 10Gb LXT16726/27 MUX and CDR DeMUX chips and Intel's TXN18107 XFP optical transceiver for efficient 10GbE LAN support in enterprise and real estate-sensitive applications. 10Gbps Forward Error Correction (FEC/EFEC) IXF30001 IXF30003 Forward Error Correction Device Forward Error Correction Device with SONET/SDH Performance Monitor T he Intel(R) IXF30001 and Intel(R) IXF30003 are Forward Error Correction (FEC) transponder devices. They provide coding and decoding functionality for use in a 2.5Gbps and 10Gbps fiber optical transmission and systems. Based on the out-ofband FEC scheme recommended by ITU-T G.975, IXF30001 and IXF30003 provide a significant gain in transmission quality. Both devices are intended for use in optical networks running at 2.5Gbps and 10Gbps, especially Dense Wavelength Division Multiplexing (DWDM) systems. Due to the out-of-band nature they do not impose any restrictions to the payload data type. IXF30001 and IXF30003 may be operated as: FEC transmitter wrapping and encoding the payload data stream FEC receiver unwrapping, decoding and error correcting the received data FEC transceiver, or Error correcting regenerator SONET/performance monitor (IXF30003 only) With its power consumption below 3.5W the IXF30001 and IXF30003 have excellent power to performance ratio, and small space requirement. The devices open the door to wrapper-based transparent OAM&P of optical networks. Integrated error statistics circuitry and serial Optical Overhead Channels (OCOH) allow complete remote management of an optical network. Both devices can be controlled via an 8-bit processor interface allowing a highly event-driven communication for reducing processor load. Forward Error Correction (FEC)/Digital Wrapping IXF30005 T Digital Wrapper 10Gbps OTN he Intel(R) IXF30005 is a fully compliant G.709 digital wrapper device that covers most Optical Transport Network (OTN) applications on a single chip. Based on the digital signal wrapping technique defined by ITU-T G.709, the IXF30005 provides all functions required for an OTN system, including transmission protection based on Forward Error Correction (FEC). With integrated FEC error statistics and overhead processing facilities, the Intel IXF30005 is a key component in wrapper-based transparent operation, administration, maintenance and provisioning of optical networks. The Intel IXF30005 is built on technology developed for the Intel IXF30001, which was the world's first commercially available 10Gbps FEC device in the optical marketplace. Supporting both asynchronous and synchronous mapping schemes, the Intel IXF30005 provides rich OTN framing, mapping and overhead functions on chips, compliant with the ITU-T G.709 standard. Acting as a direct pin- and software-compatible drop-in replacement for the Intel IXF30001 and IXF30003, the IXF30005 supports G.975 framing, as well as ITU-T G.709. The IXF30005 may be operated as a gateway between existing IXF30001or IXF30003-based systems and ITU-T G.709-compliant equipment. developer.intel.com/design/network Optical Products With its power consumption of 3.5W the IXF30005 has excellent power to performance ratio, and small space requirements. The device opens the door to digital wrapper OTN applications. Integrated error statistics circuitry and serial Optical Overhead Channels (OCOH) allow complete remote management of an optical network. The devices can be controlled via an 8-bit processor interface allowing a highly event-driven communication for reducing processor load. IXF30007 10-13Gbps Digital Wrapper with Enhanced Forward Error Correction (FEC) and Variable Overhead Rate T he Intel(R) IXF30007 is a fully compliant G.709 digital wrapper device that covers most Optical Transport Network (OTN) applications on a single chip. Built on the technology developed for the Intel IXF30001 (FEC100), the first commercially available 10Gbps FEC device in the market, the IXF30007 is designed for optical transmission applications where the coding gain reached with standard FEC algorithms (ITU-T G.975, ITU-T G.709) is not sufficient. The Intel IXF30007 supports enhanced Forward Error Correction (FEC) using two concatenated RS decoders that provide unparalleled performance and flexibility. The variable FEC overhead allows the adoption of various line rates from 10 to 13Gbps and outperforms any standard FEC already at 10.7Gbps with a net coding gain of 7db. At a line rate of 12.5Gbps it offers approximately 9 dB of net electrical coding gain. It also wraps a 10.3Gbps Ethernet client signal into a 10.7Gbps or higher line rate. The core FEC technology concatenates two Reed-Solomon codes that are configurable in both error correction capability and block length, delivering a coding gain configuration between zero and 30 percent overhead. The IXF30007 consists of two completely separated signal paths referred to as north and south paths. While the north path is primarily designed to operate as a line receiver, the south path may be used as a line transmitter. The IXF30007 forms the basis of a single chip transponder application and, using integrated bridges between both paths, may be configured as a regenerator and provide APS support. The Intel IXF30007 provides all basic functions required for an OTN system, and appropriate configuration of the outer code ensures compliance with the digital signal wrapping technique defined by ITU-T G.709. With integrated overhead processing circuitry and different types of payload mapping, the IXF30007 is a key component in wrapper-based transparent operations, administration, maintenance and provisioning of optical networks. With its low power consumption (less than 3W in a G.709 application and approximately 4W at 12.5Gbps line rate) the IXF30007 has excellent power to performance ratio, and even smaller space requirements than IXF30005. The device opens the door to digital wrapper OTN applications with increased FEC coding gain requirements. Integrated error statistics circuitry and serial Optical Overhead Channels (OCOH) allow remote management of an optical network. The devices can be controlled via an 8-bit processor interface allowing a highly event-driven communication for reducing processor load. IXF30009 T Optical Transport Processor he Intel(R) IXF30009 Optical Transport Processor is a highly integrated device. As a successor to the Intel IXF30001/ IXF30003/ IXF30005/ IXF30007 devices, the Intel IXF30009 builds on this expertise and is designed to handle most OTN applications on a single chip. It provides strong Forward Error Correction (FEC) performance and support for networking standards such as OTN (G.709v2), SONET/SDH and 10Gigabit Ethernet (10GigE). The IXF30009 features SFI-4-compliant interfaces that can be configured to support either a single 10Gbps signal or four 2.5Gbps tributary signals. It can perform fully transparent asynchronous aggregation of 2.5Gbps tributaries into a 10.7Gbps (OTU2) signal. The device is full duplex and both directions can be configured independently. The chip can be used as a SONET/SDH framer providing complete section and line termination for one OC-192/STM-64 or four OC-48/STM-16 signals. It can also be operated as a bridge device, transparently transporting any payload over a G.709-compliant network, a network node operating with OTN signals on all interfaces, and as a gateway between asynchronous OTNs interfacing between different carrier networks. The single-chip integration support for multiple standards makes the Intel IXF30009 the ideal high-integration solution for a wide range of applications including OTN networks, FEC regenerators, multi-service platforms, SONET/SDH Add/Drop multiplexers, submarine and ULH FEC applications, low-cost 10Gbps/2.5Gbps metro and core networks, high-density line cards for 2.5Gbps networks (with four bidirectional ports and 10GigE LAN transport and monitoring). 91 92 Optical Products developer.intel.com/design/network The variable FEC overhead allows the adoption of various line rates from 10 to 12.5Gbps and outperforms any standard FEC already at 10.7Gbps with a net coding gain of 8.5db. At a line rate of 12.5Gbps it offers over 10dB of net electrical coding gain. It also wraps a 10.3Gbps Ethernet client signal into a 10.7Gbps or higher line rate. WB1400 1 x STM-4/OC-12 or 4 x STM-1/OC-3 Channelized SONET/SDH Framer T he Intel(R) WB1400 1 x STM-4/OC-12 or 4 x STM-1/OC-3 Channelized SONET/SDH Framer is targeted at high-density telecommunications and data communications equipment built for the metropolitan area network (MAN) and access networks, including SONET/SDH ADMs, Switches, Multi-Service Provisioning Platforms (MSPPs) and Access Concentrators used to aggregate end-user traffic transmitted over T1/E1/J1/DS3, wireless, DSL and other transmission pipes. The Intel WB1400 enables equipment makers to design for either OC-12/STM-4 or 4xOC-3/STM-1 with the same chip. In the OC-3/STM-1 mode, the Intel WB1400 incorporates on-chip Clock and Data Recovery (CDR) which enables connection to small form factor pluggable (SFP) Optics. On the system side, the device offers a triple redundant 4 x 8-bit telecom bus interface at 77.76MHz for backplane connectivity, protection applications, or connection to an add/drop tributary device. Software compatibility with the Intel(R) WB15xx/WB1400 product family enables reuse of design for multiple applications. In addition, system designers can develop a single board with different stuffing options applicable for a range of line interface connections. This compatibility enhances equipment manufacturer productivity and reduces design time required for SONET/SDH systems. WB1500 1 x OC-48/STM-16 or 4 x OC-12/STM-4 Channelized SONET/SDH Framer T he Intel(R) WB1500 1 x OC-48/STM-16 or 4 x OC-12/STM-4 Channelized SONET/SDH Framer is targeted at highdensity telecommunications and data communications equipment built for the wide area network (WAN) and metropolitan edges of the network, including SONET/SDH ADMs, multi-service routers, switches, access concentrators and dense wavelength division multiplexing (DWDM) systems, used to aggregate large amounts of end user traffic transmitted over T1/E1/J1/DS3, wireless, DSL and other transmission pipes. The Intel WB1500 is a highly integrated channelized framer and overhead processor that comprehensively addresses both SONET and SDH standards requirements. Compared to competitive devices targeting similar applications, the Intel WB1500 incorporates several unique features such as advanced support for tandem connections, and Intel ALERTTM. In the 622 Mbps mode, the Intel WB1500 connects directly to the CDRs eliminating the need for four external MUX/DeMUX devices. Software compatibility with the Intel WB15xx/WB1400 product family enables reuse of design for multiple applications. In addition, system designers can develop a single board with different stuffing options applicable for a range of line interface connections. This compatibility enhances equipment manufacturer productivity and reduces design time required for SONET/SDH systems. WB1501 T 16 x OC-3 Channelized SONET/SDH Framer with Clock and Data Recovery he integrated Intel(R) WB1501 16 x OC-3 Channelized Framer with Clock and Data Recovery (CDR) replaces 4 x OC-3 Framer enabling the design of significantly smaller, more functional optical interfaces. The Intel WB1501 supports sixteen 155Mbps optical ports, channelized down to the STS-1/VC-3 level. The Intel WB1501 is designed for high-channelization, high density equipment located at the Access and Metropolitan edges of the network, including SONET/SDH ADMs, multi-service routers, switches, access concentrators and DWDM equipment used to aggregate large amounts of end-user traffic transmitted over T1/E1/J1/DS3, wireless, DSL and other transmission pipes. Additionally, with the advent of new high-density optics, the Intel WB1501 eliminates a major barrier to designing higher density optical interface boards. The Intel WB1501 achieves the industry's highest density at the lowest power dissipation rate and enables equipment makers to build very high-density optical interfaces with drastically reduced power dissipation, a critical advantage in building today's state-of-the-art systems. developer.intel.com/design/network Optical Products Software compatibility with the Intel WB15xx/WB1400 product family enables reuse of design for multiple applications. In addition, system designers can develop a single board with different stuffing options applicable for a range of line interface connections. This compatibility enhances equipment manufacturer productivity and reduces design time required for SONET/SDH systems. WB1510 2 x STM-4/OC-12 or 2 x STM-1/OC-3 Channelized SONET/SDH Framer T he Intel(R) WB1510 is the industry's first single-chip 2 x STM-4/OC-12 or 2 x STM-1/OC-3 Channelized SONET/SDH Framer. The device offers equipment makers the flexibility to design 2-fiber line interfaces for ring applications, using a single chip. The 2 x OC-3/STM-1 mode enables systems engineers to design a single line interface card for both OC-12/ STM-4 and OC-3/STM-1 rates. The Intel WB1510 is targeted at high density telecommunications and data communications equipment built for the metropolitan area network (MAN) and access networks, including SONET/SDH ADMs, Switches and Multi-Service Provisioning Platforms (MSPPs), and Access Concentrator equipment used to aggregate end-user traffic transmitted over T1/E1/J1/DS3, wireless, DSL and other transmission pipes. The Intel WB1510 offers a telecom bus interface and full bandwidth cross-connect that enables connections to multiple devices or cards, such as tributary interfaces at the DS1/E1/DS3/E3 or OC-3/STM-1 rates. In the OC-3/STM-1 mode, the WB1510 incorporates on-chip CDR. Software compatibility with the Intel WB15xx/WB1400 product family enables reuse of design for multiple applications. In addition, system designers can develop a single board with different stuffing options applicable for a range of line interface connections. This compatibility enhances equipment manufacturer productivity and reduces design time required for SONET/SDH systems. 10 Gigabit XAUI Transceiver LXT12102 XAUI to 10G Serial Transceiver I ntel(R) LXT12102 is a follow-on next-generation product to LXT12101. The device is intended for use in the same applications as LXT12101. With strong integrated features that includes, 8051 microcontroller, multiple ADC and DAC channels, VCSEL driver, Limiting Amplifier, and JTAG, it is an ideal device for optical transceiver modules. LXT12102 uses internal 90nm process technology which enables more than 25 percent power reduction in the B0 version. Similar to LXT12101, it can also be used in the system gasket applications and comes with reference designs. 10Gbps Transmitters GD16585 GD16589 10Gbps 16:1 Multiplexer (MUX) with Retiming 10.66Gbps 16:1 Multiplexer (MUX) with Retiming I ntel's highly integrated 10Gbps and 10.66Gbps transmitter chips for use in STM 64, OC-192 and out-of-band Forward Error Correction (FEC) applications all incorporate a 16:1 MUX with fully integrated retiming Phase Locked Loop (PLL). The 10Gbps MUX GD16585 and GD16589 include a dynamic phase alignment circuit that provides forward timing for OIF applications or jitter clean up of the reference clock. All the devices exceed the ITU-T and Telcordia jitter requirements. LXT16707 T 9.95-10.71Gbps Low-Power 16:1 Multiplexer (MUX) he Intel(R) LXT16707 is a highly integrated, high-performance and low-power serializer for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN), Forward Error Correction (FEC/EFEC) applications and 10GbE systems. Manufactured using a SiGe BiCMOS process for an optimal power/performance ratio, the Intel LXT16707 serializer chip helps ensure stable and reliable operation in Telco-class networking equipment. The Intel LXT16707 transmitter includes a 16:1 MUX and Phase Locked Loop (PLL) circuits. In order to ensure critical timing between clock and data signals going from the framer to the MUX, a 2-bit FIFO has been integrated as support for the 93 94 Optical Products developer.intel.com/design/network Dynamic Phase Alignment (DPA). The device exceeds ITU-T and Telcordia jitter requirements. The LXT16707 is operated from a single 3.3V power supply and has a power dissipation of 0.75W. It is packaged in a 13x13 mm 132-ball PBGA. LXT16727 9.95-11.1Gbps Low-Power 16:1 Multiplexer (MUX) T he Intel(R) LXT16727 is a highly integrated, high-performance and low-power serializer for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN), Forward Error Correction (FEC/EFEC) applications and 10GbE systems. Manufactured using a SiGe BiCMOS process for optimal power/performance ratio, the Intel LXT16727 serializer chip helps ensure stable and reliable operation in Telco-class networking equipment. The Intel LXT16727 transmitter includes a 16:1 MUX and Phase Locked Loop (PLL) circuits. In order to ensure critical timing between clock and data signals going from the framer to the MUX, a 9-bit FIFO has been integrated as support for Dynamic Phase Alignment (DPA). Furthermore, the device has three reference clock inputs to fit a wide range of applications (SONET, GbE and OTN) as well as a third integrated PLL for jitter clean-up. The device exceeds the ITU-T and Telcordia jitter requirements. The LXT16727 is operated from a single 3.3V power supply and has a power dissipation of 1.1W. It is packaged in a 13x13 mm or 10x10 mm 132-ball PBGA. 10Gbps Receivers GD16584 GD16588 10Gbps Clock and Data Recovery (CDR) device with 1:16 Demultiplexer (DeMUX) 10.66Gbps Clock and Data Recovery (CDR) device with 1:16 Demultiplexer (DeMUX) I ntel's highly integrated 10Gbps and 10.66Gbps receivers for use in STM 64, OC-192 and out-of-band Forward Error Correction (FEC) applications all feature a fully integrated Phase Locked Loop (PLL)-based Clock and Data Recovery (CDR) device, along with a 1:16 Demultiplexer (DeMUX). The devices exceed the ITU-T and Telcordia jitter recommendations. Interconnection to 78Mbps framers can be made with the digital support circuits. LXT16706 9.95-10.71Gbps Low-Power 1:16 Demultiplexer (DeMUX) T he Intel(R) LXT16706 is a highly integrated, high-performance and low-power deserializer for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN), Forward Error Correction (FEC/EFEC) applications and 10GbE systems. Manufactured using a SiGe BiCMOS process for an optimal power/performance ratio, the Intel LXT16706 deserializer chip helps ensure stable and reliable operation in Telco-class networking equipment. The Intel LXT16706 is a DeMUX with an integrated Clock and Data Recovery (CDR) device and a high-quality Limiting Gain Amplifier and is fully compliant with the Optical Interface Forum's SFI-4 recommendation on common electrical interface between framers and Serializer/Deserializer (SerDes) for OC-192/STM 64. The LXT16706 is operated from a dual 1.8V/3.3V power supply and has a power dissipation of 0.75W. It is packaged in a 13 x 13 mm 132-ball PBGA. LXT16713XC 9.95-11.1Gbps Clock and Data Recovery (CDR) T he Intel(R) LXT16713XC features an integrated Limiting Amplifier (LIA) with state-of-the-art input sensitivity (better than 2x2.5mVpp @ BER 10-10), a Clock and Data Recovery (CDR) unit and a loss of signal/loss of lock circuitry. The device provides a high-performance protocol-agnostic 10Gbps Clock and Data Recovery and Re-timer solution for use in optical line cards and XFP MSA modules for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN) systems with Forward Error Correction (FEC) applications; and submarine systems, 10GbE networks, and 10Gbps Fiber Channel (GFC) and fiber-optic test equipment. The CDR recovers clock and data, sampling the incoming signal to determine the optimum bit period and coping with dispersions in the fiber that can cause the eye to shrink or deteriorate. The CDR automatically detects the optimum sampling point. The LXT16713 is operated from a single 3.3V power supply and has a power dissipation of 0.5W. It is manufactured using BiCMOS technology and packaged in a 5x6 mm 42-ball PBGA. developer.intel.com/design/network LXT16713A Optical Products 9.95-11.1Gbps Clock and Data Recovery (CDR) T he Intel(R) LXT16713A features an integrated Limiting Amplifier (LIA) with state-of-the-art input sensitivity (better than 2x5mVpp @ BER 10-10), a Clock and Data Recovery (CDR) unit and a loss of signal/loss of lock circuitry. The device can be used in XFP modules as a signal conditioner in both Receive and Transmit paths or as an eye opener in optical line cards for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN) systems with Forward Error Correction (FEC) applications; and submarine systems, 10GbE networks, and 10Gbps Fiber Channel (GFC) and fiber-optic test equipment. The LXT16713A is operated from a single 3.3V power supply and has a power dissipation of 0.5W. It is manufactured using BiCMOS technology and packaged in a 4x4 mm 24-lead QFN. LXT16723 9.95-11.1Gbps XFP Clock and Data Recovery (CDR) T he Intel(R) LXT16723 features an integrated Limiting Amplifier (LIA) with state-of-the-art input sensitivity (better than 2x5mVpp @ BER 10-10), a Clock and Data Recovery (CDR) unit and a loss of signal/loss of lock circuitry. The CDR acts as signal conditioner for either XFP Receive and Transmit paths and conforms to XFI electrical interface as defined in XFP MSA. The device also supports Rx alarms such as LOS and LOCK, and can be used in combination with a micro controller for XFP modules. Furthermore the device can be used as an eye opener in optical line cards for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN) systems with Forward Error Correction (FEC) applications; and submarine systems, 10GbE networks, and 10Gbps Fiber Channel (GFC) and fiber-optic test equipment. The LXT16723 is operated from a dual 1.8/3.3V power supply and has a power dissipation of 250-350mW. It is manufactured using BiCMOS technology and packaged in a 4x4 mm 24-lead QFN. LXT16726 9.95-11.1Gbps Low-Power 1:16 Demultiplexer (DeMUX) T he Intel(R) LXT16726 is a highly integrated, high-performance and low-power deserializer for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN), Forward Error Correction (FEC/EFEC) applications and 10GbE systems. Manufactured using a SiGe BiCMOS process for an optimal power/performance ratio, the Intel LXT16726 deserializer chip helps ensure stable and reliable operation in Telco-class networking equipment. The Intel LXT16726 is a DeMUX with an integrated Clock and Data Recovery (CDR) device and a high-quality Limiting Gain Amplifier and is fully compliant with the Optical Interface Forum's SFI-4 recommendation on common electrical interface between framers and Serializer/Deserializer (SerDes) for OC-192/STM 64. The LXT16726 is operated from a dual 1.8V/3.3V power supply and has a power dissipation of 0.75W. It is packaged in a 13x13 mm or 10x10 mm 132-ball PBGA. 10Gbps Transceiver LXT16715 T 9.95-11.1Gbps XFP Transceiver he Intel(R) LXT16715 features a bidirectional Clock and Data Recovery Device including integrated Limiting Amplifiers (LIA) with state-of-the-art input sensitivity (better than 2x5mVpp @ BER 10-10). The CDRs acts as signal conditioner for XFP Receive and Transmit paths, supports system and line side loop back and conforms to XFI electrical interface as defined in XFP MSA. The device also supports Rx/Tx alarms such as LOS and LOCK, and can be used in combination with a micro controller for XFP modules. Also the device can be used as an eye opener in optical line cards for SDH STM 64, SONET OC-192, Optical Transport Networking (OTN) systems with Forward Error Correction (FEC) applications; and submarine systems, 10GbE networks, and 10Gbps Fiber Channel (GFC) and fiber-optic test equipment. The LXT16715 is operated from a dual 1.8/3.3V power supply and has a power dissipation of 500-700mW. It is manufactured using BiCMOS technology and packaged in a 6x6 mm 49-ball BGA. 95 96 Optical Products developer.intel.com/design/network 10Gbps Amplifiers LXT13002 Limiting Amplifier (LIA) with Loss of Signal (LoS) T he Intel(R) LXT13002 Limiting Amplifier (LIA), has up to 10.7Gbps operation, input sensitivity of less than 5mV differential, on-chip DC offset compensation, and a single 1.8V power supply. The device can be used in 10Gbps Ethernet serial LAN, MAN and WAN systems, SONET OC-192, Fibre Channel FC-10, and InfiniBand 1X. The LXT13002 has a programmable loss of signal indicator. The 1.8V supply voltage allows compatibility with 10GbE XFP and XENPAK module specifications, and the low power consumption < 342mW reduces heat generation, enabling implementations within small form factor modules. The low total Root Mean Square (RMS) jitter, typically < 3ps, results in low system jitter at 10Gbps data rates, and the 0.500mV output voltage swing is able to interface with Current Mode Logic (CML). The LXT13002 is available in die form and in 24 MLF package. LXT16865 Transimpedance Amplifier (TIA) T he Intel(R) LXT16865 is a high gain Transimpedance Amplifier (TIA) providing a differential output swing up to 2x200mVpp and a small signal, single-ended transimpedance gain of 6000. It requires a single power supply of +3.3V and consumes less than 130mW of power. A high optical sensitivity of -20dBm makes LXT16865 the TIA of choice for Metro and Long-Haul applications while LXT14012 is suitable for the Metro/Access and Enterprise market segments. It can support over 2mA input current before overload. The LXT16865 is tolerant to a photodiode capacitance of 0.2pF, allowing broadband operations with commercial grade photodiodes. They are designed in proven SiGe process and are available in die. 10Gbps Drivers LXT17001 Laser Driver T he Intel(R) LXT17001 is one of three distinct components of the Intel(R) 10Gbps Physical Medium Dependent (PMD) Chipset. With the expanding demand for data communications, the result is the drive for advancement of high-speed optical networks. The LXT17001 is a low-cost, high-performance laser diode driver IC intended for fiber-optic transmitters operating up to 10.7Gbps. Use of CMOS technology offers an economic solution with considerable power savings compared to traditional 5V bipolar or GaAs parts. The low power consumption reduces heat generation, enabling implementations within small form factor modules, and the low signal overshoot and undershoot <10 percent, creates low jitter and open eye patterns at 10Gbps data rates. The current drive capability is 25mA modulation current into a 50 load and is sufficient for biasing and driving most commercial grade Vertical Cavity Surface Emitting Laser (VCSELs). The supply voltages are compatible with preliminary 10GbE XFP and XENPAK module specifications. The LXT17001 is available in die form and 24 MLF package. LXT17011 T Laser Driver he Intel(R) LXT17011 is a low-cost, high-performance laser diode driver IC intended for fiber-optic transmitters operating over 10 Gbps. Similar in performance to the LXT17001 except that the output of the Intel LXT17011 is an unterminated open drain, allowing the part to drive low impedance lasers with modulation currents up to 50mA. Use of CMOS technology offers an economic solution with considerable power savings compared to traditional 5V bipolar or GaAs parts. The LXT17011 is available in die. developer.intel.com/design/network LXT17031 Optical Products 10Gbps Electro-Absorption Modulator (EAM Driver) T he LXT17031 is an Electro-Absorption Modulator (EAM) driver that provides an adjustable swing up to 2.5Vpp into a 50 impedance load for data rates up to 10.7Gbps. The LXT17031 requires a single power supply (-5.2V) and features a very low power dissipation rate (0.8W). The LXT17031 EAM driver incorporates a three-stage amplifier: the input amplifier is designed for a wide-dynamic range input signal and provides a duty-cycle control function; the second amplifier prepares the data signal for the output stage; and the output stage enables a DC connection to the modulator and provides high-drive capability and output-voltage swing control. The LXT17031 is used in telecommunication transmission systems, DWDM applications, 10.7Gbps Forward Error Correction and Optical Transport Network transmission and metro and longhaul transmitters. The LXT17031 is available in die and QFN32 package. 10Gbps Optical Transceivers TXN132201/5/7 Small Form Factor 10Gbps Optical Transceivers T he Intel(R) TXN132201/5/7 Small Form Factor 10Gbps Optical Transceivers are designed to provide an interface between the photonic physical layer and the electrical layer in 10Gbps network applications. The TXN13320 transceiver family provides an optical transmitter and receiver pair integrated with an electrical Multiplexer (MUX) and Demultiplexer (DeMUX). The module multiplexes/demultiplexes 16 channels from a differential Low-Voltage Differential Signal (LVDS) parallel data bus into a serial optical signal running at line rates from 9.953 to 10.709Gbps. An integrated micro-controller provides robust control and monitoring of the module through an I2C interface on the 300-pin Berg* MEG-Array connector. The transmitter contains a cooled 1310nm Distributed Feedback (DFB) laser or a cooled 1550nm Electro-absorption Modulated Laser (EML) with integrated laser-driver, launched into a single-mode optical fiber pigtail. The receiver includes a PIN photodiode and transimpedance amplifier, which operate over both the 1.3m and 1.5m bands. The TXN13220 transceiver family can be configured to supply a single- or dual-rate SONET/SDH, SONET+ Forward Error Correction (FEC) or 10Gb Ethernet interface, with optional clock jitter filtering. The module satisfies link distances from 0 to 40km with future variants extending to 80km in reach. The transceiver is assembled in a Multi-Source Agreement (MSA)-compatible package that is a maximum size of 3.0" Lx2.2" Wx0.63" H. The Intel TXN13220 family of transceivers is designed to be compliant with Telcordia GR-253 requirements for OC-192 SONET interfaces and draft 5.0 of IEEE 802.3ae, 10GBASE-L and 10GBASE-E 10Gb Ethernet specifications. The TXN13220 family is also fully compliant to the 300-pin MSA for 10 Gigabit transponders and I2C reference document for 300-pin MSA transponders. TXN13600 T 10Gbps C-Band Tunable Optical Transceiver for DWDM Networks he Intel(R) TXN13600 Tunable Optical Transceiver is a full C-band tunable10Gbps transceiver for DWDM network applications. By allowing customers to tune the transceiver to any one of the ITU grid channels, the Intel TXN13600 transceiver makes it possible to cover the 80-channel C-band with a single transceiver, eliminating the requirement to carry 80 different transceivers for each of the required wavelengths. The Intel TXN13600 Tunable Optical Transceiver provides a compliant interface between the photonic physical layer and the electrical section layer. The module includes an optical transmitter and receiver pair integrated with electrical MUX/ DeMUX functions. When matched with Intel's other transceiver, Framer and FEC products, Intel provides the complete solution for many line card designs. Designed to meet the link budget and distance requirements of metro and long-haul networks, the highly integrated Intel TXN13600 module includes a Lithium Niobate Mach-Zehnder modulator, microcontroller, MUX (9bit FIFO)/DeMUX, Clock and Data Recovery (CDR) unit, jitter filter, APD and PIN receiver options, and a temperature-tuned external cavity laser into a 4.1" Lx3.5" Wx0.53" H form factor device with only 11W of maximum power dissipation. Additional product features include SBS suppression ("dithering"), multi-rate capability (SONET/SDH, Ethernet, and Forward Error Correction), zero chirped (+/-1200ps/nm dispersion) and negative chirped (+1600ps/nm dispersion) modulator options, and a transmit output power of up to +5.5dBm. 97 98 Optical Products TXN17201/9 developer.intel.com/design/network 10Gbps Optical Transceiver, compliant with XPAK MSA T he Intel(R) TXN17201/9 10Gbps optical transceiver is XPAK PCI form factor compatible, hot-pluggable module designed for use in data-center applications in Local Area and Storage Area Networks. The device is a 10GBASE-SR multi-mode transceiver operating at 10.3Gbps for Ethernet applications, and includes Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA), and Physical Medium Dependent (PMD) functions. The transmitter section decodes four 8B/10B-encoded channels at 3.125Mbps from an XAUI parallel data bus, performs 64B/66B scrambling, and multiplexes the result into a 10.3Gbps Ethernet rate optical signal. The receiver section demultiplexes a single 10 Gbps optical signal and converts it to four channels of XAUI. The receiver includes a photodiode, transimpedance amplifier, clock recovery decision circuit and demultiplexer, and operates over the 850nm band. The TXN17201 transceiver is assembled in an XPAK Multi-Source Agreement (MSA)-compatible 2.74" Lx1.557" Wx0.465" H module. The heat sink is designed for 45C ambient temperature with 100 linear feet per minute airflow. The electrical interface is through an XPAK MSA-compliant 70-pin board edge connector, with optical connections made using standard LC optical connectors. The transceiver is intended for link spans up to 300 m, and uses an 850 nm Vertical Cavity Surface Emitting Laser (VCSEL). An IEEE802.3ae and XPAK MSA-compliant Management Data Interface (MDIO) are also included. The Intel(R) TXN17209 10Gbps XPAK optical transceiver operating at 10.5Gbps for Fibre Channel applications is also available. TXN174XX 10Gbps Optical Transceiver, compliant with XENPAK MSA T he Intel(R) TXN174XX 10Gbps Optical Transceiver is XENPAK compliant and designed to provide a IEEE802.3ae 10.3Gbps interface between the photonic physical layer and the electrical section layer. The module comprises an optical transmitter and receiver pair integrated with XAUI to Serial conversion. PCS, PMA and PMD functions are included. The transmitter section decodes four 8B/10B encoded channels at 3.125Mbps from a XAUI parallel data bus, performs 64B/66B scrambling and multiplexes the result into a 10.3125Gbps optical signal launched into a single-mode optical fiber pigtail. The receiver section demultiplexes a single 10.3125Gbps optical signal and performs opposite decoding before it converts back to 4 channels of 3.125Mbps XAUI. The receiver includes a photodiode, Transimpedance Amplifier (TIA), Clock and Data Recovery (CDR) device, decision circuit, and DeMUX. An IEEE802.3ae and XENPAK MSA-compliant Management Data Interface (MDIO) is included. The optical transceiver is assembled in a Multi-Source Agreement (MSA)-compatible 4.5" Lx1.4" Wx0.7" H package. The heat sinking was designed for 55C ambient temperature/200 linear feet per minute airflow. Alternative heat sinking options are also available. The XAUI interface connection is made using a XENPAK MSA-compliant 70-pin board edge connector. Optical connections are made with standard SC-UPC optical connectors. The 10GBASE-SR transceiver is intended for link spans up to 300m, and uses a 850nm vertical cavity surface emitting laser (VCSEL) source. The 10GBASE-LR transceiver is intended for link spans up to 10km, and uses a 1.3m distributed feedback (DFB) laser source. The 10GBASE-ER transceiver is intended for link spans up to 40km, and uses a 1.5m externally modulated (EML) laser source. TXN17431 T CX4 Electrical Transceiver, compliant with XENPAK MSA he Intel(R) TXN17431 CX4 Electrical Transceiver is a XENPAK compliant form factor module designed for link distances of 15m over 24 American Wire Guide (AWG) InfiniBand* cable. It complies with the latest IEEE CX4 specification, as drafted in 802.3ak_D5. Intel TXN17431 has an adjustable transmit de-emphasis that enables a transmit function that fits within the template defined in 802.3ak. In addition, the built-in receive equalization provides a robust link for 15 m. In case of proprietary links, an additional transmit pre-emphasis can be chosen in order to either drive longer distances of 24 AWG cable or utilize an inferior but more flexible 28 AWG cable. developer.intel.com/design/network Optical Products Intel TXN17431 interfaces with standard InfiniBand cables using a 4X (8-signal pair) electrical connector. The connector is a shielded structure for low cross-talk. This electrical mating interface is compliant to the standards--InfiniBand, 10GFC, Serial ATA 2, and SAS. With the XENPAK-compliant 70-pin connector, the Intel TXN17431 can be readily plugged into the existing optical slots in a line card application with no further changes required to the existing system board designs. This ready-to-use function provides a way to quickly evaluate the CX4 modules in a real system environment. TXN18107 10Gbps Optical Transceiver, compliant with XFP MSA T he Intel(R) TXN18107 10Gbps Optical Transceiver is XFP compliant and provides an interface between the photonic physical layer and the electrical section layer in high-density data-center applications, local area networks (LANs) and storage area networks (SANs). This small form factor, hot-pluggable transceiver provides excellent optical performance in the challenging thermal environment of multi-port switch line cards and other high port-density applications including server network interface cards, storage host bus adapters, LAN switches, SAN switches and storage array interfaces. The Intel TXN18107 transceiver will operate at any bit rate from 9.95 to 10.51875Gbps. It is compliant with IEEE 802.3ae draft 5.0 10GBASE-LR, operating at 10.312Gbps for Ethernet applications and 10GFC draft 3.0 1200-SM-LL-L, operating at 10.51875Gbps for Fibre Channel applications. The transceiver includes an optical transmitter and receiver pair integrated with clock and data recovery (CDR) integrated circuits. The transceiver also includes an XFP MSA-compliant, 2-wire digital management and diagnostic interface. Assembled in a compact MSA-compliant form factor, the transceiver is 0.722"x0.453"x3.071" and is designed to be compliant with draft 5.0 of IEEE 802.3ae and 10GFC draft 3.0 specifications. TXN3101 4/2/1Gbps Small Form Factor (SFF) Optical Transceivers T he Intel(R) TXN3101 4/2/1Gbps Small Form Factor (SFF) Optical Transceivers provide high performance integrated duplex data links for bidirectional communication over multimode optical fiber. This module is designed for high-speed Fibre Channel data links at 4.25Gbps (4X Fibre Channel rate). With the rate select pin, the module is also rate agile and can work at the 1X and 2X Fibre Channel rates (1.0625Gbps and 2.125Gbps) and the Gigabit Ethernet rate (1.25Gbps). The Intel TXN3101 optical transceiver is provided with a LC receptacle compatible with the industry standard LC optical connector. The SFF 850nm transceivers use a single 3.3V supply and are assembled in a compact MSA-compliant form factor package, 0.53"x0.386"x1.92". This optoelectronic transceiver module is a class 1 laser product compliant with FDA Radiation Performance Standards, 21 CFR Subchapter J. This component is also class 1 laser compliant according to International Safety Standard IEC-825-1. TXN3111 T 4/2/1Gbps Small Form Factor Pluggable (SFP) Optical Transceivers he Intel(R) TXN3111 4/2/1Gbps Small Form Factor Pluggable (SFP) Optical Transceivers provide high performance integrated duplex data links for bi-directional communication over multimode optical fiber. This module is designed for high-speed Fibre Channel data links at 4.25Gbps (4X Fibre Channel rate). With the rate select pin, the module is also rate agile and can work at the 1X and 2X Fibre Channel rates (1.0625Gbps and 2.125Gbps) and the Gigabit Ethernet rate (1.25Gbps). The TXN3111 optical transceiver is provided with a LC receptacle compatible with the industry standard LC optical connector. The SFF 850nm transceivers use a single 3.3V supply and are assembled in a compact MSA-compliant form factor package, 0.58"x0.445"x2.22". This optoelectronic transceiver module is a class 1 laser product compliant with FDA Radiation Performance Standards, 21 CFR Subchapter J. This component is also class 1 laser compliant according to International Safety Standard IEC-825-1. 99 100 Optical Products TTX11500 developer.intel.com/design/network Full C-Band Tunable Laser T he Intel(R) TTX11500 Full C-Band Tunable Laser is the ideal solution for DWDM optical transceivers and DWDM discrete linecard designs. Full C-band tunable lasers alleviate inventory and sparing costs in high channel-count DWDM systems by allowing a single device to replace multiple single-channel lasers tuned to individual wavelengths on the ITU grid. Full C-band tunable lasers also enable new system functionality such as hot backup and dynamic provisioning in addition to next-generation applications of optical regeneration and wavelength conversion. The Intel(R) C-band tunable laser design consists of a cooled external cavity diode laser (ECDL) within a 30-pin butterfly package. The ECDL uses an etalon-based, thermally actuated, widely tunable filter to achieve single mode operation at selectable wavelengths. The tunable laser contains no moving parts and shares many design elements of standard distributed feedback lasers (DFBs). The laser has excellent optical performance, including low RIN, high SMSR, narrow line width and superior wavelength accuracy over operating conditions and lifetime allowing the product to meet all the stringent requirements of today's high-channel-count long-haul and metro DWDM systems. The Intel TTX11500 is designed to be implemented in modules and line card solutions with the Intel TTX11500 electronics reference design. This allows full control and monitoring of the laser via a LVTTL RS-232 serial interface including the ability to tune to any channel within the C-band (off-grid tuning optional). The laser reference design also accommodates features such as frequency dithering for SBS suppression and TxTRACE tone signaling, as implemented in the Intel TXN11500 electronics reference design. 2.5Gbps Framer/Digital Wrapper/Bandwidth Management IXF6048 Cell Packet Framer T he Intel(R) IXF6048 and IXF6012 multi-speed SONET/SDH cell packet framers are distinguished by a unique architecture that enables OEMs to design high-performance IP/ATM transport equipment. The IXF6048 and IXF6012 can store entire packets of different lengths, ATM cells or a combination of IP packets and ATM cells on the same payload, while enabling optimal equipment processing. This capability is the result of a large on-chip FIFO (up to 16Kbytes), and allows carriers to provide a much greater level of Quality of Service (QoS). The IXF6048 supports various channel types such as one OC-48, or four OC-12s and the IXF6012 supports various channel types such as one OC-12 or four OC-3s. The IXF6012 is pin-to-pin compatible with the IXF6048, enabling OEMs to build highly flexible equipment that can be easily upgraded as the network grows. This flexibility also helps extend the life and versatility of equipment, and helps reduce replacement costs. Intel's software support, including device drivers and a Graphical User Interface (GUI), enables OEMs to quickly implement both the IXF6048 and IXF6012. In addition, equipment becomes easily adaptable for different speeds via software that changes the configuration. With an extremely configurable design that carries both ATM and IP, the IXF6048 and IXF6012 cell/packet framers simplify and accelerate the transporting of data through today's multi-protocol network, and help speed time-to-market. IXF30025 T Digital Wrapper 2.5Gbps Optical Transport Network (OTN) he Intel(R) IXF30025 is a fully compliant G.709 digital wrapper device that covers most Optical Transport Network (OTN) applications on a single chip. The device is targeted for 2.5Gbps OTN applications. Based on the digital signal wrapping technique defined by ITU-T G.709, the IXF30025 provides all functions required for a 2.5Gbps OTN system, including transmission protection based on Forward Error Correction (FEC). With integrated FEC error statistics and overhead processing facilities, the Intel IXF30025 is a key component in wrapper-based transparent operation, administration, maintenance and provisioning of optical networks. The Intel IXF30025 is built on technology developed for the Intel(R) IXF30005 Digital Wrapper for 10Gbps. Acting as a direct pin- and software-compatible drop-in replacement for the Intel(R) IXF30001 the Intel IXF30025 supports G.975 framing, as well as ITU-T G.709 OTU-1 framing. The IXF30025 may be operated as a gateway between existing IXF30001-based developer.intel.com/design/network Optical Products systems and ITU-T G.709-compliant equipment. With its power consumption of 2W the IXF30025 has excellent power to performance ratio, and small space requirements. The device opens the door to digital wrapper OTN applications. Integrated error statistics circuitry and serial Optical Overhead Channels (OCOH) allow complete remote management of an optical network. The devices can be controlled via an 8-bit processor interface allowing a highly event driven communication for reducing processor load. IXF25300 2.5G SONET/SDH Framer with STS-1 and VT/TU Pointer Processor and AU/TU Cross Connect, Stackable to 10Gbps T he Intel(R) IXF25300 2.5G SONET/SDH Framer with STS-1 and VT/TU Pointer Processor and AU/TU Cross Connect, Stackable to 10Gbps provides a complete high and low order bandwidth management solution in Metro and Access networks for Multi-Service Provisioning Platforms (MSPPs), Add/Drop Multiplexers (ADMs), Edge Boxes, Core Switches, and Cross Connects using modular stackable fabric that allows multiple product platforms, sizes, and architectures within a single chip. The Intel IXF25300 is compliant with Bellcore GR-253, ANSI T1.105, ETSI ETS 300 417, ITU-T G.707, G.783, G.784, G.806 and G.826 requirements. The Intel IXF25300 supports up to STM-16/OC-48 worth of bandwidth with any valid combination of STM-16/OC-48, STM-4/OC-12 and STM-1/OC-3 interfaces. The device integrates all common ADM functions into a single chip to allow single card ADM/MSPP development with linear scalability from 2.5Gbps to 10Gbps. It combines framing, high order and low order processing into the same package. It also contains a single stage non-blocking AU/TU cross connect and provides separate controls for AU and TU switch configurations. The Intel IXF25300 supports SD/SF on VC-4 to VT-1.5 VC-12 to allow for faster UPSR/SNCP ring closure. Low power dissipation of 7W and a compact 31mmx31mm package enable flexible design and improved time-to-market. 2.5Gbps Multi-rate Serializer/Deserializer (SerDes) Chipsets GD16556 GD16557 LXT16596 LXT16597 Multi-rate Clock and Data Recovery (CDR) device with 1:16 Demultiplexer (DeMUX) and Digital Wrapping Multi-rate 16:1 Multiplexer (MUX) with Digital Wrapping Multi-rate Clock and Data Recovery (CDR) device with 1:4 Demultiplexer (DeMUX) and Digital Wrapping Multi-rate 4:1 Multiplexer (MUX) with Digital Wrapping T he Intel(R) LXT16596/LXT16597 and GD16556/GD16557 are high-performance multi-rate transponder chipsets designed for interconnecting a 2.5Gbps line interface to a custom CMOS ASIC or FPGA. The fully integrated on-chip Phase Locked Loops (PLLs) on LXT16597 eliminate critical clock/data timing relations and feature the unique dynamic phasealignment between ASIC and Multiplexer (MUX). The chipsets are compatible with multiple line rates up to OC-48/STM 16. Switching between the bit rates is possible on the fly through select pins. The receivers have an input Limiting Amplifier (LIA), Clock and Data Recovery (CDR) device, Loss of Signal (LOS), and DeMUX and support digital wrapping. The transmitters are equipped with a MUX and jitter attenuator. All devices support up to 7 percent increased line rate. They comprise integrated programmable clock dividers for digital wrapping for Forward Error Correction (FEC) applications. Fractions available are 32/31, 16/15, and 15/14. 2.5Gbps Transmitters GD16553 T 4:1 Multiplexer (MUX) with Bypass Capability and Laser Driver he Intel(R) GD16553 is a high-performance 2.5Gbps 4:1 Multiplexer (MUX) with on-chip Phase Locked Loop (PLL) and high current laser driver designed for use in SDH STM 16 or SONET OC-48 fiber-optic communication systems. The optional bypass capability allows direct 2.5Gbps input to the laser driver. The on-chip PLL synthesizer ensures the 2.5GHz clock for retiming of the high-speed serial output. The PLL is locked to the external reference clock. The on-chip LC type VCO ensures low jitter generation of less than 5 mUIRMS. For 78Mbps interface, see our digital support circuits. The GD16553 has a 4-bit ECL system interface and a supply voltage of -5.2V. 101 102 Optical Products LXT16653 developer.intel.com/design/network 4:1 Multiplexer (MUX) T he Intel(R) LXT16653 is a high-performance monolithic integrated Multiplexer (MUX) and clock generator device applicable for optical communication systems including SONET OC-48 and OC-12. It uses an external reference clock for accurate clock generation. The Phase Locked Loop (PLL) filter is external for flexible design, giving an excellent low jitter clock source. The device features VCO, PLL, Clock Divider, MUX, and Phase Nulling Clocking Scheme. GD16523 Multi-rate 16:1 Multiplexer (MUX) T he Intel(R) GD16523 are high-performance 2.5Gbps 16:1 multiplexers with on-chip VCO and Phase Locked Loop (PLL) system, designed for SDH STM 16 and SONET OC-48 transmission systems. The GD16523 is a low-power multi-rate transmitter with double PLL featuring forward clocking, FIFO and loopback functionality. The GD16523 can also be configured for dynamic phase alignment. All the transmitters are manufactured in a Silicon Bipolar process and exceed the ITU-T and Telcordia jitter recommendations. 2.5Gbps Receivers GD16543 Clock and Data Recovery (CDR) device with 1:4 Demultiplexer (DeMUX) T he Intel(R) GD16543 receiver features a 1:4 Demultiplexer (DeMUX) with input Limiting Amplifier (LIA) and Clock Data and Recovery (CDR). It is designed for SDH STM 16 and SONET OC-48 transmission systems. The 622MHz output clock is maintained within 500ppm tolerance even in absence of data. The device meets the ITU-T and Telcordia jitter recommendations. For 78Mbps interface, see our digital support circuits. LXT16642 Clock and Data Recovery (CDR) device with 1:4 Demultiplexer (DeMUX) T he Intel(R) LXT16642 is a high-performance monolithic integrated Clock and Data Recovery (CDR) device with onboard 1:4 4 Demultiplexer (DeMUX), applicable for optical communication systems including SONET OC-48 and OC-12. It uses an external reference clock for fast acquisition. The Phase Locked Loop (PLL) filter is external for flexible design, giving an excellent low jitter clock source. The low power, small physical form factor and the high integration, makes the device ideal for module, Dense Wavelength Division Multiplexing (DWDM) and backplane applications, as well as solutions with aggregation points for OC-48 (quad) to OC-192. GD16524 T Multi-rate Clock and Data Recovery (CDR) device with 1:16 Demultiplexer (DeMUX) with Limiting Amplifier (LIA) he Intel(R) GD16524 are high-performance 2.5Gbps receiver devices applicable for SDH STM 16 and SONET OC-48 applications. The devices all comprise a Phase Locked Loop (PLL)-based Clock and Data Recovery (CDR) device with all circuits needed for fast acquisition and lock to the incoming data. The integrated 1:16 Demultiplexer (DeMUX) ensures a simple and universal interface to the next device. All three devices have a wide tuning range conforming to standard SONET/SDH speed and Forward Error Correction (FEC) requirements. GD16524 is a 3.3V multi-rate transmitter designed for standard SONET/SDH rate and Gigabit Ethernet. GD16524 features high-speed serial loopback input, peak detection for signal level monitoring and AGC control as well as consecutive identical bit sequence and BER detection. All the devices conform to ITU-T and Telcordia jitter requirements over supply and temperature ranges. developer.intel.com/design/network GD16522 GD16546B GD16547 Optical Products Multi-rate 1:1 Clock and Data Recovery (CDR) device with Limiting Amplifier (LIA) and Loss of Signal (LOS) 1:1 Clock and Data Recovery (CDR) device with Limiting Amplifier (LIA) 1:1 Clock and Data Recovery (CDR) device with Limiting Amplifier (LIA) T he Intel(R) GD16522, Intel(R) GD16546B and Intel(R) GD16547 are complete 2.5Gbps Clock and Data Recovery (CDR) receivers with on-chip Limiting Amplifier (LIA). Device specifications for both jitter transfer, jitter tolerance and jitter generation exceed the ITU-T and Telcordia recommendations simultaneously over supply and temperature, allowing the CDR to be used as a regenerator in SONET/SDH systems. All the 1:1 CDRs have a wide tuning range enabling both standard SONET/SDH speed and Forward Error Correction (FEC) application. The GD16522 is multi-rate STM 1/4/16 and SONET OC-3/12/48 ideal for high-density applications. It features a consecutive identical bit sequence and BER detection. 2.5Gbps Drivers GD16578 Laser Modulator Driver with Retiming T he Intel(R) GD16578 is a 2.5Gbps Retiming Laser Modulator Driver designed to provide a controllable drive current for optical modulators. Even at the maximum modulation current of 200 mA the device still provides an excellent eye diagram up to 4Gbps, making it a good price-performance solution for 2.5Gbps transmission. The GD16578 can drive external loads with a characteristic impedance of 25. GD16521 GD16561 GD16571 Any Rate Laser Driver with Retiming (25) Any Rate Laser Driver with Retiming (50) Any Rate Laser Driver with Retiming (25) T ogether with our 16:1 multiplexers, the Retiming Laser Drivers form a low jitter, low-power and cost optimized 2.5Gbps solution for your SDH or SONET system. The retiming laser drivers have the best eye diagrams in the industry across the full modulation current range. This allows for a large variety of laser diodes. GD16573A GD16575A Any Rate Laser Driver (25) Any Rate Laser Driver (50) T he Intel(R) GD16573A and Intel(R) GD16575A Laser Drivers are a cost optimized, low-power solution for your 2.5Gbps SDH or SONET transmission system. Both are suitable for Electro-Absorption, Direct Modulated and WDM lasers, the GD16573A being designed to drive a 25W load and the GD16575A a 50W load. 2.5Gbps Amplifiers GD16511 General-Purpose Limiting Amplifier (LIA) T he Intel(R) GD16511 is a wide bandwidth Limiting Amplifier (LIA) designed for SDH STM 16 and SONET OC-48 optical communication systems as well as instrumentation and datacom applications up to 3.125Gbps. The GD16511 has been measured together with a 2.5Gbps Clock and Data Recovery (CDR) circuit, and error-free operation has been measured down to below 3mVpp input signal (10-9 BER). The amplifier accepts input signals to above 1Vpp. The GD16511 has ECL system interface and a supply voltage of -5V. 622 or Quad 155Mbps Framer IXF6012 See IXF6048. POS/ATM Framer 103 104 Optical Products developer.intel.com/design/network 155Mbps Receivers/Transmitters GD16591A GD16592A Multi-rate 8:1/4:1/2:1 Multiplexer (MUX) Multi-rate Clock and Data Recovery (CDR) device with 1:8/1:4/1:2 Demultiplexer (MUX) T he Intel(R) GD16591A/GD16592A is a low-power transmitter/receiver chipset designed for multi-rate line interfaces such as STM 4/OC-12, STM 1/OC-3 and PDH E4. The GD16591A comprises an 8:1/4:/2:1 Multiplexer (MUX) and an optional forward/counter clocking scheme. The GD16592A comprises an input Limiting Amplifier (LIA), Clock and Data Recovery (CDR) device and 1:8/1:4/1:2 Demultiplexer (DeMUX). Both devices offer loopback for local and remote loopback test modes. The devices exceed the ITU-T/Belcore jitter recommendations. GD16360 Dual Transceiver with Cable Equalizer T he Intel(R) GD16360 is a fully dual transmit/receive IC for E4/STM 1/OC-3 operation designed for low cost and volume production. It provides conversion between LVPECL signals and the G.703 line interface featuring two channels, each with a cable equalizer and Loss of Signal (LOS) detection on the receive side and a cable driver on the transmit side. LXT6155 SDH SONET/ATM Transceiver T he Intel(R) LXT6155 is a 155Mbps (OC-3/STM 1/STS-3/3c) high-speed, fully integrated transceiver that supports fiber and coax transmission on the same chip. Implemented using Intel's proven mixed-signal design expertise in 3.3V CMOS technology, it has a small footprint, enabling consumption of 650mW of power (typical) and allowing the integration of multiple OC-3s on the same board. 155Mbps Mapper IXF6151 28 T1/E1 Mapper T he Intel(R) IXF6151 28 T1/E1 Mapper is a universal voice and data communication solution for high-bandwidth access that maps both T1 and E1 signals over SONET/SDH networks. The flexible, universal design of the IXF6151 enables OEMs to build one solution that meets the requirements of both SONET and SDH networks and provides interoperability between the two infrastructures. The IXF6151 allows T1 signals to be carried in an SDH network, further enhancing flexibility. 155Mbps Receivers GD16362A GD16368B T Clock Date and Recovery (CDR) CMI Decoder with Equalizer and LOS CMI Decoder with 1:8/1:4/1:2 Demultiplexer (DeMUX) he Intel(R) GD16362A and Intel(R) GD16368B receivers are Clock and Data Recovery devices with CMI to NRZ decoders designed for reception of PDH, SDH, and SONET signals at 140 and 155Mbps. The 78/70 or 17/19MHz reference clock enable programmable selection between PDH (E4) and STM 1/OC-3 board configurations for maximum flexibility. The GD16362A additionally features on-chip true LOS detection (G.775) and an equalizer capable of recovering signals after more than 25dB (78MHz) cable attenuation. Both devices meet G.751, G.823, and G.825 requirements for jitter tolerance and jitter transfer. The devices are designed for low cost and volume production using BiCMOS technology. developer.intel.com/design/network Optical Products 155Mbps Transmitters GD16361A GD16367B CMI Encoder with Cable Driver 8:1/4:1/2:1 Multiplexer (MUX) with CMI Encoder T he Intel(R) GD16361A and Intel(R) GD16367B transmitters are retiming CMI encoders designed for cable transmission of PDH, SDH, and SONET signals at 140 and 155Mbps. Both devices meet ITU-T G.751, G.823, and G.825 recommendations for jitter tolerance and jitter generation and G.703 for 140 and 155Mbps CMI interface (return loss and transmit power). The devices are designed for low cost and volume production using BiCMOS technology. Digital Support Circuits GD16590 General-Purpose Multi-frequency Clock Synthesizer T he Intel(R) GD16590 is a 3.3V high-speed multi-rate clock synthesizer, with three selectable reference clock inputs and six output clocks at fixed rates from 38.88 to 1.244MHz, intended for clock distribution in SONET/SDH applications by using the internal Voltage Control Oscillator (VCO). The device can also be used with an external VCXO. The GD16590 features an integrated Phase Locked Loop (PLL) with on-chip low noise VCO. Selectable subdivided output clocks without phase skew. It exceeds the ITU-T and Telcordia jitter requirements and is available in a 48-pin TQFP package (7x7 mm). GD16590 is a general-purpose PLL intended for jitter clean-up, phase compensation and frequency synthesis application in high-speed digital systems. LXT16598 Multi-frequency Clock Synthesizer T he Intel(R) LXT16598 is a 3.3V generic high-speed multi-rate clock synthesizer consisting of a Phase Frequency Comparator and a wide-tune range Voltage Control Oscillator (VCO). The device supports up to three external VCSOs/VCXOs (Voltage Control Saw/Crystal Oscillator). The LXT16598 features an integrated Phase Locked Loop (PLL) with on-chip low noise VCO. Four selectable subdivided output clocks without phase skew at programmable rates from 9.00 to 809MHz, suitable for Forward Error Correction (FEC) operations in 2.5Gbps and 10Gbps applications. It exceeds the ITU-T and Telcordia jitter requirements and is available in a 48-pin QFN package (7x7 mm). The LXT16598 is a generalpurpose PLL intended for FEC gear-box as a one chip solution for synchronous clocking designs in FEC applications, jitter clean-up, phase compensation and frequency synthesis application in high-speed digital systems. GD16333 GD16334 O 4:32 Demultiplexer (DeMUX) 32:4 Multiplexer (MUX) ur digital support circuits are cascadable quad multiplexers and demultiplexers designed to interface high-speed primary Multiplexer/Demultiplexer (MUX/DeMUX) devices at 622Mbps and low-speed CMOS framers at 78Mbps. Each device contains circuitry for control and synchronization of an array of slave devices. The devices are composed of four identical MUX/DeMUX blocks with a common clock and synchronization block. Combined with our 10Gbps transmitter and receiver chipsets, these interface devices provide a simple and complete solution for SDH and SONET system designs. 105 106 Optical Products OPTICAL developer.intel.com/design/network PRODUCTS OVERVIEW SYSTEM PART NUMBER FUNCTION APPLICATION OC-192/10GbE IXF18101 OC-192 IXF18102 10Gbps Physical Layer Device for STS-192c/STM 64c POS/GFP and 10GbE LAN and WAN 10Gbps Physical Layer Device for STS-192c/STM 64c POS/GFP 10GbE IXF18103 10Gigabit Ethernet LAN or WAN PHY 10GbE IXF18104 10Gigabit Ethernet LAN PHY OC-192 OC-192 IXF30001 IXF30003 OTN IXF30005 G.975 10.7Gbps Forward Error Correction Device ~6dB gain G.975 10.7Gbps Forward Error Correction Device with Performance Monitoring ~6dB gain G.709 10.7Gbps Digital Wrapper and Forward Error Correction Device OTN IXF30007 G.709 10-13Gbps Digital Wrapper with Enhanced FEC up to 9dB net electrical coding gain OTN/10GbE IXF30009 G.709 10.7Gbps Optical Transport Processor and Ultra Forward Error Correction 10dB net electrical coding gain OTN IXF30025 G.709 2.66 Gbps Digital Wrapper and Forward Error Correction Device OC-3 to OC-48 IXF25300 SONET/SDH Framer, STS-1, VT/TU Pointer Processing Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and DWDM Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and DWDM Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and DWDM Core and Metro Routers, Enterprise Routers and Switches, MSPPs, Storage Area Applications, Metro Transport and DWDM DWDM equipment, FEC regenerators, long-haul networks, Cross Connects DWDM equipment, FEC regenerators, long-haul networks, SONET/SDH performance monitoring DWDM equipment, OTN Optical Transport Networks, FEC regenerators, submarine/ULH network SONET/SDH performance monitoring DWDM equipment, OTN Optical Transport Networks, FEC regenerators, submarine/ULH network SONET/SDH performance monitoring, ultra long haul and submarine networks OTN Optical Transport Network, FEC regenerators, SONET/SDH add/drop multiplexers, submarine and ULH FEC applications, metro and core networks, 10GE LAN transport and monitoring, multi-services switches, Cross Connects DWDM equipment, OTN Optical Transport Network, IP transport equipment, gigabit and terabit routers, ATM Switches, Layer 3 switches, multi-services switches, Cross Connects ~6dB gain MSPP, ADM, Edge Box, Core Switch, Cross Connects OC-12/OC-3 OC-12/OC-3 OC-12/OC-3 OC-12/OC-3 OC-48/OC-12 0C-3 to OC-192 0C-3 to OC-192 OC-192 OC-192 WB1400 WB1500 WB1501 WB1510 WB4500 IXF193XX IXF19302 LXT12102 LXT13002 SONET/SDH Framer SONET/SDH Framer SONET/SDH Framer SONET/SDH Framer w/CDR SONET/SDH Framer Bandwidth aggregation and channelizer, virtual concatenation Bandwidth aggregation and channelizer XAUI to 10G Serial Transceiver 10G L/A W/LOS OC-192 OC-192 OC-192 OC-192 OC-192 OC-192 OC-192 OC-192 OC-192 LXT16588 LXT16589 LXT16706 LXT16707 LXT16713 LXT16713A LXT16726 LXT16727 LXT16715 10.66Gbps CDR with 1:16 DeMUX 10.66Gbps 16:1 MUX with Retiming 9.95Gbps-10.7G CDR with 1:16 DeMUX 9.95Gbps-10.7G 16:1 MUX with Retiming and 2-bit FIFO 9.95Gbps-11.1Gbps Clock and Data Recovery 9.95Gbps-11.1Gbps Clock and Data Recovery 9.95Gbps-11.1Gbps CDR with 1:16 DeMUX 9.95Gbps-10.7G 16:1 MUX with Retiming and 9-bit FIFO 10G XFP Transceiver, CDR OC-192 LXT16723 10 Gbps 1:1 CDR OC-192 OC-192 OC-192 OC-192 LXT16865 LXT17001 LXT17011 LXT17031 10G High Gain T/A Low Current Laser Driver High Current Laser Driver 10Gbps Electro-Absorption Modulator (EAM) Driver ADM, Switches, MSPP, Access Concentrators, STM-1, STM-4 ADM, Switches, MSPP, Access Concentrators, STM-1, STM-4 ADM, Switches, MSPP, Access Concentrators, STM-1, STM-4 ADM, Switches, MSPP, Access Concentrators, STM-1, STM-4 Ethernet over SONET, RPR, ATM, POS, LAPS, TDM POS, GFP, X.86, X.85, ATM, LAPS POS, GFP, X.86, X.85, ATM, LAPS XENPAK/XPAK/X2 MSA, XAUI-to-10G serial line card (XFP) OC-192, 10G Transceivers, FC-10, 10 Gbps Ethernet Serial LAN, MAN, WAN Systems STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications STM 64, OC-192 and out-of-band FEC applications OC-192, STM64, OTN, FEC, Submarine Sysems, GFC, fiber-optical test equipment, 10GbE OC-192, STM64, OTN, FEC, Submarine Sysems, GFC, fiber-optical test equipment, 10GbE STM64, OC-192, DWDM, FEC, OTN VSCEL Driver for 10GbE and OC-192 Laser Driver for 10GbE and OC-192 STM 64, OC-192, DWDM, FEC, OTN developer.intel.com/design/network Optical Products OPERATING SPEED POWER SUPPLY OPERATING TEMPERATURES (TCASE) SYSTEM INTERFACE POWER CONSUMPTION PACKAGE 10/10.3Gbps -40C to +85C LVDS 5.2W 672 UBGA -40C to +85C LVDS 4.7W 672 UBGA -40C to +85C LVDS 5.2W 672 UBGA -40C to +85C LVDS 4.7W 672 UBGA 10.7Gbps 10.7Gbps 1.2/1.8/2.5V; 3.3V I/O tolerant 1.2/1.8/2.5V; 3.3V I/O tolerant 1.2/1.8/2.5V; 3.3V I/O tolerant 1.2/1.8/2.5V; 3.3V I/O tolerant 1.8V, 2.5V, 3.3V 1.8V, 2.5V, 3.3V -40C to +85C -40C to +85C 622, 666 LVDS 622, 666 LVDS 3.5W max 3.5W max 576 TBGA 576 TBGA 10.7Gbps 1.8V, 2.5V, 3.3V -40C to +85C 622, 669 Mbps LVDS 3.1W typical 576 TBGA up to 12.5 Gbps 1.5V, 2.5V, 3.3V -40C to +85C 622, 669 Mbps LVDS 4W 420 TBGA 35x35 mm up to 12.5 Gbps 1.5V, 2.5V, 3.3V -40C to +85C 622, 669 Mbps LVDS TBD 868 TBGA 2.7Gbps 2.5V; 3V I/O tolerant -40C to +85C 155, 166 LVDS 2W 576 TBGA -40C to +85C 155 LVDS, 622 LVDS 3.4W 10Gbps 10.3Gbps 10.3Gbps 2.5Gbpt to 10Gbps 2.5Gbps 2.5Gbps 2.5Gbps 2.5Gbps 2.5Gbps 10Gbps, 5Gbps, 2.5Gbps 10Gbps 10.3Gbps 10.7Gbps 1.5V, 2.5V, 3.3V 1.5V, 2.5V, 3.3V 1.5V, 2.5V, 3.3V 1.5V, 2.5V, 3.3V 1.5V -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C .25 CMOS .25 CMOS .25 CMOS .25 CMOS .14 CMOS 3.4V 3.4V 3.4V 3.4V 3.5V 1.2V Core Supply 1.8V/3.3V 0C to +70C -40C to +85C XAUI NA 1.9-2.2W -342mW 648-Pin PBGA 648-Pin PBGA 648-Pin PBGA 648-Pin PBGA 850-Pin PBGA 1150-Pin UBGA 1150-Pin UBGA 192-pin BGA Die/MLF32 10.7Gbps 10.7Gbps 10-10.7Gbps 10-10.7Gbps 10-10.7Gbps 10-10.7Gbps 10-10.7Gbps 10-10.7Gbps 9.95-11.1Gbps +3.3V +3.3V 1.8/3.3V 3.3V 3.3V 3.3V 1.8/3.3V 3.3V 1.8V/3.3V 0C to +70C 0C to +70C -40C to +85C -40C to +85C 0C to +85C 0C to +85C -40C to +85C -40C to +85C OC to +85C LVDS LVDS LVDS LVDS CML CML LVDS LVDS CML 3.4W 3.4W 0.75W 0.75W 0.4-0.5W 0.4-0.5W 0.75W 1.1W 650-700mW 132-pin BGA 132-pin BGA 132-pin BGA 132-pin BGA 42-ball PBGA 24-pin QFN 132-pin BGA 132-pin BGA 49-ball BGA 9.96-11.1Gbps 1.8V/3.3V OC to +85C CML 325-350mW 24-pin QFN 10.7Gbps 10Gbps 10Gbps 10.7Gbps +3.3V -1.8V Core Supply -1.8V Core Supply -5.2V OC to +85C -40C to +85C -40C to +85C -40C to +85C Serial NA NA CML -130mW 500mW 500mW 0.8W Die Die Die Die/QFN32 107 108 Optical Products OPTICAL developer.intel.com/design/network PRODUCTS OVERVIEW SYSTEM PART NUMBER FUNCTION APPLICATION OC-48 OC-48 OC-48 OC-48 OC-48 OC-48 OC-48 OC-48 OC-12 GD16511 GD16521 GD16522 GD16523 GD16524 GD16543 GD16546B GD16547 IXF6012 General-purpose Limiting Amplifier Any Rate Laser Driver with Retiming (25) Multi-rate 1:1 CDR with Limiting Amplifier and LOS Multi-rate 16:1 MUX Multi-rate CDR with 1:16 DeMUX with Limiting Amplifier CDR with 1:4 DeMUX 1:1 CDR with Limiting Amplifier 1:1 CDR with Limiting Amplifier Multi-speed OC-12, x4 OC-3/1 SONET/SDH ATM/POS Overhead Terminator OC-12 OC-12 GD16591A GD16592A Multi-rate 8:1/4:1/2:1 MUX Multi-rate CDR with 1:8/1:4/1:2 DeMUX STM 16/OC-48, 4x3.125Gbps for 10Gb Ethernet WDM PHY modules SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 SDH STM 16, SONET OC-48 ATM Switches, Layer 3 switches, multi-services switches, gigabit and terabit routers, DWDM equipment, IP transport equipment, LAN/WAN interfaces, DSLAMs, Central Office, Cross Connect, Digital Loop Carrier STM 4/OC-12, STM 1/OC-3, PDH E4 SDH STM 16, SONET OC-48 OC-3 LXT6155 155Mbps SONET/SDH/ATM Transceiver drives Fiber or Coax OC-3 OC-3 OC-3 OC-3 OC-3 GD16361A GD16362A GD16367B GD16368B LXT6151 CMI Encoder with Cable Driver CDR CMI Decoder with Equalizer and LOS 8:1/4:1/2:1 MUX with CMI Encoder CMI Decoder with 1:8/1:4/1:2 DeMUX 28T1/21E1 VT/TU SONET/SDH Mapper Various Various Various GD16333 GD16334 GD16360 4:32 DeMUX 32:4 MUX Dual Transceiver with cable Equalizer, LOS detection and Cable Driver Various GD16590 General-Purpose Multi-frequency Clock Synthesizer Multi-services switches, DSLAMs, Gateways, Central Office Switch, Cross Connects, Digital Loop Carrier, 3G Mobile Switch Centers PDH, SDH and SONET at 140 and 155Mbps PDH, SDH and SONET at 140 and 155Mbps PDH, SDH and SONET at 140 and 155Mbps PDH, SDH and SONET at 140 and 155Mbps PDH, SDH and SONET at 140 and 155Mbps SONET/SDH SONET/SDH Multi-services switches, ADMs, Central Office Switch, Cross Connects, Digital Loop Carrier, 3G Mobile Switch Centers E4/STM 1/OC-3 developer.intel.com/design/network Optical Products OPERATING SPEED POWER SUPPLY OPERATING TEMPERATURES (TCASE) SYSTEM INTERFACE POWER CONSUMPTION PACKAGE 3.5Gbps 2.7GHz 2.7GHz 2.7GHz 2.7GHz 2.7GHz 2.7GHz 2.7GHz 2.7GHz +3.3V +3.3V +3.3V +3.3V +3.3V -5.2V -5.2V -5.2V -5.2V -40C to +85C -40C to +95C -40C to +85C -40C to +85C -40C to +85C 0C to +85C -5C to +95C -5C to +95C -40C to +85C CML CML/LVPECL 0.13W 0.6W+bias+mod 0.6W 0.8W 0.8W 1.1W 1.0W 1.0W 0.8W max 32-pin TQFP 48-pin TQFP 48-pin TQFP 100-pin TQFP 100-pin TQFP 48-pin TQFP 48-pin TQFP 48-pin TQFP 600 PBGA 622MHz 622Mbps, 155Mbps, 55Mbps 622Mbps +3.3V 3.3V; 5V tolerant I/O -25C to +85C -25C to +85C 0.40W 0.45W 48-pin TQFP 48-pin TQFP 3.3V, 5V tolerant I/O 0C to +75C 760mW typical 64 LQFP 155Mbps 155Mbps 155Mbps 155Mbps 155Mbps +3.3V, +5.0V +3.3V, +5.0V +3.3V, +5.0V 3.3V +3.3V, +5.0V -40C to +85C -40C to +85C -40C to +85C 0C to +75C 0.5W 0.5W 0.4W 0.6W 28-pin SSOP 28-pin SSOP 52-pin PQFP 52-pin PQFP 256 PBGA 622MHz 800MHz 55Mbps 5.0V 3.3V, 5V tolerant I/O -5C to +85C 0C to +70C 5C to +85C 155 Serial PECL or CMI, 8-bit parallel LVPECL LVPECL CMOS CMOS T1/E1 NRZ serial Data. Telecom Bus for STS 3/STM 1 Multiplexing TTL TTL LVPECL 1.0W 1.3W 0.50W 100-pin QFP 100-pin QFP 48-pin TQFP 1244MHz +3.3V 0C to +70C TTL 1.0W 100-pin QFP LVPECL LVPECL LVPECL Utopia 1,2,3/POS Utopia 1,2,3 109 110 Optical Products developer.intel.com/design/network developer.intel.com/design/network Silicon Transmission Products Intel Telecom Products (R) INTEL (R) TELECOM PRODUCTS INTRODUCTION I ntel, the world's largest chipmaker, is also a leading manufacturer of computer, networking and communications products. Intel(R) communications systems products offer developers, service providers, resellers and communications system owners what they need to succeed in the new world of converged voice and data communications. This includes a broad family of building blocks, a global network of solutions providers, and comprehensive support and consulting services. Ranging from silicon to server software, Intel(R) building blocks meet the converged communications needs of environments as diverse as enterprise organizations and service providers. These building blocks include voice, fax, conferencing and speech technologies; telephone and IP network interfaces; PBX integration products; carrier-class, board systems-level products, platforms, transmission products; and more. Intel(R) communications building blocks enable new, converged Web services including Internet voice browsing, Web-enabled contact centers and true unified messaging. For more information on these products, visit http://www.intel.com/products/index. SILICON TRANSMISSION PRODUCTS T1/E1/J1 Transmission Solutions 1/E1/J1 technology is the standard in the telecommunications industry, providing the foundation from which DSL, PDH, SDH, and ATM technologies deliver narrowband and broadband applications using the existing infrastructure. For an industry facing a wide variety of WAN access choices in the coming years, T1/E1/J1 will remain the transport channel of choice because of its availability, backward compatibility, and cost-effectiveness. The T1/E1/J1 product group consists of the following families: (1) Analog Front Ends (AFE), (2) Short Haul T1/E1/J1 Line Interface Units (LIU), (3) Long Haul T1/E1/J1 Line Interface Units and (4) T1/E1/J1 framers. T Digital Subscriber Line (DSL) Solutions SL technologies are transport mechanisms for delivering high-bandwidth digital data services over twisted-pair copper wires--the cabling now in place between telephone companies' central offices and subscribers. HDSL2 is the latest advancement in symmetric DSL technology delivering 1.544Mbps (DS-1/T1) data rates up to 12,000 feet on a single twisted pair. D 111 112 Silicon Transmission Products SILICON TRANSMISSION developer.intel.com/design/network PRODUCT LINE SUMMARY The following table summarizes the networking product application features. For full information refer to the product datasheets. APPLICATIONS PART NUMBER FEATURES Integrated T1/E1/J1 Short Haul Line Interface Units E1 Digital Cross Connects SDH E1 Tributary Interfaces Public Switching Trunk Line Interfaces Microwave Transmission Systems Access Systems Add Drop Multiplexers (ADM) LXT380 Octal E1 Short Haul transceiver per ITU G.703 Single rail supply voltage of 3.3V with 5V I/O capability Hitless Protection Switching (HPS) for 1 to 1 protection without relays Low power consumption of <100 mW per channel (typical) 75/120 TX operation without component changes Driver short circuit current limiter (<50 mA RMS) Transmit return loss exceeds ETSI ETS 300166 Selectable optional transmit pulse shape PLL Optional per channel clock recovery Optional HDB3 line encoder/decoder On-chip secondary driver short circuit monitoring circuit Provides protected monitoring points per ITU G.772 Analog/digital and remote loopback testing function LOS per ITU G.775 and ETS 300 233 (selectable) Optional 8-bit parallel or 4 wire serial control interface JTAG Boundary Scan test port per IEEE 1149.4 Small footprint 144-pin LQFP and 160-pin BGA Host mode (parallel or serial) and Hardware mode SDH E1 tributary interfaces Public switching trunk line interfaces Digital Access Cross Connects (DAC) Channel banks Microwave transmission systems LXT381 Single rail 3.3V supply with 5V tolerant inputs Hitless Protection Switching (HPS) for 1 to 1 protection without relays Low power consumption of <100 mW per channel (typical) 75/120 TX operation without component changes Fast output driver tristatability Transmit return loss exceeds ETSI ETS 300166 LOS per ITU G.775 JTAG Boundary Scan test port per IEEE 1149.1 144-pin LQFP and 160-pin BGA Packages Hardware mode only Tools = LXT380, LXT384 Design Assistant SONET/SDH Tributary Interfaces Digital Cross Connects Public/Private Switching Trunk Line Interfaces Microwave Transmission Systems T1-T3, E1-E3 MUX Access Systems LXT384 Single rail 3.3V supply with 5V tolerant inputs Low power consumption of 150 mW per channel (typical) Hitless Protection Switching (HPS) for 1 to 1 protection without relays Superior crystalless jitter attenuator Meets ETSI CTR12/13, ITU G.736, G.742, G.823 and AT&T Pub 62411 specifications Optimized for SONET/SDH applications, meets ITU G.783 mapping jitter specification Constant throughput delay jitter attenuator HDB3, B8ZS, or AMI line encoder/decoder Provides protected monitoring points per ITU G.772 Analog/digital and remote loopback testing functions LOS per ITU G.775, ETS 300 233 and T1.231 8-bit parallel or 4 wire serial control interface Hardware and Software control modes JTAG Boundary Scan test port per IEEE 1149.1 160-pin PBGA and 144-pin LQFP LXT386 4 Channel Version of LXT384 LXT388 2 Channel Version of LXT384 Driver Performance Monitor (DPM) Tx and Rx Jitter Attenuator 100-pin LQFP developer.intel.com/design/network APPLICATIONS PART NUMBER FEATURES LXT400 Silicon Transmission Products Switched 56/DDS Frame Relay DDS and SW/56 DSUs Leased-line DDS Internet Service Provider (ISP) Equipment Frame Relay Access Devices (FRAD) Fully integrated all-rate extended range transceiver Receive equalizer filter can handle up to 40 dB at rates below 56 Kbps, and up to 49 dB at 56 Kbps and 72 Kbps T1/E1/J1 Long Haul Line Interface Units Access Systems LXT360/LXT361 ISDN Primary Rate Interface (ISDN PRI) CSU/NTU interface to T1 Service Wireless Base Station interface T1 LAN/WAN bridge/routers T1 Mux; Channel Banks Digital Loop Carrier--Subscriber Carrier Systems Fully integrated transceivers for Long or Short Haul T1 or E1 interfaces Crystal-less digital jitter attenuation: Select either transmit or receive path, no crystal or high-speed external clock required Meet or exceed specifications in ANSI T1.403 and T1.408; ITU I.431, G.703, G.736, G.775 and G.823; ETSI300-166 and 300-233; and AT&T Pub 62411 Support 75 (E1 coax), 100 (T1 twistedpair) and 120 (E1 twisted-pair) applications Selectable receiver sensitivity--Fully restores the received signal after transmission through a cable with attenuation of either 0 to 26 dB, or 0 to 36 dB @772 kHz and 0 to 43 dB @ 1024 kHz Five Pulse Equalization Settings for T1 Short Haul applications Four Line Build-Outs for T1 Long Haul applications from 0 dB to -22.5 dB Transmit/receive performance monitors with Driver Fail Monitor Open and Loss of Signal outputs Selectable unipolar or bipolar data I/O and B8ZS/HDB3 encoding/decoding Line attenuation indication output in 2.9 dB steps QRSS generator/detector for testing or monitoring Output short circuit current limit protection Local, remote and analog loopback, plus in-band network loopback generation and detection Multiple-register serial interface for microprocessor control Available in 28-pin PLCC, and 44-pin PQFP packages OC3/STM-1 Line Card 155Mbps (OC-3/STM 1/STS-3/3c) high-speed, fully integrated transceiver that supports fiber and coax transmission on the same chip. Implemented using Intel's proven mixed-signal design expertise in 3.3V CMOS technology, it has a small footprint, enabling consumption of 650mW of power (typical) and allowing the integration of multiple OC-3s on the same board. 155 Mbps Transceiver LXT6155 155Mbps Mapper IXF6151 IXF3204 IXF3208 Quad and Octal T1/E1/J1 Framer with Intel(R) On-Chip Performance Report Messaging (Intel(R) PRM). IXF3204/08 has independent channel control and 24 HDLCs (V5.1 and 5.2, GR-303 support for DLCs). Extensive BERTs, and counters for Intel PRM. T1/E1/J1 framer with Intel PRM and API and GUI speeds design and or saves license fees. Single BOM for world markets. Available in 256 PBGA (17x17 mm). Universal voice and data communication solution for high-bandwidth access that maps both T1 and E1 signals over SONET/SDH networks. The flexible, universal design of the IXF6151 enables OEMs to build one solution that meets the requirements of both SONET and SDH networks and provides interoperability between the two infrastructures. The IXF6151 allows T1 signals to be carried in an SDH network, further enhancing flexibility. T1/E1/J1 Framers Voice and ATM Gateways T1/E1/J1 Access IMAPs Integrated Access Devices (IAD) Inverse Multiplexing over ATM (IMA) cards Wireless Base Stations Frame Relay Access Devices 113 114 Silicon Transmission Products developer.intel.com/design/network T1/E1/J1 TRANSMISSION LINE CARD--SHORT HAUL LINE INTERFACE UNITS DEVICE TYPE NETWORK PORTS LINE RATE POWER SUPPLY JITTER ATTENUATOR JA ARCHITECTURE LXT350 LXT351 LXT380 LXT381 LXT384 LXT386 LXT388 SH LIU SH LIU SH LIU SH AFE SH LIU SH LIU SH LIU 1 1 8 8 8 4 2 T1/E1/J1 T1/E1/J1 E1 E1 T1/E1/J1 T1/E1/J1 T1/E1/J1 5V 5V 3.3V 3.3V 3.3V 3.3V 3.3V Tx or Rx Tx or Rx Crystal-less Crystal-less Tx or Rx Tx or Rx Tx and Rx Crystal-less Crystal-less Crystal-less HPS Yes Yes Yes Yes Yes JTAG P INTERFACE PACKAGE Yes Yes Yes Yes Yes Serial Parallel Serial/Parallel Serial/Parallel Serial/Parallel Serial/Parallel Serial/Parallel 28 PLCC/44 QFP 28 PLCC/44 QFP 144 LQFP/160 BGA 144 LQFP/160 BGA 144 LQFP/160 BGA 100 LQFP/160 BGA 100 LQFP T1/E1/J1 TRANSMISSION LINE CARD--LONG HAUL LINE INTERFACE UNITS DEVICE TYPE NETWORK PORTS LINE RATE POWER SUPPLY JITTER ATTENUATOR JA ARCHITECTURE LXT360 LXT361 LH/SH LIU LH/SH LIU 1 1 T1/E1 T1/E1 5V 5V Tx or Rx Tx or Rx Crystal-less Crystal-less T1/E1/J1 TRANSMISSION LINE HPS JTAG P INTERFACE PACKAGE Serial Parallel 28 PLCC/44 QFP 28 PLCC/44 QFP CARD--FRAMERS DEVICE TYPE NETWORK PORTS LINE RATE POWER SUPPLY SPECIAL FEATURES JTAG P INTERFACE PACKAGE IXF3204 IXF3208 framer framer 4 8 T1/E1/J1 T1/E1/J1 3.3V 3.3V PRM nPRM Yes Yes Serial Serial 256 PBGA 256 PBGA OC3/STN-1 LINE CARD SYSTEM PART NUMBER FUNCTION APPLICATION OC-3 LXT6155 155Mbps SONET/SDH/ATM Transceiver drives Fiber or Coax OC-3 LXT6151 28T1/21E1 VT/TU SONET/SDH Mapper Multi-services switches, DSLAMs, Gateways, Central Office Switch, Cross Connects, Digital Loop Carrier, 3G Mobile Switch Centers PDH, SDH and SONET at 140 and 155Mbps developer.intel.com/design/network APPLICATIONS Silicon Transmission Products PART NUMBER FEATURES SK70704/SK70706 HDSL chipset for 784 Kbps data transmission Fully-integrated analog core chip Integrated activation/start-up Optimized for one-pair operation Digital Subscriber Line Products HDSL T1 or E1 (2-pair) and fractional T1 or E1 transport Digital pair-gain Wireless base stations to switch interfaces Campus and private networking High-speed digital modems Multi-Rate DSL HDSL chipset for 1168 Kbps data transmission Fully-integrated analog core chip Integrated activation/start-up Optimized for one-pair operation SK70704/SK70707 or SK70708 SK70720/SK70721 Chipset configurable to 272, 400, 528, and 784 Kbps data transmission Fully integrated analog core chip Supports transparent repeater applications without an external processor or glue-logic Supports processor directed rate selection driven by receive signal level and noise margin Continuously adaptive echo canceller and equalizers perform to changing noise and line characteristics High-speed residential Internet access Extended range fractional T1/E1 transport 4-, 6-, 8- or 12-channel digital pair-gain Wireless base station to switch access WAN access for LAN routers SK70721/SK70725 or SK70725A Fully integrated, 2-chip transceiver Supports 272-1,168 Kbps data transmission Integrated line drivers, filters and analog echo canceller reduce the number of external components Multiple framing modes: Transparent, T1 standard, E1 standard Independent transmit and receive clocks for minimum delay Tolerance for extended signal interruptions Single +5V supply Typical power dissipation less than 500 mW Supports processor directed rate selection driven by receive signal level and noise margin Continuously adaptive echo canceller and equalizers maintain excellent transmission performance with changing noise and line characteristics LXP730 Complements the SK70725/25A/21 Synchronization of external data streams to the DSL Multiplexing and demultiplexing of independent data streams Loopback of data at DSL interface in both directions Creation, insertion, and recovery of the MDSL Overhead (MOH) Supports two input/output data streams simultaneously Supports systems with point-to-point architectures HDSL2 SK7074x Single pair T1 transport systems Multichannel digital pair-gain systems WAN access for LAN routers and switches Integrated access devices (IAD) Wireless access systems SK70740/41/42 SK70740/44 115 116 Silicon Transmission Products DIGITAL developer.intel.com/design/network SUBSCRIBER LINE (DSL) HDSL CHIPSET PRODUCTS LINE CARD MULTI-RATE DSL (MDSL) CHIPSET SK70725 SK70721 LXP730 HDSL2 CHIPSET ACC HDX Framer SK70704 SK70706 SK70704 SK70707 SK70704 SK70708 SK70720 SK70721 SK70725A SK70721 LXP730 SK70740 SK70741 SK70742 SK70744 Description T1 HDSL Chipset E1 HDSL Chipset E1 HDSL Chipset Multi-Rate DSL Enhanced Multi-Rate Enhanced Multi-Rate HDSL2 Chipset DSL Data Pump Chipset DSL Data Pump Chipset DSL Data Pump Chipset (w/Microinterruption) Speed (Kbps) 784 Kbps 1168 Kbps 1168 Kbps 272 Kbps-784 Kbps 272 Kbps-1168 Kbps 272 Kbps-1168 Kbps Reference Clock (MHz) 12.544 MHz 18.688 MHz 18.688 MHz Variable Variable Variable 21.5 MHz Power Supply (Volts) 5V 5V 5V 5V 5V 5V 2.5V, 3.3V, 5V Power Consumption/port (Watts) <1.0W <1.2W <1.2W <1.2W <1.2W <1.2W <1.8W Integrated Line Driver * * * * * * Microprocessor Interface * * * * * * * Ext. Temp -40C to +85C * * * * * * * * * * * * * * 1552 Kbps SUPPORTED STANDARDS ETSI ANSI * ITU * * * * * * * * * * * * * SUPPORTED LINE CODING 2B1Q * TCPAM APPLICATIONS T1 (2 Pair) * * * * * * * T1 (1 Pair) Fractional T1 * E1 (2 Pair) * * Fractional E1 * * * * * * * * * Wireless Base Station to Switch Interface * * * * * * * Campus and Private Networking * * * * * * * High-Speed Digital Modems * * * * * * * WAN Access for LAN Routers and Switches * * * * * * * ACC 28 PLCC 28 PLCC 28 PLCC 44 PLCC 44 PLCC 44 PLCC 64 QFP HDX 44 PLCC 68 PLCC 44 PLCC 28 PLCC 28 PLCC 28 PLCC 64 QFP, 100 QFP 64 LQFP 64 LQFP 64 QFP N Channel Digital Pair-Gain PACKAGES Framer developer.intel.com/design/network Telecom Boards and Platforms Telecom Boards and Platforms INTEL (R) NETSTRUCTURE TM COMPUTE BOARDS AND PLATFORMS developer.intel.com/design/network/products/cbp/index.htm ntel provides modular building blocks for the telecommunications market segment. Based on industry standards, including AdvancedTCA* and CompactPCI*, Intel boards and platforms offer carrier-grade, high-density computing solutions featuring high availability, hot-swappable components and computer telephony capabilities. Components are designed to be NEBS-3/ETSI-compliant and feature IPMI v1.5-based management. Intel(R) NetStructureTM solutions empower development of differentiated, reliable, Intelligent Network (IN) services for the converged IP network. The Intel(R) embedded processor roadmap is built on performance scalability to ensure an extended product life cycle, while standards-based hardware and software building blocks support efficient and cost-effective time-tomarket. I Complete Development Solutions ntel provides technical and sales support for customers designing with Intel(R) NetStructure boards, platforms, and components. This support includes value-add operating system support with device drivers for Redundant System Slot (RSS) applications, system management features and functionality, hot swap, and BIOS innovations. In addition, when faced with complex design issues in a tight timeframe, look to the Intel(R) Communications Alliance members for complete, standards-based development solutions to help you move products to market on YOUR schedule. Discover ready-to-buy boards and platforms based on embedded Intel(R) Architecture that can save you development time and money, allowing you to focus resources on value-add functionality. You'll realize the benefits of price, flexibility and scalability for a variety of embedded, communications, and networking applications. www.intel.com/info/eia I Intel(R) NetStructureTM Boards and Platforms: Designed for AdvancedTCA* Specifications ntel is meeting the diverse design challenges of system developers in the areas of availabilty, density, price, performance and support for service applications with AdvancedTCA-compliant boards and platforms. Based on the PICMG* 3.x specification, this open, board-based, carrier-grade architecture can achieve levels of backplane interconnect bandwidth, peformance and flexibility not previously possible in standards-based products. I ADVANCEDTCA*-COMPLIANT PROCESSOR BOARDS PRODUCT NUMBER PRODUCT NAME PROCESSOR SPEED CHIPSET MEMORY CHASSIS COMPATIBILITY ETHERNET SUPPORT MPCBL0001FO3/FO4 High-Performance Single Board Computer High-Performance Single Board Computer Low Voltage Intel(R) XeonTM processor Low Voltage Intel(R) XeonTM processor 2.0 GHz with Fibre Channel 2.0 GHz without Fibre Channel Intel(R) E7501 chipset Intel(R) E7501 chipset Up to 4 GB DDR 266 ECC SDRAM Up to 4 GB DDR 266 ECC SDRAM MPCHC0001 ATCA 14U Chassis MPCHC0001 ATCA 14U Chassis 2x 1000/100/10 to the backplane 2x 1000/100/10 to the backplane MPCBL0001NO3/NO4 ADVANCEDTCA*-COMPLIANT PLATFORMS PRODUCT NUMBER PRODUCT NAME TOTAL SLOTS POWER FANS HEIGHT DEDICATED CHASSIS MANAGEMENT SLOTS MPCHC0001 14U Shelf 14 200W/slot 6 24.4" (621mm) 2 ADVANCEDTCA*-COMPLIANT PLATFORM COMPONENTS PRODUCT NUMBER PRODUCT NAME COMPATIBILITY SIZE FEATURES MPCMM0001 Chassis Management Module MPCBL0001FO3/FO4 SBC MPCBL0001NO3/NO4 SBC MPCH0001 14U Shelf 177mm x 300mm x 4 HP Monitors chassis resources and environmental conditions; provides instrumentation for health metrics and alerting. Defines interface between platform hardware and system software. 117 118 Telecom Boards and Platforms developer.intel.com/design/network Intel(R) NetStructureTM Boards and Platforms: Designed for CompactPCI* Specifications he PICMG 2.16 specification-compliant family of products provides OEM equipment designers with CompactPCI standards-based, building-block solutions for carrier-grade telecom and Internet applications, with support for switched Ethernet communications across the system backplane. Solutions include hot-swap, high availability and multicomputing capabilities ranging from low-cost processor boards to fully integrated systems for mission-critical applications. Modular, scalable, off-the-shelf platforms and components, and support for major operating systems and real-time software, speed application development. A generous set of onboard embedded features address the system integration and reliability requirements of OEM system builders. These building blocks are designed to interoperate within the entire Intel(R) NetStructureTM family of packet switched backplane products, and with third-party building blocks meeting the PICMG 2.16 specification. T FEATURES BENEFITS Standards-based, open architecture * Interoperable between multiple vendors' systems, giving customers more flexibility * Efficient and economical integration to support faster time-to-market * Custom configurable * Allows customers to focus on core competencies Embedded lifecycle support * Continuous Intel Architecture (IA) roadmap provides future security High density * Reduces overall cost of equipment space and minimizes system volume Low power/thermals * Provides superior thermal characteristics Modular boards are active FRUs to enhance serviceability * Can easily be replaced in the field in under five minutes without disrupting other system components RSS capabilities, provided by redundant power supplies, CPUs, hard drives, etc., support hot-swappable boards * High availability with 99.999 percent uptime IPMI Management enables full management of all IPMI-based SBCs and peripherals in a platform * Allows operators to remotely monitor system health, individual sensor data, FRU data, and exert power-up/down control COMPACTPCI*-COMPLIANT 6U PROCESSOR BOARDS Intel(R) NetStructureTM MPCBL5525 High Performance Processor Board esigned for carrier-grade telecom and Internet applications requiring exceptional processing power from a single slot, this board offers configurable high availability, I/O expansion, 66 MHz CompactPCI bridging features and utilizes a split-transaction, deferred reply protocol. The 400 MHz processor side bus uses Source Synchronous Transfer (SST) of address and data to improve performance by transferring data four times per bus clock (4X data transfer rate, as in AGP 4X). D Intel(R) NetStructureTM ZT 5524 High Performance System Master Processor Board his high-performance processor board is designed for telecom and Internet applications requiring exceptional computing bandwidth, speed, and processing power. A 64-bit PCI bridge and high-speed CompactPCI bus drive up-to-seven peripheral boards at 33 MHz, or four at 66 MHz. The ZT 5524 board supports 2 GB ECC SDRAM, 4 MB onboard flash and onboard video. T Intel(R) NetStructureTM ZT 5504 System Master Processor Board his high-value Intel Pentium III processor-based board is designed for telecommunications and Internet applications requiring completely integrated processing solutions for increased performance and system reliability. It can also operate in a CompactPCI peripheral slot as a standalone single board computer (SBC). The board features a 100 MHz FSB with 64bit/33 MHz CompactPCI bus interface, 512 MB or 1 GB ECC SDRAM, 4 MB onboard Flash and onboard video.. T developer.intel.com/design/network Telecom Boards and Platforms Intel(R) NetStructureTM ZT 5515 Compute Processor Board his Intel(R) Pentium(R) 4 processor-based board inherits the high reliability and robust physical characteristics of CompactPCI without a CompactPCI bus. Use of Intel's Gigabit ethernet technology for both dataplane and control-plane communication provides excellent price performance. The board features 1 GB ECC SDRAM, 16 MB onboard Flash, and onboard video. T COMPACTPCI*-COMPLIANT PRODUCT NUMBER PRODUCT NAME MPCBL5525 High Performance Intel(R) Pentium(R) M Processor Board processor, 1.6 GHz ZT 5524 High Performance System Master Processor Board Compute Processor Board ZT 5515 ZT 5504 System Master Processor Board PROCESSOR Single or Dual Intel(R) Pentium(R) III processors, 933 MHz Intel(R) Pentium(R) 4 Processor - M, 1.2 GHz Intel Pentium III processor-- Low Power, 1.0 GHz (BGA2) PROCESSOR BOARDS COMPACTPCI* BUS INTERFACE MEMORY MANAGEMENT CHASSIS COMPATIBILITY EXTENDED OS SUPPORT REFERENCE DESIGN AVAILABLE Intel(R) E7501 chipset 64-bit, 33 MHz DDR 200 SDRAM with ECC IPMI-based BMC ZT 5091, ZT 5088, ZT 5085, MPCHC5089D No 64-bit, 33/66 MHz 512 MB and 1 GB PC133 SDRAM IPMI-based BMC ZT 5090, ZT 5085, ZT 5088 Windows* XP, Windows* 2000, Windows NT* 4.0, Red Hat* Linux* 8.0, VxWorks*, MontaVista CGL* Red Hat Linux, VxWorks, Windows 2000 ServerWorks* LE chipset Intel(R) 845E chipset No cPCI Bus Interface IPMI-based BMC ZT 5090, ZT 5085, ZT 5088 Red Hat Linux, VxWorks, Windows* 2000 Yes Intel(R) 440GX 64-bit/33 MHz IPMI-based BMC ZT 5090, ZT 5085, ZT 5088 Red Hat Linux, VxWorks, Windows* 2000 No CHIPSET COMPACTPCI*-COMPLIANT 256 MB, 512 MB, 1 GB and 1 GB+ ECC DDR SDRAM 512 MB and 1 GB ECC SDRAM Yes PLATFORMS T hese telecom building blocks from Intel provide OEM equipment designers with standards-based development solutions built on the PICMG 2.16 specification. In addition to high availability features, Intel(R) NetStructureTM platforms are highly modular, scalable, and extremely serviceable. Ethernet signals are routed across the midplane without the use of cables, saving time in set-up, maintenance and repair, and minimizing the thermal challenges of traditional cabling methods. Chassis management modules enable customers to manage multiple SBCs and conduct chassis diagnostics remotely for enhanced system reliability. Hot-swappable system components provide built-in redundancy to simplify replacement and minimize service time. Platforms include AC/DC power and are designed to the NEBS/ETSI and IPMI v1.5 standards. The Intel(R) NetStructureTM ZT 5085 12U Redundant Host Packet Switched Platform his platform features a PICMG 2.16-compatible midplane to support redundant-host architecture for I/O-intensive applications, providing OEM equipment designers with a carrier-grade, standards based, high availability computing platform. It supports five-nines (99.999%) availability with built-in redundancy for active system components including Ethernet switches, chassis management modules, power supplies and fan trays. T Intel(R) NetStructureTM ZT 5088 12U General Purpose Packet Switched Platform his extremely flexible, high-availability platform is configurable for both compute-intensive and I/O-intensive applications, providing OEM equipment designers with carrier-grade, standards-based solutions. This high-capacity CompactPCI platform features innovative power and cooling. The ZT 5088 supports five-nines (99.999%) availability with built-in redundancy for active system components including Ethernet switches, chassis management modules, power supplies and fan trays. T Intel(R) NetStructureTM ZT 5090 4U General Purpose Packet Switched Platform his high-density CompactPCI platform features seven node slots and one integrated layer 2/3 Ethernet switch slot, transversely mounted in a 4U enclosure, making it ideal for carrier-grade telecom and Internet applications. Backplane interconnect speeds are user-definable and scalable from 10 Mbps to 2000 Mbps per node slot, allowing customers to start with a lower-cost, lower-speed set of components and upgrade as needed. T 119 120 Telecom Boards and Platforms developer.intel.com/design/network Intel(R) NetStructure MPCHC5091 4U General Purpose Packet Switched Platform his high density CompactPCI platform features seven node slots and one integrated layer 2/3 Ethernet switch slot, transversely mounted in a 4U enclosure, making it ideal for carrier-grade telecom and Internet applications. T Intel(R) NetStructureTM MPCHC5089DC 12U General Purpose Packet Switched Platform his extremely flexible platform is well-suited for the exacting requirements of modular communications infrastructure applications. It is designed for customers who demand high availability and low maintenance, but at the same time want to maximize processing density while minimizing hardware footprint and cost. It features built-in redundancy for active system components including Ethernet switches, chassis management modules, power supplies and fan trays. T COMPACTPCI*-COMPLIANT PRODUCT NUMBER ZT 5085 ZT 5088 ZT 5090 MPCHC5091 MPCHC5089DC PLATFORMS PRODUCT NAME TOTAL SLOTS SBC SLOTS (POWER/SLOT) 12U Redundant Host Packet Switched Platform 12U General Purpose Packet Switched Platform 4U General Purpose Packet Switched Platform 4U General Purpose Packet Switched Platform 21* 2 (50W) 21* 4 (50W) 12U General Purpose Packet Switched Platform 8** 2 (45W) 8 7 (45W) 21 6U slots Up to 50W per node slot CHASSIS MANAGEMENT BUS SEGMENTATION H.110 SUPPORT TOTAL POWER Two 64-bit, 33 MHz PCI segments (8,8) or (16) Four 64-bit/66 MHz PCI segments (5,4,5,4) or (9,9) Two 32-bit/33 MHz or 64-bit/66 MHz PCI segments (4,3) One 32/64-bit 33 MHz PCI segment 12 slots 250W (N+N, N=4 redundancy) 250W (N+N, N=4 redundancy) 250W (N+N, N=2) 2 modules included Two 250W power supplies, AC or DC (N+1 support with optional third power supply) 350W (N+N, N+4 redundancy) 1 dedicated chassis management slot (Optional CMM) 2 modules included No CompactPCI bus None Peripheral slots on each segment; 5 total One segment, 6 total peripheral slots None 2 modules included 1 module included * Includes two dedicated Ethernet slots ** Includes one dedicated Ethernet slot Includes 18 node slots, two fabric slots and two 3U chassis management slots COMPACTPCI*-COMPLIANT PLATFORM COMPONENTS PRODUCT NUMBER PRODUCT NAME COMPATIBILITY SIZE FEATURES ZT 4807 Rear-Panel Transition Board I/O Mezzanine Expansion Card 250W Hot Swap AC Power Supply ZT 5090 platform, ZT 5504 SBC ZT 5524 SBC, ZT 5090 platform ZT 5090 platform 6U x 4HP Routes all cabling out the back of a system; provides access to a secondary IDE channel, Com1 and 2 serial ports and a floppy disk drive Provides two PMC sites, a dual optical Fibre Channel interface, and CompactPCI bridging at 33 or 66 MHz Chassis Management Module 10/100 Ethernet Switch ZT 5090, ZT 5085 and ZT 5088 platforms ZT 5090 platform, ZT 5504 SBC 3U x 4HP ZT 8102 ZT 8102HA Ethernet Switch ZT 5515 SBC, ZT 5085 and ZT 5088 platforms 6U x 4HP ZT 96080 IDE CompactFlash* Carrier ZT 5504, ZT 5515 and ZT 5524 SBCs N/A ZT 4901 ZT 6303 ZT 7102 ZT 8101 6U x 4HP 3U x 8HP x 160 mm 6U x 4HP Extra high current density allows unit to deliver up to 40 amperes on either the +5 or +3.3 volt outputs at 50C. This highly dense, hot swap, redundant supply is ideally suited for telecommunications, industrial automation and a variety of embedded computer applications Reliable, comprehensive, standards-based management, utilizing the IPMI standard within a unique star topology to support very high-level management applications Easy-to-use browser/Web-based management console; routes and switches at full wire speed utilizing non-blocking architecture with sophisticated multicast protocols to limit unnecessary traffic; provides in-chassis switch fabric to operate in a redundant configuration Available in either a basic Layer 3 version (ZT 8102) or enhanced Layer 3 version (ZT 8102HA) with high-availability software stack and additional routing capabilities; 16 Gigabit Ethernet ports and Layer 3 routing capabilities; hardware-based wire speed L2 switching and L3 routing Drop-in storage alternative to a 2.5" IDE hard disk drive; allows customer to select preferred amount of CompactFlash intel.com/design/network/products/telecom/index.htm Low-Density Combined Media Processing Boards Telecom Boards Intel offers a range of media processing b7 he Intel(R) Dialogic(R) System Release 5.1.1 Feature Pack 1 for Windows* (SR 5.1.1 FP1), available from Intel, supports these new telecom products: Intel(R) Dialogic(R) DMV160LP Combined Media Board, Intel(R) Dialogic(R) CPI/400BRI PCI Fax Board, and the Intel(R) Dialogic(R) DISI16R2 and Intel(R) Dialogic(R) DISI24R2 switching boards. SR 5.1.1 FP1 also provides support for the following board enhancements: Intel(R) Dialogic(R) DI0408LSAR2, Intel(R) Dialogic(R) DI0408LSAR2EU, and Intel(R) Dialogic(R) DISI32R2 switching boards; Intel(R) NetStructureTM DM/IP IP boards; Intel(R) NetStructureTM DM/V combined media boards; and all products and features supported in the previous SR 5.1.1 release. T Combined Media Processing Boards LOW-DENSITY COMBINED MEDIA PRODUCTS DM3 Voice Processing and Analog Interface art of the next-generation of analog PCI boards, the Intel(R) Dialogic(R) DMV160LP Combined Media Board is a 16-port, PCI-based voice processing and analog interface board offering the enhanced capabilities a competitive communications market segment demands. Ideal for advanced computer telephony (CT)-based communications applications requiring multimedia resources, this high-performance, scalable board offers a rich set of advanced features and support for digital signal processing (DSP) technology and signal processing algorithms. P Resource with Analog Interface (JCT Boards) he Intel(R) Dialogic(R) JCT boards are low-density products that provide a robust media feature set including voice processing, speech recognition, and fax capabilities. These boards with Spring Ware technology are available for the PCI form factor and are for developers seeking to rapidly build and globally deploy small to midrange enterprise solutions. The boards can be scaled from one to eight boards in a PC chassis for building systems up to 96 ports and provide a CT Bus connector, allowing for interoperability with other CT Bus/SCbus-compatible boards. Intel Dialogic JCT boards provide the ideal platform for today's unified messaging, voice mail, IVR, and contact center applications. T 121 122 Low-Density Combined Media Processing Boards intel.com/design/network/products/telecom/index.htm Low-Density Analog Product Line Summary The following table summarizes the low-density analog product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm. DM3 VOICE PROCESSING AND ANALOG INTERFACE PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) DMV160LP DMV160LP Unified messaging Voice mail/voice messaging IVR Contact center Dictation RESOURCE WITH ANALOG INTERFACE 16 channels of voice processing 16 analog loop start network interfaces DM3 architecture R4 API for media control Supports simultaneous voice, fax, and Intel(R) Dialogic(R) Continuous Speech Processing Technology Full-size, universal PCI form factor Worldwide approvals in progress DTMF detection Call progress analysis Advanced low bit rate coders, including TrueSpeech* Up to eight boards per chassis Support for Windows NT*, Windows* 2000, and Windows* XP operating systems Four ports onboard DSP-based fax H.100 connector (H.100 TDM Bus support) CT Bus compatible (with SCbus support) Global Call* support Transaction record (JCT BOARDS) PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) D/41JCT-LS D41JCTLS Unified messaging Voice/fax mail Voice portal IVR Contact center and e-Business Dictation Speech-enabled auto-attendant Intel(R) Dialogic(R) VFX/41JCT-LS VFX41JCTLS Unified messaging Voice/fax mail Voice portal IVR Contact center and e-Business Fax-on-demand Intel(R) Dialogic(R) D/120JCT-LS D120JCTLS BOARD Four channels of enhanced voice (voice and speech recognition) Four channels of fax Four channels of analog loop start network interfaces PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API for media control Up to eight boards per system Tone signaling Call progress analysis ensures reliability A-law or -law voice coding at dynamically selectable data rates GSM and G.726 coding algorithms for support of Voice Profile for Internet Mail (VPIM) standard Software development kits for Windows NT*, Windows* 2000, and Linux* operating systems yield faster time-to-market Worldwide approvals for cost-effective expansion to serve global market segments Four channels of enhanced voice (voice and speech recognition) Four channels of analog loop start network interfaces Same features and benefits as D/41JCT-LS plus four channels of enhanced fax capabilities ITU-T T.4 Group III fax (T.4 and T.30) and ETSI NET/30 for send and receive operations V.17 transmission (14.4 Kbps) for sending and receiving faxes Software development kits for Windows NT, Windows 2000, and Linux operating systems yield faster time-to-market 12 channels of enhanced voice (voice, speech recognition) 4 channels of fax 12 channels of analog loop start network interfaces PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) Same features and benefits as D/41JCT-LS intel.com/design/network/products/telecom/index.htm Voice Boards Voice Boards VOICE BOARDS Voice with Analog Interface ow-density voice resource boards offer from four to 16 resources of voice processing and four to 16 channels of loopstart network interfaces on a single board. The four-channel products are half-size boards with no SCbus or CT Bus support and are available for the ISA and PCI form factors. The 16-channel product is an ISA board with SCbus support. All of these boards with Spring Ware technology are for small to midrange enterprise developers who require high-end features such as automatic gain control (AGC), caller ID, global dial pulse detection (GDPD), and international approvals. The boards can be scaled from one to 16 boards in a PC chassis for building systems up to 256 ports (depending on specific product and application limitations) and provide the ideal platform for today's unified messaging, voice mail, interactive voice response (IVR), and contact center applications. L Low-Density Single Media Product Line Summary The following table summarizes the low-density analog product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm VOICE AND ANALOG LOOP-START INTERFACE BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) DIALOG/4 DIALOG4 Unified messaging Voice mail Interactive voice response (IVR) Contact center Intel(R) Dialogic(R) D/4PCI D4PCI Unified messaging Voice mail IVR Contact center Intel(R) Dialogic(R) D/4PCIU D4PCIU Up to four channels of voice Four analog loop start network interfaces Half-size, ISA form factor R4 API for media control Voice coding at dynamically selectable data rates DTMF detection and cut-through AGC support Up to 16 boards per chassis = 64 channels Internationally approved Software development kits for Windows NT*, Windows* 2000, and Linux* operating systems yield faster time-to-market Four channels of voice Four analog loop start network interfaces Half-size, PCI form factor R4 API for media control Supports caller ID for intelligent call handling Supports global dial pulse detection Internationally approved Tone signaling Call progress analysis ensures reliability TAPI/WAVE support Up to 16 boards per chassis = 64 channels Software development kits for Windows NT, Windows 2000, and Linux operating systems yield faster time-to-market Same features and benefits as D/4PCI with universal connectivity (support for 3.3V and 5V signaling environments) with Intel(R) Dialogic(R) System Release V5.1 SP1 or higher G.726 and GSM coders 123 124 Voice Boards VOICE AND intel.com/design/network/products/telecom/index.htm ANALOG LOOP-START INTERFACE BOARDS (continued) PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) D/4PCIUF D4PCIUF Same features and benefits as D/4PCIU AND up to four channels of basic, DSP-based fax Intel(R) Dialogic(R) D/160SC-LS D160SCLSREV3 Up to 16 channels of voice 16 loop-start telephone line interfaces ISA form factor R4 API for media control Voice coding at dynamically selectable data rates DTMF detection and cut-through AGC support Caller ID capability Up to 16 boards per chassis = 256 channels (may be limited by application) Software development kits for Windows NT*, Windows* 2000, Linux, and MS-DOS operating systems yield faster time-to-market Unified messaging Voice mail IVR Contact center VOICE WITH DIGITAL PRI INTERFACE DM/V Voice Series ntel(R) NetStructureTM DM/V voice boards are media platforms for developers looking to rapidly build and globally deploy high-density media server solutions for the enterprise and public networks. The boards are available with four digital PRI interfaces in addition to voice processing in either PCI or CompactPCI* form factors. I High-Density Single Media Product Line Summary The following table summarizes the high-density single media product features. For more information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm DM/V VOICE BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) DMV4804T1PCIU DMV4804T1CPCI DMV6004E1PCIU DMV6004E1CPCI DMV9604T1PCIU DMV9604T1CPCI DMV12004E1PCIU DMV12004E1CPCI NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM DM/V480-4T1-PCI DM/V480-4T1-CPCI DM/V600-4E1-PCI DM/V600-4E1-CPCI DM/V960-4T1-PCI DM/V960-4T1-CPCI DM/V1200-4E1-PCI DM/V1200-4E1-CPCI Messaging and enhanced services Contact center and e-Business PC-PBX Switching and call completion Prepaid/debit card Gateway switch 48-120 channels of basic voice Four digital network interfaces PCI or CompactPCI* form factor H.100 and H.110 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits for Windows NT*, Windows* 2000, and Linux* operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call* interface provides worldwide application portability and shortens development time intel.com/design/network/products/telecom/index.htm HIGH-DENSITY COMBINED MEDIA Voice Boards PRODUCTS Resource Only (DM/V-B and DM/V-A Multifunction Resource Series) hen combined with a board containing digital network interfaces--such as the Intel(R) NetStructureTM DM/N or DM/T Digital Telephony Interface Board--Intel(R) NetStructureTM DM/V-B and DM/V-A combined media boards provide a powerful media platform for developers looking to rapidly build and globally deploy high-density media server solutions for the enterprise and public network market segments. The DM/V-A boards provide a rich solution with a robust media feature set and between 120 and 240 channels of media--including voice processing, speech recognition and conferencing, or fax capabilities--in either universal PCI or CompactPCI form factors. The DM/V-B boards build upon the features of the DM/VA boards by adding universal media loads that offer simultaneous voice processing, speech recognition, fax, and conferencing; improved media densities (120 to 576 channels); and the ability to select three different types of conferencing media. Currently available in a universal PCI form factor, DM/V-B boards are supported by Intel(R) Dialogic(R) System Release Software 6.0 PCI for Windows* (SR 6.0 PCI for Windows). W Resource Only (JCT Shared Resource Series) hen combined with a board containing digital network interfaces--such as the Intel NetStructure DM/N or DM/T Digital Telephony Interface Board--the Intel(R) Dialogic(R) JCT combined media boards enable media platforms for developers looking to rapidly build high-density media server solutions for enterprise and service provider networks. The JCT boards support up to 32 channels of media including voice processing, fax capabilities, or--with SR6.0 PCI for Windows-- speech recognition, in a universal PCI form factor. W Resource with Onboard PRI Interface(s) (DM/V-B and DM/V-A Combined Media Boards) ntel NetStructure DM/V-B and DM/V-A combined media boards are powerful media platforms for developers looking to rapidly build and globally deploy high-density media server solutions for the enterprise and public networks. The DM/V-A boards are available with either two or four digital PRI interfaces in either universal PCI or CompactPCI form factors and offer a rich solution with a robust media feature set that includes voice processing, speech recognition, and with the dual span boards, conferencing capabilities. The DM/V-B boards build upon the features of the DM/V-A boards by adding softwareselectable T-1/E-1 interfaces; a universal media load that offers simultaneous voice processing, speech recognition, fax, and conferencing; improved media densities; the ability to mix select protocols; and the ability to select three different types of conferencing media. Currently available in a universal PCI form factor, DM/V-B boards are supported by SR6.0 PCI for Windows. I Resource with Onboard PRI Interface(s) (JCT Single- and Dual-Span Boards) ntel(R) Dialogic(R) JCT single- and dual-span combined media boards enable media platforms for developers looking to rapidly build high-density media server solutions for enterprise and service provider networks. Available with either one or two digital PRI interface(s) in a universal PCI form factor, the boards provide a media-rich environment that supports multiple media such as voice processing and in select instances, speech recognition or fax. I 125 126 Voice Boards intel.com/design/network/products/telecom/index.htm High-Density Combined Media Product Line Summary The following table summarizes the high-density combined media product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm. DM/V-B COMBINED MEDIA BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DMV3600BP DMV3600BP (Currently supported only on SR6.0 PCI for Windows) Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business PC-PBX Audio conferencing server Web conferecing Fax server Fax broadcast DM/V-A COMBINED MEDIA 360 channels of basic voice, or 160-576 channels of conferencing, or 120+ channels of simultaneous voice, speech recognition, conferencing, and fax (universal media load) Three different levels and densities of conferencing to choose from Select media loads with enhanced EC (up to 64ms echo tail length) PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits for Windows* 2000, Windows* 2003, Windows* XP and Linux* operating systems yield faster time-to-market R4 API for media control BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DM/V2400A-PCI Intel(R) NetStructureTM DM/V2400A-CPCI DMV2400APCIU DMV2400ACPCI Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business PC-PBX Audio conferencing server Web conferencing Fax server Fax broadcast 240 channels of basic voice, or 120-240 channels of conferencing, or 120 channels of simultaneous voice and speech recognition, and 60-120 channels of conferencing, or 120 channels of voice and speech recognition and 12-15 channels of fax PCI or CompactPCI* form factor H.100 and H.110 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits that can include Windows NT*, Windows* 2000, Windows* 2003, Windows* XP and Linux* (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control intel.com/design/network/products/telecom/index.htm JCT COMBINED MEDIA BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) D/160JCT Intel(R) Dialogic(R) D/320JCT D160JCT D320JCT Messaging and enhanced services Wireless and fixed-line short message service (SMS) Voice Portal Contact center and e-Business PC-PBX Fax server Fax broadcast DM/V-B COMBINED MEDIA 16 and 32 channels of voice, speech recognition or fax (speech recognition currently only on SR6.0 PCI for Windows) PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis Up to six boards per chassis Software development kits that can include Windows NT*, Windows* 2000, Windows* 2003, Windows* XP and Linux* (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DMV600BTEP DMV600BTEP (Currently supported only on SR6.0 PCI for Windows) Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business l PC-PBX Audio conferencing server Web conferencing Switching and call completion Prepaid/debit card Gateway switch Fax server Fax broadcast Intel(R) NetStructureTM DMV1200BTEP DMV1200BTEP (Currently supported only on SR6.0 PCI for Windows) Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business PC-PBX Audio conferencing server Web conferencing Switching and call completion Prepaid/debit card Gateway swtich Fax server Fax broadcast Voice Boards 60+ channels of simultaneous voice, speech recognition, conferencing, and fax (universal media load) Two software-selectable digital network interfaces Select media loads with enhanced EC (up to 64ms echo tail length) PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits for Windows* 2000, Windows* 2003, Windows* XP and Linux* operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call* interface provides worldwide application portability and shortens development time Ability to mix select protocols for each span 120+ channels of simultaneous voice, speech recognition, conferencing, and fax (universal media load) Four software-selectable digital network interfaces Select media loads with enhanced EC (up to 64ms echo tail length) PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits for Windows 2000, Windows 2003, Windows XP and Linux operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call interface provides worldwide application portability and shortens development time Ability to mix select protocols for each span 127 128 Voice Boards DM/V-A intel.com/design/network/products/telecom/index.htm COMBINED MEDIA BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) DMV480A2T1PCI DMV480A2T1CPCI DMV600A2E1PCI DMV600A2E1CPCI * 48 and 60 channels of simultaneous voice and speech recognition, and 60 channels of conferencing * Two digital network interfaces * PCI or CompactPCI* form factor H.100 and H.110 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits that can include Windows NT*, Windows* 2000, Windows* 2003, Windows* XP and Linux* (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call interface provides worldwide application portability and shortens development time NetStructureTM NetStructureTM NetStructureTM NetStructureTM DM/V480A-2T1-PCI DM/V480A-2T1-CPCI DM/V600A-2E1-PCI DM/V600A-2E1-CPCI Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business PC-PBX Audio conferencing server Web conferencing Switching and call completion Prepaid/debit card Gateway switch Intel(R) NetStructureTM DM/V960A-4T1-PCI Intel(R) NetStructureTM DM/V960A-4T1-CPCI Intel(R) NetStructureTM DM/V1200A-4E1-PCI Intel(R) NetStructureTM DM/V1200A-4E1-CPCI Messaging and enhanced services Wireless and fixed-line short message service (SMS) Color ring-back Voice portal Contact center and e-Business PC-PBX Switching and call completion Prepaid/debit card Gateway switch DMV960A4T1PCI DMV960A4T1CPCI DMV1200A4E1PCI DMV1200A4E1CPCI 96 and 120 channels of voice and speech recognition Four digital network interfaces PCI or CompactPCI form factor H.100 and H.110 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis 1200+ ports per chassis Software development kits that can include Windows NT, Windows 2000, Windows 2003, Windows XP and Linux (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call interface provides worldwide application portability and shortens development time intel.com/design/network/products/telecom/index.htm JCT SINGLE- AND DUAL-SPAN BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) D240JCTT1R2U D480JCT1T1U D300JCTE175R2U D300JCTE1120R2U D600JCT1E175U D600JCT1E1120U Dialogic(R) Dialogic(R) Dialogic(R) Dialogic(R) Dialogic(R) Dialogic(R) D/240JCT-T1 D/480JCT-1T1 D/300JCT-E1-75 D/300JCT-E1-120 D/600JCT-1E1-75 D/600JCT-1E1-120 Messaging and enhanced services Wireless and fixed-line short message service (SMS) Voice portal Contact center and e-Business PC-PBX Switching and call completion Prepaid/debit card Gateway switch Fax server Fax broadcast Intel(R) Dialogic(R) D/480JCT-2T1 Intel(R) Dialogic(R) D/600JCT-2E1-75 Intel(R) Dialogic(R)D/600JCT-2E1-120 Messaging and enhanced services Wireless and fixed-line short message service (SMS) Contact center and e-Business PC-PBX Switching and call completion Prepaid/debit card Gateway switch Voice Boards D480JCT2T1R2U D600JCT2E175R2U D600JC2E1120R2U 24 and 30 channels of voice, speech recognition or fax One digital network interface PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis Up to 16 boards per chassis Software development kits that can include Windows NT*, Windows* 2000, Windows* 2003, Windows* XP and Linux* (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call* interface provides worldwide application portability and shortens development time 48 and 60 channels of voice, speech recognition or fax Two digital network interfaces PCI form factor H.100 compliant Universal connectivity (support for 3.3V and 5V signaling environments) Tone signaling Call progress analysis Up to 10 boards per chassis Software development kits that can include Windows NT, Windows 2000, Windows 2003, Windows XP and Linux (depending on the specific system release) operating systems yield faster time-to-market R4 API for media control Unified call control access through Global Call interface provides worldwide application portability and shortens development time 129 130 Fax Boards intel.com/design/network/products/telecom/index.htm Fax Boards LOW-DENSITY FAX PRODUCTS Intel(R) Dialogic(R) CPi/200-B2 and CPi/400-B2 Fax Boards he Intel(R) Dialogic(R) CPi/200-B2 and CPi/400-B2 fax boards are ideal solutions for computer-based fax installations requiring PCI compatibility and V.34 fast transmission mode. Designed to optimize network-based fax servers and customized applications, they have two (CPi/200-B2 PCI board) or four (CPi/400-B2 PCI board) telephone line interface circuits approved for direct connection to analog loop-start lines. An onboard switch can be set to a unique board number for each board within a multi-board configuration. Install multiple CPi/200-B2 or CPi/400-B2 PCI boards in a single PC chassis to create cost-effective systems scalable up to 16 ports. T Intel(R) Dialogic(R) CPi/400BRI PCI Fax Board he Intel(R) Dialogic(R) CPi/400BRI PCI fax board is a single-slot, medium-density fax board that supports four ports of feature-rich fax capabilities plus two integrated, onboard, digital BRI network interfaces. The CPi/400BRI PCI four-port ISDN BRI fax board was developed to meet the fax needs of countries widely using ISDN BRI as the preferred communications network such as European countries and Australia, Japan, New Zealand, and South Africa. This flexible, scalable solution incorporates computer-based fax into the ISDN environment, with a universal PCI form factor for maximum compatibility with the latest servers. T Low-Density Fax Product Line Summary The following table summarizes the low-density fax product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm#fb. CPI/200-B2 AND CPI/400-B2 FAX BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) CPi/200-B2 CPI200B2 Unified messaging Fax server Fax-on-demand Fax broadcast Intel(R) Dialogic(R) CPi/400-B2 Unified messaging Fax server Fax-on-demand Fax broadcast CPI400B2 Two fax resources PCI form factor Onboard, on-the-fly MH, MR, MMR compressions API support for the GDK/GRT Simultaneous V.34 transmission (33.6 Kbps), both transmit and receive Up to four boards per chassis = up to eight channels Four fax resources PCI form factor Onboard, on-the-fly MH, MR, and MMR compression API support for the GDK/GRT Simultaneous V.34 transmission (33.6 Kbps), both transmit and receive Up to four boards per chassis = up to 16 channels intel.com/design/network/products/telecom/index.htm INTEL (R) DIALOGIC (R) CPI/400BRI PCI FAX BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) CPi/400BRI PCI CPI400BRIPCI Unified messaging Fax server Fax-on-demand Fax broadcast HIGH-DENSITY FAX Fax Boards Four fax resources PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) ISDN BRI network interface API support for the GDK/GRT V.17 transmission (14.4 Kbps) Onboard, on-the-fly MH, MR, and MMR compression TBR3 compliant ITU T.30, T.4, T.6 compliance PRODUCTS Fax Resource Only (DM/F Fax Boards) hese fax resource products offer 24 or 30 resources of full-featured fax on a single board. This includes the Intel(R) NetStructureTM DM/F240-PCIU, Intel(R) NetStructureTM DM/F240-CPCI, Intel(R) NetStructureTM DM/F300-PCIU, and Intel(R) NetStructureTM DM/F300-CPCI fax boards. The products are available for the PCI or CompactPCI* form factor. These boards give fax-intensive applications robust processing power and messaging flexibility. Users can make the most of a span of either 24 or 30 ports of feature-rich fax capabilities on a single board, deploying fewer boards per chassis and, ultimately, fewer and smaller chassis overall. This lowers the cost of ownership and enables more end users to deploy CT applications. Up to eight DM/F fax boards (up to 196 or 240 ports of fax) can be combined in a single chassis. As an alternative, developers can choose the Intel(R) Dialogic(R) CPi/2400-PCIU and Intel(R) Dialogic(R) CPi/3000-PCIU fax resource only boards, which are programmed through the legacy Gamma Link API only. T Fax Resource with Onboard PRI Interface (High-Density Fax Boards) he high-density, single-slot hardware Intel(R) NetStructureTM DM/F240-1T1-PCIU and Intel(R) NetStructureTM DM/F300-1E1-PCIU fax boards are high-capacity fax boards that are useful for large-scale deployments of fax-enabled applications. The boards let users make the best use of a span of either 24 or 30 ports of feature-rich fax capabilities, plus an integrated network interface, on a single board. The increased resource density on the DM/F240-1T1-PCIU and DM/F300-1E1-PCIU fax boards lowers per-port costs, since customers can deploy fewer boards per chassis, and, ultimately, fewer and smaller chassis overall. Up to eight DM/F fax boards (up to 196 or 240 ports of fax) can be combined in a single chassis. As an alternative, developers can choose the Intel(R) Dialogic(R) CPi/2400-1T1-PCIU and Intel(R) Dialogic(R) CPi/3000-1E1-PCIU fax boards, which are programmed through the legacy Gamma Link API only. T Fax and Voice Resource with Onboard PRI Interface (DM3 VFN Boards) he Intel(R) NetStructureTM DMVF240-1T1-PCIU and Intel(R) NetStructureTM DMVF300-1E1-PCIU fax boards provide a highly integrated platform with 24 or 30 universal ports of voice, fax, and digital network interface. Offering a universal set of voice, fax, tone resources, and network interface in a 1:1:1:1 ratio, available on any call at any time, these boards are ideal for developers looking to provide cost-effective, highly scalable, high-density communications applications that require multimedia in a single PCI slot. Create high-density, multimedia solutions that support from 24 to 192 T-1 or 30 to 240 E-1 channels per chassis. T 131 132 Fax Boards intel.com/design/network/products/telecom/index.htm High-Density Fax Product Line Summary The following table summarizes the high-density fax product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/mediaprocessing.htm#fb FAX RESOURCE ONLY BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DM/F240-PCIU DMF240PCIU Unified messaging Fax servers Fax-on-demand Fax broadcast Intel(R) NetStructureTM DM/F300-PCIU DMF300PCIU Unified messaging Fax servers Fax-on-demand Fax broadcast Intel(R) NetStructureTM DM/F240-CPCI DMF240CPCI Unified messaging Fax servers Fax-on-demand Fax broadcast Intel(R) NetStructureTM DM/F300-CPCI Unified messaging Fax servers Fax-on-demand Fax broadcast DMF300CPCI 24 fax resources PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 196 channels Windows* and Linux* operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 30 fax resources PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 240 channels Windows and Linux operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 24 fax resources CompactPCI* form factor R4 API Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 196 channels Windows and Linux operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 30 fax resources CompactPCI form factor R4 API Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 240 channels Windows and Linux operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance intel.com/design/network/products/telecom/index.htm FAX RESOURCE WITH ONBOARD PRI INTERFACE BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DM/F240-1T1-PCIU DMF2401T1PCIU Unified messaging Fax servers Fax-on-demand Fax broadcast Intel(R) NetStructureTM DM/F300-1E1-PCIU DMF3001E1PCIU Unified messaging Fax servers Fax-on-demand Fax broadcast FAX AND VOICE RESOURCE WITH 24 fax resources Onboard T-1 network interface (ISDN, T-1 CAS) PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API for fax, Global Call* for call control Fully exportable fax resources Onboard on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 196 channels Windows* and Linux* operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 30 fax resources Onboard E-1 network interface (ISDN, R2 MF) PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API for fax, Global Call for call control Fully exportable fax resources Onboard on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 240 channels Windows and Linux operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance ONBOARD PRI INTERFACE PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DMVF240-1T1-PCIU DMVF2401T1PCIU Unified messaging Fax servers Voice response servers Fax-on-demand Fax broadcast Intel(R) NetStructureTM DMVF300-1E1-PCIU Unified messaging Fax servers Voice response servers Fax-on-demand Fax broadcast DMVF3001E1PCIU Fax Boards BOARDS 24 fax resources and 24 voice resources Play voice, record voice prompts Onboard T-1 network interface (ISDN, T-1 CAS) PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API for fax and voice, Global Call* for call control Fully exportable fax and voice resources Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 196 channels Windows and Linux operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 30 fax resources and 30 voice resources Play voice, record voice prompts Onboard E-1 network interface (ISDN, R2 MF) PCI form factor, universal connectivity (support for 3.3V and 5V signaling environments) R4 API for fax and voice, Global Call for call control Fully exportable fax and voice resources Onboard, on-the-fly MH, MR, and MMR compression Error Correction Mechanism (ECM) V.17 transmission (14.4 Kbps) Up to eight boards per chassis = 240 channels Windows* and Linux* operating system support All features available on all channels, regardless of load ITU T.30, T.4 compliance 133 134 Digital Telephony Interface Boards intel.com/design/network/products/telecom/index.htm Digital Telephony Interface Boards INTEL(R) NETSTRUCTURE INTERFACE BOARD TM DMN160TEC DIGITAL TELEPHONY T he Intel(R) NetStructureTM DMN160TEC Digital Telephony Interface Board is a high-density, digital telephone interface on a CompactPCI* form factor. Supporting up to 480 ports and 16 spans, the board is programmable as T-1, E-1, or a mix of both (in units of four) and fully compatible with other CompactPCI media processing and IP resource boards available from Intel. The DMN160TEC board offers developers a single, flexible product that supports worldwide network interfaces. Programmable on the fly, it effectively lets solutions scale as system requirements grow. The DMN160TEC board is H.110 compliant and supports the switching of voice paths over CT Bus time slots to use resources on other boards. High density and multiple features mean fewer boards and a smaller chassis, which helps developers keep up with the growing demands placed on next-generation platforms. Digital Telephony Interface Product Line Summary The following table summarizes the digital telephony interface product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#dtib. DMN AND DMT DIGITAL TELEPHONY INTERFACE BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DMN160TEC DMN160TEC Switching/call completion Network contact center Prepaid/debit card Gateway switch 16 software-selectable T-1 or E-1 digital network interfaces (groups of four) CompactPCI* form factor H.110 compliant Onboard law conversion Ability to simultaneously run multiple ISDN protocols Software development kits for Windows* 2000 and Linux* operating systems yield faster time-to-market Unified call control access through Global Call* interface provides worldwide application portability and shortens development time intel.com/design/network/products/telecom/index.htm IP Boards IP Boards DM/IP BOARDS I ntel(R) NetStructureTM DM/IP boards offer a standards-based software and hardware development platform for building IP-based communications servers for the next-generation enterprise and service provider Ethernet network. Intel(R) DM/IP boards feature 24 to 60 ports per slot of both public network and Internet connectivity, plus onboard voice and fax processing. The DM/IP boards readily scale to support 480-port call completion applications such as access gateways and IP-PBXs and media server applications such as unified messaging, interactive voice response (IVR), customer relationship management (CRM). DM/IP boards offers many optimized, low-bandwidth vocoder algorithms for transmitting high-quality audio over an IP network including ITU-T G.711, G.723.1, G.729a, ITU GSM, and real-time fax over IP (ITU T.38). These algorithms use a variety of coding techniques, bit rates, and frame sizes to compress audio for managing data network bandwidth. The wide algorithm support of the boards provides the ability to deploy IP-based applications globally, tailoring them to specific network bandwidth and voice quality requirements. DM/IP boards offer improved quality of service (QoS) performance over IP networks. Threshold alarms alert an application when network QoS parameters (jitter, latency, and packet loss) deteriorate below user-administered levels. These alarms help to improve traffic engineering, allowing more efficient use of IP networks. They also enable dynamic decisionmaking, which lets IP calls be rerouted onto the PSTN in the event of network congestion. IP packets carrying real-time voice and fax can be routed with higher priority by setting IP Precedence bits. The boards feature a flexible approach to IP call control, letting a developer choose from any of the call control stacks supported by H.323, MGCP, and SIP, or providing the ability to develop or port another by offering call control management that resides on the server host instead of being embedded on the board. Support for standard signaling protocols enables the DM/IP boards to interoperate with a wide range of popular IP phones including Microsoft NetMeeting* and the PingTel* Phone. DM/IP boards also work seamlessly with terminals that are compliant with H.323, MGCP, H.248, and SIP. With the introduction of a SIP-based phone client on Windows XP desktop software, DM/IP boards enables fast, cost-effective deployment of IP phone service in the enterprise. In addition to these leading IP voice networking features, DM/IP boards also provide a true universal port solution with a robust media feature set including voice processing and fax capabilities. These boards also support an extensive suite of PSTN digital network interfaces and globally approved signaling protocols all in a single PCI or CompactPCI* slot. All of these features combined make Intel NetStructure DM/IP boards among the most powerful media processing platforms bridging legacy networks and communications solutions to the next-generation Internet. DM/IP IP Board Product Line Summary The following table summarizes the DM/IP board product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#ipb DM/IP IP BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM DM/IP241-1T1-PCI-100BT DMIP241T1P100 IP-based unified messaging Interactive voice response (IVR) services Web CRM centers and help desks Debit/calling card applications Voice portals Fax over Internet Protocol (FoIP) Access gateway IP PBX Up to 24 voice resources Full-size, PCI form factor Vocoders: G.723.1, G.729a, G.711, GSM T.38 real-time FoIP Host-based call control R4 and Global Call* control APIs QoS: IP Precedence/Type of Service (TOS) 135 136 IP Boards intel.com/design/network/products/telecom/index.htm Intel(R) NetStructureTM DM/IP301-1E1-PCI-100BT DMIP4812T1P100 DMIP4812T1C100 IP-based unified messaging IVR services Web CRM centers and help desks Debit/calling card applications Voice portals FoIP Internet gateways for toll bypass (Voice and Fax over IP) Access gateway IP PBX DMIP6012E1P100 DMIP6012E1C100 IP-based unified messaging IVR services Web CRM centers and help desks Debit/calling card applications Voice portals FoIP Internet gateways for toll bypass (Voice and Fax over IP) Access gateway IP PBX Intel(R) NetStructureTM DM/IP601-CPCI-100BT IP-based unified messaging Web CRM centers and help desks Debit/calling card applications Voice portals FoIP Access gateway IP PBX Intel(R) NetStructureTM DM/IP601-2E1-PCI-100BT Intel(R) NetStructureTM DM/IP601-2E1-CPCI-100BT IP-based unified messaging IVR services Web CRM centers and help desks Debit/calling card applications Voice portals Fax over Internet Protocol (FoIP) Access gateway IP PBX Intel(R) NetStructureTM DM/IP481-2T1-PCI-100BT Intel(R) NetStructureTM DM/IP481-2T1-CPCI-100BT DMIP301E1P100 DMIP601C100BT Up to 30 voice resources Full-size, PCI form factor Vocoders: G.723.1, G.729a, G.711, GSMs T.38 real-time FOIP Host-based call control R4 and Global Call control APIs QoS: IP Precedence/TOS Up to 48 voice resources Full-size, PCI and CompactPCI* form factors Vocoders: G.723.1, G.729a, G.711, GSM T.38 real-time FOIP IVR services R4 and Global Call control APIs Host-based call control QoS: IP Precedence/TOS CompactPCI high availability Up to 60 voice resources Full-size, PCI and CompactPCI form factors Vocoders: G.723.1, G.729a, G.711, GSM T.38 real-time FOIP Host-based call control R4 API QoS: IP Precedence/TOS Up to 60 voice resources Full-size, CompactPCI form factor Vocoders: G.723.1, G.729a, G.711, GSM T.38 real-time FOIP Host-based call control R4 API G.711 multicast QoS: IP Precedence/TOS CompactPCI high availability Conferencing intel.com/design/network/products/telecom/index.htm IPT IP Boards PRODUCTS Intel(R) NetStructureTM IPT Boards ntel(R) NetStructureTM IPT boards are among the industry's highest-density standards-based VoIP interface boards for developing scalable, carrier-grade IP telephony gateways and media servers. There are four IPT models, differentiated by the number and type of IP channels per PC slot. IPT1200C--120 channels of any coder IPT4800C--480 channels of any coder IPT6720C--672 channels of any coder IPT2400C--240 channels of any coder IPT boards are optimized to deliver the most popular IP-based solutions for the public network and the enterprise. They easily scale to support thousands of channels in media gateway, media server, IP-PBX, and IP contact center solutions. Offering the choice of between 120 and 672 channels per slot, IPT boards interoperate in a broad suite of PSTN signaling and media processing boards for developing open systems solutions. Intel NetStructure IPT boards offer many optimized, low-bandwidth vocoder algorithms for transmitting audio over an IP network, including ITU-T G.711, G.723.1+a, and G.729a+b. These algorithms use a variety of coding techniques, bit rates, and frame sizes to compress audio for managing data network bandwidth. Frame sizes as small as 5 ms are supported for some of the highest voice-quality IP telephony available on the market today. The wide algorithm support lets developers deploy IP-based applications for the diverse requirements of the modular network. Besides powerful transcoding capabilities, other standard features include high-performance echo cancellation up to 64 ms, RFC-2833 support for tone detection and pass-through capabilities, and T.38 fax relay support for developing highperformance solutions. In addition, the boards support high quality of service through quality monitoring (QM) features including IP precedence for setting traffic priority, voice activity detection (VAD) and silence suppression for reducing the number of packets in a link and lower bandwidth utilization, packet loss recovery, and jitter buffer management compensating for latency (resulting in high voice quality). Intel NetStructure IPT boards let developers deploy competitive, feature rich, carrier-grade IP telephony solutions. I IPT Boards Product Line Summary The following table summarizes the IPT board product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#ipb IPT BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) IPT1200C IPT2400C IPT4800C IPT6720C NetStructureTM NetStructureTM NetStructureTM NetStructureTM IPT1200C IPT2400C IPT4800C IPT6720C IP media gateway and media servers IP-enabled contact centers Enhanced service platforms IP-enabled voice portals Choice of 120-, 240-, 480-, and 672-port low-bit-rate vocoder port configurations Broad choice of vocoders (G.711, G.723.1+a, G.729a+b) SIP, H.323, MGCP, MEGACO signaling H.110-compliant 8 MHz CT Bus Dual 1000BaseT, 100BaseTX network interface Windows NT*/Windows* 2000 operating system compatible Global Call* API for call control CompactPCI* form factor 137 138 Call Logging Boards intel.com/design/network/products/telecom/index.htm Call Logging Boards I ntel offers a wide breadth of products in the call logging and contact center market segments. The Intel(R) Dialogic(R) linetapping boards are for digital- and analog-based enterprises in the call recording industry. By providing a high-impedance line tap of stations and/or trunks, these PCI- and ISA-compatible boards provide transparent access to specific call information. They provide for voice recording in environments where logging is required by law or is desired to reduce liability and resolve disputes. Developers can create medium to large quality assurance (QA) and call logging systems with a powerful set of features and functionalities including low-bit-rate coders. Quality and stability help to make Intel a vendor of choice for call logging and QA hardware. Analog HiZ Line-Tapping Board he Intel(R) Dialogic(R) DMV160LPHiZ Line-Tapping Board contains a rich set of advanced features, including digital signal processing (DSP) technology and signal processing algorithms for building the core of any computer telephony (CT) call logging system. The DMV160LPHiZ board provides 16 channels of call processing interfaces in a single PC slot. A unique dual-processor architecture comprised of DSPs and a general-purpose microprocessor handles all telephony signaling and performs all DTMF (touchtone) and audio/voice signal-processing tasks. The DMV160LPHiZ board connects to 16 analog telephone channels, detects touchtones, and digitizes, compresses, and records voice signals. Use the DMV160LPHiZ board to develop sophisticated, multifunction CT systems incorporating capabilities such as voice processing, speech recognition, and text-to-speech (TTS). T Digital Station Set HiZ Line-Tapping Board ntel(R) Dialogic(R) DSLT/162CT-U-HiZ Line-Tapping Board is a 16-port high-impedance line-tap PCI board for digital station sets that records up to 128 simultaneous conversations via separate DSPs and provides voice and digital telephone display data. Highly scalable, this board can access and record all digital agent lines regardless of the contact center's size. This digital set line-tapping (DSLT) board provides quality assurance for the call recording industry by providing constant line access to proprietary PBX digital agent telephones and capturing information essential to the effective management of large contact centers. The DSLT board is an internal, PC-based solution that provides a physical tap of an agent's telephone, capturing the required information and providing access to the necessary call information. While the link is transparent to the parties involved in the connection, it permits extraction of signaling/protocol information from the network interface. The DSLT board is strictly a passive device monitoring existing connections between the PBX and the digital telephone set. The board uses a transparent, electrical coupling to the link that connects the telephone to the PBX. No PBX conference bridge resources are required. Compatible with Avaya* (formerly Lucent*), NEC*, Nortel*, and Siemens* PBXs, the DSLT board provides 16 ports, with a maximum of 128 ports per chassis. The DSLT Software Development Kit (SDK), available for Windows NT* and Windows* 2000 operating systems, includes advanced diagnostic and field troubleshooting capabilities. I Digital T-1 HiZ Line-Tapping Board he Intel(R) Dialogic(R) DM/V480-2T1-PCI-HiZ Line-Tapping Board provides a powerful set of features that developers can use to create quality assurance and call logging systems. Offered in a single-slot PCI format, this digital HiZ board provides 48 ports of call recording capability for two T-1 (1.544 Mb/s) digital interfaces. Powerful DSPs provide a rich set of voice processing features, including various rates of voice compression, recording, telephony tone signaling, and reliable DTMF detection. The digital T-1 HiZ board is based on the DM3 architecture, which provides an environment that accelerates application development and provides a path for future growth. Software development kits (SDK) are available for Windows NT and Windows 2000 operating systems. This digital T-1 HiZ board is accompanied by software that monitors trunk signaling to determine the moment a call is setup, connected, and disconnected. This information is then used to determine when to start recording the call, as well as collect Automatic Number Identification (ANI) and Dialed Number Identification Service (DNIS). ISDN signaling is supported. T intel.com/design/network/products/telecom/index.htm Call Logging Boards Voice processing features, downloaded to the onboard DSPs at power up, let the digital T-1 HiZ board record voice messages from the calling and called parties. Messages can be stored using G.711-law or A-law PCM, at a rate of 64 Kb/s, as is used by the public telephone network. To reduce storage requirements, voice-coding algorithms can compress recordings to 24 Kb/s or 32 Kb/s, using adaptive differential pulse code modulation (ADPCM). Other standards-based lowbit-rate coders like G.276 for VPIM-compliant applications and GSM for unified messaging applications are also available. Digital E-1 HiZ Line-Tapping Board he Intel(R) Dialogic(R) DM/V600-2E1-PCI-HiZ Line-Tapping Board provides a powerful set of features that developers can use to create quality assurance and call logging systems. Offered in a single-slot PCI format, this digital HiZ board provides 60 ports of call recording capability for two E-1 (2.048 Mb/s) digital interfaces. Powerful DSPs provide a rich set of voice processing features, including various rates of voice compression, recording, telephony tone signaling, and reliable DTMF detection. The digital E-1 HiZ board is based on the DM3 architecture, which provides an environment that accelerates application development and provides a path for future growth. SDKs are available for Windows NT and Windows 2000 operating systems. Voice processing features, downloaded to the onboard DSPs at power up, let the digital E-1 HiZ board record voice messages from the calling and called parties. Messages can be stored using G.711-law or A-law PCM, at a rate of 64 Kb/s, as is used by the public telephone network. To reduce storage requirements, voice-coding algorithms can compress recordings to 24 Kb/s or 32 Kb/s, using ADPCM. Other standards-based low-bit-rate coders like G.276 for VPIM-compliant applications and GSM for unified messaging applications are also available. T Call Logging Product Line Summary The following table summarizes the call logging product application features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#ltb CALL LOGGING BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) DSLT/162CT-U-HIZ Digital Station Set HiZ line tap DSLT162CTUHIZ DSLT key features Contact center/quality assurance Call logging/recording environments Intel(R) Dialogic(R) DM/V480-2E1-PCI-HIZ Intel(R) Dialogic(R) DM/V600-2E1-PCI-HIZ Digital T-1 HiZ line tap board Digital E-1 HiZ line tap board DMV4802T1PCIHIZ DMV6002E1PCIHIZ T-1/E-1 key features Contact center/quality assurance Call logging/recording environments Intel(R) Dialogic(R) DMV160LPHIZ Analog HiZ line tap board Contact center/quality assurance Call logging/recording environments DMV160LPHIZ Taps proprietary digital PBX station sets 16 ports PCI form factor 128 ports per chassis Records up to 128 simultaneous conversations H.100 compatible Windows NT*/Windows* 2000 operating system compatible Drivers available in the Intel(R) Dialogic(R) System Release Software 48 T-1 or 60 E1 ports per board Universal PCI form factor Built on DM3 media stream architecture Signal monitoring Dual interface--two digital network interfaces for each digital trunk tapped Audio interface detects call progress and DTMF tones for host application H.100 compatible Global tone detection R4 API Call logging API with GUI 16 ports of voice processing and 16 ports analog high-impedance interface PCI form factor Downloadable signal and call processing firmware Onboard DSP H.100 compatible 139 140 PBX Integration Boards intel.com/design/network/products/telecom/index.htm PBX Integration Boards P rivate branch exchange (PBX) integration boards let developers of voice mail, unified messaging, auto-attendant, and interactive voice response (IVR) solutions build sophisticated enterprise applications that maximize the advanced digital features of the PBX such as calling party identification; called party identification; message waiting lamp control; and fast, reliable transfers. PBX integration boards are considered premium integration products and used when an application requires more sophisticated call control and call information than normally available through an analog connection. These advanced features are sometimes collectively referred to as "digital features." The term "integration" describes any method for connecting an application to a PBX or key telephone system (KTS), but is most often used when referring specifically to a product that offers advanced digital features. These digital features are available without expensive upgrades to existing PBX equipment, since PBX integration boards use the same interface to the PBX as a digital telephone--a concept known as "emulation." PBX integration boards emulate, or behave like, a digital telephone, thereby letting the boards provide advanced call control capabilities to an application through an application programming interface (API). Intel(R) Dialogic(R) DSE PBX Integration Boards ntel(R) Dialogic(R) DSE PBX Integration boards offer advanced digital connectivity for popular PBXs in 8-, 12-, and 16-port configurations for unified and Internet-ready call, voice, and fax processing applications in medium to large enterprises and contact centers. The boards provide up to 16 ports of digital access to the PBX by emulating the powerful digital display telephones used by attendants and ACD/contact center supervisors and agents. The DSE board provides application developers with a high-level interface to digital PBXs through digital telephone emulation, as well as the ability for media processing using H.100-compatible voice processing hardware. The Intel Dialogic DSE PBX integration board runs on Windows NT* and Windows* 2000 operating systems and offers support for Microsoft Telephony API* (TAPI), the industry standard for computer-telephony integration (CTI) interfaces. TAPI support means the Intel Dialogic DSE PBX integration board works readily with a large number of existing applications, significantly reducing development time. I Intel(R) Dialogic(R) D/82JCT-U-PCI-UNIV PBX Integration Board he Intel(R) Dialogic(R) D/82JCT-U-PCI-UNIV PBX integration board offers advanced digital connectivity to many popular PBXs for unified and Internet-ready call, voice, and fax processing applications in small to medium-sized enterprises. Featuring programmable soft-ports capable of supporting voice, fax, call handling, and host-based speech technologies, this board reduces the cost of ownership for systems requiring multimedia functionality. By choosing the D/82JCT-U-PCI-UNIV board for enterprise applications, developers eliminate the complexities associated with analog or T-1 integration, as well as costly investments in proprietary CTI links. T Intel(R) Dialogic(R) D/42JCT-U PBX Integration Board he Intel(R) Dialogic(R) D/42JCT-U PBX integration board offers advanced digital connectivity to many popular PBXs for unified and Internet-ready call, voice, and fax processing applications in small to medium-sized enterprises. Featuring programmable soft-ports capable of supporting voice, fax, call handling, and host-based speech technologies, this board reduces the cost of ownership for systems requiring multimedia functionality. By choosing the D/42JCT-U board for enterprise applications, developers eliminate the complexities associated with analog or T-1 integration, as well as costly investments in proprietary CTI links. T intel.com/design/network/products/telecom/index.htm PBX Integration Boards PBX Integration Board Product Line Summary The following table summarizes the PBX integration board product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#pbxib. DSE PBX INTEGRATION BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) DL300908 Intel(R) Dialogic(R) DL300912 Intel(R) Dialogic(R) DL300916 DL300908 DL300912 DL300916 Voice mail/voice messaging Unified messaging Auto attendant Interactive voice response (IVR) Interactive media response (IMR) Intel(R) Dialogic(R) DL300708 Intel(R) Dialogic(R) DL300712 Intel(R) Dialogic(R) DL300716 DL300708 DL300712 DL300716 Voice mail/voice messaging Unified messaging Auto attendant Interactive voice response (IVR) Interactive media response (IMR) Intel(R) Dialogic(R) DL300208 Intel(R) Dialogic(R) DL300212 Intel(R) Dialogic(R) DL300216 PBX INTEGRATION DL300208 DL300212 DL300216 Voice mail/voice messaging Unified messaging Auto attendant Interactive voice response (IVR) Interactive media response (IMR) JCT 8, 12, and 16 digital interface ports Supports Avaya* (Definity), NEC* (NEAX*), Nortel* (Meridian-1), and Siemens* (Hicom*) PBXs PCI long form factor Field expandable (DL300908 and DL300912) 8, 12, and 16 digital interface ports Supports Mitel* (SX200, SX2000) PBXs PCI long form factor H.100 compatible Field expandable (DL300708 and DL300712) 8, 12, and 16 digital interface ports Supports Siemens (ROLM) PBXs PCI long form factor H.100 compatible Field expandable (DL300208 and DL300212) BOARDS PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Dialogic(R) D/82JCT-U D82JCTUPCIUNIV Voice mail/voice messaging Unified messaging Auto attendant Interactive voice response (IVR) Interactive media response (IMR) Intel(R) Dialogic(R) D/42JCT-U D42JCTU Eight digital interfaces plus eight media processing channels Four digital interfaces plus four media processing channels Supports Avaya* (Definity), Mitel* (SX200, SX2000, SX50), Nortel* (Meridian-1 and NorStar), Siemens* (Hicom* 150/300, ROLM* CBX 9005, 9006, 9751), and NEC (NEAX* 2400/2000, Electra Professional*, Electra Elite*) PBXs Supports G.711, OKI linear, GSM, and G.726 voice coders Two channels of fax per card, sharable across CT Bus DTMF tone generation and detection Support for continuous speech processing Pitch corrected speed control on playback Universal PCI support--with System Release 5.1 or higher H.100 compatible Four digital interfaces plus four media processing channels Supports Avaya (Definity), Mitel (SX200, SX2000, SX50), Nortel (Meridian-1 and NorStar), Siemens (Hicom 150/300, ROLM CBX 9005, 9006, 9751), and NEC (NEAX* 2400/2000, Electra Professional, Electra Elite) PBXs Supports G.711, OKI linear, GSM, and G.726 voice coders One channel of fax per card, sharable across CT Bus DTMF tone generation and detection Support for Intel(R) Dialogic(R) Continuous Speech Processing Technology Pitch-corrected speed control on playback PCI long form factor H.100 compatible 141 142 SS7 Boards intel.com/design/network/products/telecom/index.htm SS7 Boards S ignaling System 7 (SS7) is the signaling system that forms the backbone of the international telecommunications network. Intel offers a complete family of SS7 products ranging from boards to gateways, scalable from 64 to more than 16,000 ports. These products are used for call control/call routing, wireless/wireline messaging, and intelligent network applications. For more information on SS7 gateway products, refer to the Signaling Gateway section. Intel(R) NetStructureTM SS7 Boards hese E-1/T-1/V.35 SS7 intelligent interface boards, along with SS7 protocol software, give direct, high-performance access to the worldwide telecommunications network. SS7 boards from Intel provide the platform for call control, wireless applications, and Intelligent Networking (IN) in CompactPCI*, PCI, and ISA form factors. The onboard processor runs a full range of protocols, from MTP up to ISUP, SCCP, TCAP, GSM-MAP, IS41-MAP, INAP, and CAP, independent from the host. The boards also include H.100/H.110/SCbus interfaces for interworking with other standards-based boards in a system. The boards include runtime support for many local variants, as well as the major ANSI and ITU versions. The latest addition to the product family, the Intel(R) NetStructureTM SS7HDP Board, is a high-density, high-performance board that lets developers create cost-effective, high-density, carrier-grade communications solutions requiring advanced SS7 performance. T SS7 Board Summary The following table summarizes the SS7 board application features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/signaling.htm#ss7b Applications that can be enabled using Intel(R) SS7 Products include: Color ring-back tone (CRBT) Location-based services (LBS) Short Message Services (SMS) Prepaid calling Voice portals Interactive voice response (IVR) and voice mail systems Intelligent networking/IP long-haul SS7 BOARDS PRODUCTS AND APPLICATIONS FORM FACTOR ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM SS7HDP PCI SS7HDPD4TE Intel(R) NetStructureTM SPC12S Intel(R) NetStructureTM SPC14 PCI PCI SS7SPC12S SS7SPC14 Intel NetStructure SCPM8 Intel(R) NetStructureTM SCPR8RJ CompactPCI* CompactPCI SS7CPM8 SS7CPR8RJ Intel(R) Intel(R) Intel(R) Intel(R) NetStructureTM NetStructureTM NetStructureTM NetStructureTM PCCS62E PCCS62EU PCCS62T PCCS62TH ISA ISA ISA ISA SS7PCCS62E SS7PCCS62EU SS7PCCS62T SS7PCCS62TH Intel(R) Intel(R) Intel(R) Intel(R) NetStructureTM NetStructureTM NetStructureTM NetStructureTM PCCS62EUH PCCS62EBH PCCS62SEB PCCS62ST ISA ISA ISA ISA SS7PCCS62EUH SS7PCCS62EBH SS7PCCS62SEB SS7PCCS62ST (R) TM 16 or 64 links per board Onboard process runs protocols independent of host Common API between boards Two, four, or eight E-1/T-1 digital network interfaces per board Onboard processor runs protocols independent of host Support for MTP, ISUP, TUP, BT-IUP, SCCP, TCAP, GSM-MAP, IS41-MAP, INAP, CAP, and many local variants including ANSI and ITU/ETSI Three or four SS7 links per board Common API between boards intel.com/design/network/products/telecom/index.htm Station Interface Boards Station Interface Boards T hese integrated, multifunction telephony boards are designed specifically for small to medium-sized enterprise applications including server-based private branch exchanges (PBXs) and contact centers. Equipped with a rich mix of telephone station interfaces and media processing resources, the DI boards help developers and resellers create more efficient and complete system solutions that offer increased functionality at a lower cost to end users. These are some of the overall benefits of this product line. Optimized for converged communications switching applications Lower system cost through higher densities Wide range of resources integrated onboard Easy to add system features and enhancements Built-in service reliability and availability STATION INTERFACE PRODUCTS Intel(R) Dialogic(R) DI0408LSAR2 Switching Board he Intel(R) Dialogic(R) DI0408LSAR2 board is a single-slot, richly-configured trunk and station interface board designed for small to mid-sized server-based PBX or contact centers starting at four loop-start analog interfaces and eight station interfaces on a single board. Reliable and cost-effective, the DI0408LSAR2 board offers an optimized combination of interfaces and resources for enterprise switching applications. Build a 4-trunk, 8-station converged communications system in a single PCI slot with one DI0408LSAR2 board. Add up to eight integrated boards from Intel or other Intel(R) boards to support virtually any small to medium-sized enterprise switching application. T Intel(R) Dialogic(R) DISI16R2, DISI24R2, and DISI32R2 Switching Boards he Intel(R) Dialogic(R) DISI16R2, DISI24R2, and DISI32R2 switching boards connect analog telephone devices directly to converged communications platforms to create affordable, small to mid-sized, server-based PBX telemarketing systems and contact centers. Highly reliable and cost-effective, these integrated station interface products offer an optimized mix of analog station interfaces and resources for building highly scalable systems. The DISI16R2, DISI24R2, and DISI32R2 boards are full-size, single-slot PCI boards based on DM3 architecture that provide 16, 24, or 32 station interfaces, respectively. They include conferencing, voice play/record, tone detection and generation, and caller ID capabilities. The DM3 architecture provides access to independent, high-performance, firmwarebased network protocol and media processing resources that can be operated and integrated on compatible hardware platforms. T 143 144 Station Interface Boards intel.com/design/network/products/telecom/index.htm Station Interface Product Line Summary The following table summarizes the station interface board application features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/switching.htm#cssivb STATION INTERFACE BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) DI0408LSAR2 DI0408LSAR2EU DI0408LSAR2I DI0408LSAR2EUI Dialogic(R) Dialogic(R) Dialogic(R) Dialogic(R) DI0408LSAR2 DI0408LSAR2EU DI0408LSAR2I DI0408LSAR2EUI Server-based PBX Customer contact center Intel(R) Dialogic(R)DISI16R2 Intel(R) Dialogic(R) DISI24R2 Intel(R) Dialogic(R) DISI32R2 Automatic call distributor (ACD) Server-based PBX Customer service Teleconferencing/conferencing bridge Inbound and outbound telemarketing DISI16R2 DISI24R2 DISI32R2 Four loop-start trunk connections with call control Eight analog station interfaces with call control Full-size, PCI form factor Fail-over of four trunks to four stations Eight voice play and record Full complement of tone detection and generation Nine-party conference resources Two fax resources per board Four CSP resources On-hook and off-hook caller ID generation (FSK) Message Waiting Indicator Control (FSK) Music on-hold audio port Support for Windows NT* , Windows* 2000, and Windows* XP operating systems Uses Global Call*, MSI, and R4 APIs CT Bus H.100 compliant Phone support, 2500 sets; caller ID phones; international complex impedance phones International approvals DI0408LSAR2, DI0408LSAR2EU require external telephony power supply (MSISCGLOBALPWR) DI0408LSAR2I, DI0408LSAR2EUI require internal telephony power supply (DIINTPPS) Full-size, PCI form factor 16, 24, or 32 analog station interfaces with call control, caller ID generation Full complement of dedicated voice play and record Full complement of dedicated tone detections and generation 16 parties of conferencing with echo cancellation On-hook and off-hook caller ID generation (FSK) Message Waiting Indicator Control (FSK) Music on-hold audio port Support for Windows NT, Windows 2000, and Windows XP operating systems Uses Global Call, MSI, and R4 APIs CT Bus H.100 compliant International approvals Requires external power supply (MSISCGLOBALPWR) intel.com/design/network/products/telecom/index.htm HIGH-DENSITY STATION INTERFACE Station Interface Boards PRODUCTS T he high-density station interface (HDSI) solution from Intel provides an open-architecture platform for converged communication systems that integrates large-scale switching and voice processing resources under a single hardware and software architecture. The HDSI solution is offered in both PCI and CompactPCI* configurations, which provide some of the industry's highest densities plus analog station connectivity in a single computer chassis slot. High-Density Station Interface he HDSI solution offered by Intel is an assembly consisting of either an Intel(R) NetStructureTM HDSI-PCIU board with H.100-compliant CT Bus connectivity or an HDSI-CompactPCI* board assembly (including a CompactPCI baseboard and a rear I/O module) with H.110-compliant CT Bus connectivity, connected to an external station interface box (SIB). The CT Bus provides switching between trunks and stations and also allows expansion for additional network and resource boards from Intel. Using just one computer chassis slot, this solution can support up to 120 stations with tone detection and generation, and frequency shift key (FSK) caller ID transmission. T High-Density Station Interface Product Line Summary The following table summarizes the HDSI product features. For additional information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/boards/switching.htm#sib. HIGH-DENSITY STATION INTERFACE BOARDS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) Intel(R) HDSI480PCIU HDSI480PCIJP HDSI720PCIU HDSI720PCIJP HDSI960PCIU HDSI960PCIJP HDSI1200PCIU HDSI1200PCIJP HDSI480CPCI HDSI720CPCI HDSI960CPCI HDSI1200CPCI NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM NetStructureTM HDSI/480PCIU HDSI/480PCIJP HDSI/720PCIU HDSI/720PCIJP HDSI/960PCIU HDSI/960PCIJP HDSI/1200PCIU HDSI/1200PCIJP HDSI/480CPCI HDSI/720CPCI HDSI/960CPCI HDSI/1200CPCI Inbound and outbound telemarketing PBX/key systems Operator services, such as billing automation, directory assistance, and intercept treatments Automatic call distribution (ACD) Local information services Connectivity to 48, 72, 96, or 120 analog stations Programmable ringing with automatic ring trip requires no additional external circuitry Station status event detection allows collection of call traffic statistics via the application for cost-effective management of call setup and call termination Programmable gain provides station volume control from the application and enables matching line levels from different devices Supports programmable notification tones for metering time expired Full complement of dedicated voice resources (not on HDSI 1200) Provides unobtrusive monitoring of connections Provides battery feed to phone (termination) sets C language application program interfaces (APIs) for Windows NT*, Windows* 2000, and Windows* XP operating systems Onboard DTMF detection recognizes tones generated by phones connected to the stations Onboard tone generation provides for generating PBX-like tones to the stations such as dial tone, ring back, and busy Programmable cadence allows selection of ring cadence options Onboard FSK generation allows the transmission of Caller ID to Class, type caller ID phones, as well as the ability to turn on and off message waiting indicators 145 146 Media Gateways intel.com/design/network/products/telecom/index.htm Telecom Platforms I ntel offers open, modular product platforms that can provide a solid foundation on which communications OEMs can build large- or small-scale converged communications systems for both the enterprise and the public network market segments. Gateway products from Intel include the Intel(R) NetStructureTM PBX-IP Media Gateway, offering enterprises a phased migration to IP networking, and the Elite Gateway* which lets enterprises eliminate toll calls between offices by adding voice to existing wide area networks (WANs). In general, use the PBX-IP Media Gateway to connect to digital PBXs or drive digital phones and the Elite Gateway to connect to analog trunk interfaces or drive analog phones. Media Gateways INTEL (R) NETSTRUCTURE TM PBX-IP MEDIA GATEWAY T he Intel NetStructure PBX-IP Media Gateway allows a well-planned, phased migration to an IP network, making it a smart solution for enterprises not yet ready (or willing) to completely abandon their investment in legacy PBX equipment. This building block from Intel provides a simple, cost-effective transition to voice and data convergence for enterprises with PBXs. Connected externally, it offers an IP solution that works with current legacy equipment. It supports H.323 or SIP-based applications running on network servers, remote terminals, or other devices. Connected between a PBX or a digital handset and a LAN, WAN, or managed packet network, the Intel NetStructure PBX-IP Media Gateway converts proprietary digital PBX messages into a format suitable for transmission over standard IP networks. With a PBX, the gateway is used for emulation; with a digital handset, the gateway is used for phone driving. Each gateway unit contains eight digital PBX (emulating) or digital station interfaces (phone driving) and a 10/100 BaseT Ethernet connection for connecting to a LAN. PBX-IP Media Gateway Product Line Summary The following table summarizes the PBX-IP media gateway product features. For more information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/gsp/index.htm#gateways PBX-IP MEDIA GATEWAY PRODUCT LINE PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM PIMG80PBXDNI Intel(R) NetStructureTM PIMG80PBXMTLDNI Intel(R) NetStructureTM PIMG80LS PIMG80PBXDNI PIMG80PBXMTLDNI PMIG80LS Emulating IP-enabled PBX network Voice over Internet Protocol (VoIP) extension to branch offices Centralized VoIP applications servers including IP-based voice mail and unified messaging Teleworking/telecommunting Intel(R) NetStructureTM PIMG80PBXDSI PIMG80PBXDSI Eight ports per unit. Stack multiple units for higher densities. PBX compatibility: Mitel* (PIMG80PBXMTLDNI), Avaya*, NEC*, Nortel*, Siemens* (PMIG80PBXDNI) various analog (PIMG80LS) 10/100 BaseT Ethernet LAN port Supports H.323 or Session Initiated Protocol (SIP) VoIP standards Administration through Web, telenet, or local serial port Appliance packaging (approximately 10 in x 10 in x 2 in [25 cm x 25 cm x 5 cm]) Phone driving Eight ports per unit. Stack multiple units for higher system densities. Handset compatibility: Avaya, NEC, Siemens (PIMG80PBXDSI) 10/100 BaseT Ethernet LAN port Support H.323 or SIP VoIP standards Administration through Web, telenet, or local serial port Appliance packaging (approximately 10 in x 10 in x 2 in [25 cm x 25 cm x 5 cm]) intel.com/design/network/products/telecom/index.htm ELITE Media Gateways GATEWAY* T he Elite Gateway is a cost-effective and reliable way to place voice and fax calls over an IP network. Service providers and enterprises can both use the gateway to cut costs. The gateway is equipped with remote management capabilities. Modules are provided for analog trunks or analog telephones. Elite Gateway* Product Line Summary The following table summarizes the Elite Gateway product features. For more information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/gsp/index.htm#gateways ELITE GATEWAY* PRODUCT LINE PRODUCT AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Elite Gateway* E8044PORTFXO E804S4PORTFXS E8088PORTFXO E808S8PORTFXS E808X4PTFXOFXS FXS4PORTBLADE FXO4PORTBLADE ELITE4PORTENM E4PORT2FXS2FXO EDESKTOP4FXO EDESKTOP4FXS EDESKTOP2FXS xSP service provision for enterprises E-Business data center Enterprise voice intranet Web-enabled contact center Click-to-connect business Web-enabled auto-attendant IP-based PBX 1U rack-mountable with four ports per module (up to two modules per chassis) or desktop appliance with two or four ports 10/100 BaseT Ethernet LAN port Analog loop-start trunk or analog telephone station interfaces (FXS, FXO and E&M) Supports H.323 VoIP standard Supports T.38 fax transmission Built-in dial plan Web browser, Telnet, or RS-232 for administration 147 148 SS7 Server Products intel.com/design/network/products/telecom/index.htm Signaling Gateways S ignaling System 7 (SS7) is the signaling system that forms the backbone of the international telecommunications network. Intel offers a complete family of SS7 products ranging from boards to servers that scale from 64 to more than 16,000 ports. These products are used for call control, signaling, wireless messaging, and intelligent network applications. For more information on SS7 server products, refer to the SS7 Boards section. SS7 SERVER PRODUCTS Intel(R) NetStructureTM SIU131 and SIU231 SS7 Signaling Gateways he Intel(R) NetStructureTM SIU131 and SIU231 signaling gateways are cost-effective and highly reliable SS7 servers that provide straightforward ways to build intelligent network entities such as Service Control Points (SCP) and Intelligent Peripherals (IP) using standard computing platforms. T Intel(R) NetStructureTM SIU520 Signaling Gateway he Intel(R) NetStructureTM SIU520 Signaling Gateway provides SS7 connectivity for multi-chassis call control, wireless, or Intelligent Networking (IN) applications. A message-based protocol application programming interface (API), compatible with other SIU systems and with Intel(R) NetStructureTM SS7 boards, is presented over IP to application hosts. SIU520 unit can run a wide range of SS7 protocols and local variants, enabling worldwide deployment in a variety of applications. T Intel(R) NetStructureTM Digital Signaling Converter his multifunction, multi-protocol intelligent "black-box" device accepts SS7 or ISDN signal inputs and outputs another SS7 or ISDN signal. With a simple configuration and capable of fitting into your existing network, Intel NetStructure Digital Signaling Converters let ISDN or previously incompatible SS7 equipment to be interconnected with public network systems. T Intel(R) NetStructureTM SG430 SS7 Signaling Gateway nterfacing to both SS7 and IP networks, the Intel(R) NetStructureTM SG430 SS7 Signaling Gateway lets SS7 information be carried to and from IP-based applications such as softswitches and mobile network elements. This signaling gateway bridges IP networks, ISDN equipment, and SS7 equipment. It is a key enabler for building IP-based telecommunications service nodes such as VAD platforms or wireless location/messaging services. It is also used to SS7-enable voice systems, giving access to the power and flexibility of the core telecommunications network. I intel.com/design/network/products/telecom/index.htm SS7 Server Products SS7 Server Product Line Summary The following table summarizes the SS7 server product features. For more information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/gsp/index.htm#sg. SS7 SERVERS PRODUCTS AND APPLICATIONS ITEM MARKET NAME KEY FEATURES Intel(R) NetStructureTM SIU131 Intel(R) NetStructureTM SIU231 SIU131 SIU231 Mobile short messaging/location-based services IP telephony gateways Intelligent Networking SCP IP-based application service provider Multi-chassis service platforms VAD/IVR and voice mail systems Intel(R) NetStructureTM SIU520 SIU520 Mobile short messaging/location-based services Distributed switch SS7 long haul and offload GPRS integration 2G-to-3G inter-working IP telephony gateways Intelligent Networking SCP IP-based application service provider DSC110 DSC210 DSC310 Rapid deployment of ISDN equipment Interconnection of incompatible SS7 equipment Advanced network inter-working Intel(R) NetStructureTM SG430 Signaling Gateway SS7 service node creation, including Wireless nodes--short message service center (SMSC), home register (HLR), roaming gateways Wireless short messaging service (SMS) platforms/gateways Intelligent Networking (IN) service control point (SCP), Internet protocol (IP) Voice-activated dialing (VAD), voice portal, interactive voice response (IVR), or voice mail systems Intel(R) NetStructureTM DSC110 Intel(R) NetStructureTM DSC210 Intel(R) NetStructureTM DSC310 SG430 Support for MTP, ISUP, TUP, BT-IUP, SCCP, TCAP, GSM-MAP, IS41-MAP, INAP, CAP, and many local variants including ANSI and ITU/ETSI Multiple interface formats--E-1/T-1/V.35 Fault-resilient load-sharing configurations Common API with boards for applications scalability API over TCP/IP interface to up to 32 applications hosts Traffic rates up to 800 TCAP transactions per second, or 450 ISUP or TUP calls per second Up to 12 SS7 signaling links in 12 link sets Intel(R) 2U carrier-grade NEBS-3/ETSI carrier-grade server location Dual fault-resilient configurations Support for ANSI/ITU ISP, TUP, BT-IUP and other local variants Conversion to/from all supported SS7 variants Conversion to/from ISDN and DPNSS Parameter manipulation to bridge incompatible networks SS7-to-IP inter-working using open standards Simultaneous support for multiple SS7 variants-- ANSI/ITU/ETSI/JAPAN Multiple interface formats--E-1/T-1/V.35 Supports connectivity to SIGTRAN-compatible application servers Enables multi-host distributed application server systems STP-like operation Fault-resilient configurations High-performance in 2U form factor SS7/SIGTRAN application server software also available 149 150 Voice Portal Reference intel.com/design/network/products/telecom/index.htm Assemblies intel.com/design/network/products/telecom/index.htm Voice Portal Reference Assemblies Media Servers MEDIA SERVER PRODUCTS Voice Portal Reference Assemblies from Intel oice portal reference assemblies from Intel are packaged, integrated hardware platforms application developers can use to build hardened solutions for rapidly-expanding e-Business and speech-enabled voice portal solutions. It brings together the power of Intel(R) server technology with Intel(R) Dialogic(R) telephony interface boards in an integrated server platform. The voice portal reference assemblies are comprised of three major, logical components: the Intel(R) Server Board SE7500WV2, a hardened chassis that provides a rugged platform for building flexible voice portal solutions; Intel(R) Dialogic(R) telephony interface boards; and Intel(R) Dialogic(R) Continuous Speech Processing Technology, software that consists of a new library of functions, device drivers, firmware, and technical documentation to help create leading-edge ASR applications. V Voice Portal Reference Assemblies Product Line Summary The following table summarizes the voice portal reference assemblies' product features. For more information, refer to the product datasheet index at http://www.intel.com/design/network/products/telecom/gsp/index.htm#servers VOICE PORTAL REFERENCE PRODUCTS AND APPLICATIONS ASSEMBLIES KEY FEATURES Voice Portal Reference System Voice-assisted dialing Speech-enabled interactive voice response (IVR) Unified messaging Voice mail server Customer care/contact center Operator services (collect, calling card, and prepaid) And many others Supports one or two Intel(R) XeonTM processors--up to 2.2 GHz (512 KB L2 cache) Two integrated Intel(R) PRO/100+ Server Adapters (Intel(R) 82550PM controller) Triple Peer PCI buses Integrated ATI* Rage* XL video controller with 8 MB of video memory Supports up to 6 GB of PC133 ECC SDRAM memory with six DIMM sockets Validated on Windows* and Linux* operating systems Voice Portal Reference intel.com/design/network/products/telecom/index.htm Assemblies intel.com/design/network/products/telecom/index.htm Voice Portal Reference Assemblies The following are the descriptions and Item Market Names for the latest releases. ITEM MARKET NAME DESCRIPTION VPWIN2KE1S75 Windows* 2000 Professional, 1 Gig, 30 ports VP12WIN2KT1S Windows 2000 Professional, 1 Gig, 48 ports VP12WIN2KT1D Windows 2000 Professional, 1 Gig, 96 ports VP12WIN2KE1D Windows 2000 Professional, 1 Gig, 120 ports VP22WIN2KT1 Windows 2000 Professional, 2 Gig, 192 ports VP22WIN2KE1 Windows 2000 Professional, 2 Gig, 240 ports PFSR22003960 Windows 2000 Professional, 4 Gig, 288 ports PFMULWIN196 Windows 2000 Professional, 2 Gig, 96 ports, NEBS compliant PFMULWIN11200 Windows 2000 Professional, 2 Gig, 120 ports, NEBS compliant PFLANWIN296 Windows 2000 Professional, 4 Gig, 192 ports, NEBS compliant PFLANWIN211200 Windows 2000 Professional, 4 Gig, 240 ports, NEBS compliant PF13W41T1 Windows 2000 Server, 1 Gig, 4 ports PF13W41EURO Windows 2000 Server, 1 Gig, 4 ports PF13W4802T1 Windows 2000 Server, 2 Gig, 48 ports PF13W964T1 Windows 2000 Server, 1 Gig, 96 ports PF13W964T12G Windows 2000 Server, 2 Gig, 96 ports PF13W12E1 Windows 2000 Server, 1 Gig, 120 ports PF13W12004E1 Windows 2000 Server, 2 Gig, 120 ports PF23W1GB Windows 2000 Server, 1 Gig, 28 ports PF23W1GBE1 Windows 2000 Server, 1 Gig, 34 ports 151 152 Call Processing Software intel.com/design/network/products/telecom/index.htm Telecom Software T elecom software from Intel helps developers rapidly build robust, feature-rich, custom converged communications and modular network solutions by managing the applications and the low-level hardware and software development tasks. Intel(R) Dialogic(R) System Release software and software development kits (SDKs) include device drivers, application programming interfaces (APIs), and utilities for Intel(R) telecom boards and related products. A variety of development tools-- including the Intel(R) NetMergeTM CT Application Development Environment--help developers shorten development cycles and deliver products to market faster. Intel(R) NetMergeTM Call Processing Software ntel(R) NetMergeTM Call Processing Software V6.0 is computer telephony (CT) call control server software capable of connecting a wide range of telephone switches to a variety of data processing environments. The software's client/server technology supports industry-standard hardware, operating systems, network services, and call control programming interfaces such as C, C++, Java*, TAPI, and ActiveX*, letting application developers easily integrate more intelligent call control features into their existing business applications. For original equipment manufacturers (OEMs), independent software vendors (ISVs), application developers, and integrators looking to expand their reach into the contact center market segment, Intel NetMerge Call Processing Software provides the ability to: Add telephony features to their customers' existing business applications Expand their businesses by providing current--and new--customers with ways to enhance their existing contact centers Integrate new features and functionality into legacy systems while maintaining their customer's investment in existing equipment and infrastructure Support new communication environments such as IP with minimal changes to the application. I Intel(R) NetMergeTM Call Processing Software Components n addition to Intel NetMerge Call Processing Software, Intel offers several software components that can assist you in developing or CTI-enabling business applications. Each of the following Intel NetMerge Call Processing Software components provides complex functions from which computer-telephone integration (CTI) applications can be built. In many cases, these components can be used to provide CTI capabilities in an existing business application without having to CTI-enable the application. Intel(R) NetMergeTM Enhanced SDK provides an intuitive higher-level telephony programming interface that shields developers from many of the variations of different telephone switches. Intel(R) NetMergeTM Call Information Manager manages call-related data as the call is routed through the enterprise. Intel(R) NetMergeTM Call Monitoring Manager brings real-time call monitoring functionality to your applications. The call monitoring manager simplifies call monitoring for large numbers of telephony devices, easily integrating with business applications. Intel(R) NetMergeTM Call Routing Manager handles the technical aspects of call routing applications. Just add the business logic. CSTA Switch Simulator emulate a CSTA-compliant switch environment, including devices such as telephones, trunks and ACD queues. I intel.com/design/network/products/telecom/index.htm Call Processing Software Call Processing Software Product Line Summary The following table summarizes the Intel NetMerge Call Processing Software product features. For more information, refer to the product datasheet index at http://www.intel.com/network/csp/products/ctconnect/family.htm CALL PROCESSING SOFTWARE PRODUCT PRODUCT AND APPLICATIONS LINE KEY FEATURES Intel(R) NetMergeTM Call Processing Software Customer relationship management (CRM)/e-CRM Call recording and quality management Contact center workforce management Contact center Help desk Interactive voice response (IVR) Screen pop Runs under Windows NT*, Windows* 2000, and Windows* XP operating systems Includes client APIs for Microsoft Windows* 95, Windows* 98, Windows 2000, Windows NT*, Windows XP, Hewlett-Packard HP-UX*, and Compaq Tru64 UNIX*, and OpenVMS* operating systems Supports call control programming interfaces such as C, C++, Java*, TAPI, and ActiveX* Support for Computer Supported Telecommunications Application (CSTA) Phase III protocol The following are the descriptions and Item Market Names for the latest releases. ITEM MARKET NAME DESCRIPTION CPSV6ENTWINPPK CPS V6.0 Enterprise License for Windows* PP key CPSV6ENTWINUSB CPS V6.0 Enterprise License for Windows USB key CPSV6FULLWINPPK CPS V6.0 Full License for Windows PP key CPSV6FULLWINUSB CPS V6.0 Full License for Windows USB key CPSV6LOWWINPPK CPS V6.0 Low License for Windows PP key CPSV6LOWWINUSB CPS V6.0 Low License for Windows USB key CPSV6MIDWINPPK CPS V6.0 Mid License for Windows PP key CPSV6MIDWINUSB CPS V6.0 Mid License for Windows USB key CPSV6MONWINPPK CPS V6.0 Monitor License for Windows PP key CPSV6MONWINUSB CPS V6.0 Monitor License for Windows USB key CPSV6PROUPG CPS V6.0 Product Upgrade License for Windows CTCESDKSUBSRV Enhanced Software Development Kit CTCCMPCALFKIT Version 3 for COMPUCALL, Full Sys Prod. for Windows NT* CTCFULLSUNKIT CT Connect V5.0 Full Sys. for SOLARIS CTCCIMUNLDVKIT Call Information MGR V3.5 Single Site, Unlimited Devices CTCCIM25KIT Call Information MGR V3.5, Single Site, 25 devices CTCCIM30MS25DEV Call Information MGR V3.5, Multisite, 25 devices CTCCIMUPDKIT Call Information MGR V3.5 Update kit CTCCIMUDMSITEKT Call Information MGR V3.5 Multisite, Unlimited Devices CTCOMPLV30MONNT Version 3 for COMPUCALL, monitor for Windows NT CTCCRMGR Call Routing Manager CSTAASSIMFORNT CSTA Switch Simulator V1.0 Prod. for Windows NT NCCSV1.1WINPPK Network Call Control Software V1.1 for Windows PP key NCCSV1.1WINUSB Network Call Control Software V1.1 for Windows USB key NECGATEWAYV20NT NEC Gateway* V2.0 Product for Windows NT 153 154 Call Processing Software intel.com/design/network/products/telecom/index.htm Intel(R) NetMergeTM Call Manager ntel(R) NetMergeTM Call Manager is software that works in conjunction with the Microsoft Speech Server*, providing management and control over Intel(R) Dialogic(R) telephony resources. Through a set of application programming interface (API) functions, the call manager enables applications built using Microsoft speech tools to control and monitor calls and apply speech resources. The call manager sets up and maintains connections with voice browsers, making it possible to monitor a device in order to make or receive calls, control events, distribute incoming calls across available ("ready") browsers, and place outbound calls on available device resources. The call manager: Maps outbound call requests from a Speech Application Language Tag (SALT) interpreter to available channels on the Intel Dialogic telephony board. The number of channels available depends on the type of telephony board you install. Maps call control signaling events from the switch into CSTA XML messages that can be understood by the SALT interpreter. Maps CSTA XML messages from the SALT interpreter into telephony requests that can be sent to the switch. Handles media processing, such as recording audio. Each Intel NetMerge Call Manager package includes a single CD containing: Intel NetMerge Call Manager Software Intel Dialogic System Release Software Global Call Software Runtime license for Intel(R) NetMergeTM Call Manager and Intel(R) Dialogic(R) System Release software Note: Customers do not have to purchase the Intel Dialogic System Release Software. Also available is an entry-level, single-span bundle that includes one Intel(R) NetStructureTM DMV480A-2T1-PCI Combined Media Board and a 24-port Intel NetMerge Call Manager licensed software package. Packaging standard, off-the-shelf DM3 telephony hardware with 24 ports of call manager software provides developers with a single span of telephony at a reduced price. I Call Manager Software The following table summarizes the Intel NetMerge Call Manager Software product features. For additional information, refer to the product datasheet index at http://www.intel.com/network/csp/products/8661web.htm CALL PROCESSING SOFTWARE PRODUCT LINE PRODUCT AND APPLICATIONS KEY FEATURES Intel(R) NetMergeTM Call Manager is the enabling media and telephony control component of these application areas: Speech-enabling existing IVR and contact center applications Self-help Web services for customer service Customer relationship management Runs under Windows* 2003 Server Supports Microsoft Speech Server* (SALT) Modular design Manages low-level telephony events, messages, and media Support a variety of telephony boards and protocols The following are the descriptions and Item Market Names for the latest releases. ITEM MARKET NAME DESCRIPTION NMCALMGR4PTPKG Intel(R) Call Manager 4 port licensed software kit and other associated Intel(R) software components NMCALMGR16PTPKG Intel Call Manager 16 port licensed software kit and other associated Intel software components NMCALMGR24PTPKG Intel Call Manager 24 port licensed software kit and other associated Intel software components NMCALMGR48PTPKG Intel Call Manager 48 port licensed software kit and other associated Intel software components NMCALMGR96PTPKG Intel Call Manager 96 port licensed software kit and other associated Intel software components KDMVACM24PT Single-Span Bundle: Intel(R) DMV480A-2T1 board, Intel Call Manager 24 port license, and other associated Intel software components intel.com/design/network/products/telecom/index.htm Development Tools Development Tools INTEL (R) NETMERGE TM CT APPLICATION DEVELOPMENT ENVIRONMENT T he Intel(R) NetMergeTM CT Application Development Environment is a set of development tools and runtime environments that help shorten time-to-market and to revenue by helping developers build robust, portable computer telephony (CT) applications quickly and easily. This product reduces the need to write directly to a telephony device's API in C or C++. Because of its underlying architecture, Intel NetMerge CT Application Development Environment eliminates the need for developers to learn new telephony hardware, APIs, and protocols. The Intel NetMerge CT Application Development Environment architecture provides an abstraction layer that sits on top of telephony device APIs and performs low-level CT tasks, saving time that developers can better use to focus on building innovative applications. Intel NetMerge CT Application Development Environment offers the flexibility of programming in different environments: either a CT-specific environment or a Windows environment. Both interfaces provide access to the many benefits of the underlying architecture. The Intel NetMerge CT Application Development Environment's application development (AD) language is a CT-specific scripting language that includes a flowcharter and a debugger. Also available are AD ActiveX* objects, which incorporate directly into a Windows visual programming environment such as Visual Basic* and provide CT-specific development functions. Intel(R) NetStructureTM Host Media Processing software is now supported under Intel NetMerge CT Application Development Environment Version 8.2 SP2. CT Application Development Environment Product Line Summary The following table summarizes the CT Application Development Environment product features. For more information, refer to the product datasheet index at http://www.intel.com/network/csp/products/indx_aet.htm#tools. A complimentary evaluation version is available for download at http://www.intel.com/network/csp/products/ctade/evalsw.htm. CT APPLICATION DEVELOPMENT ENVIRONMENT APPLICATIONS KEY FEATURES CT Application Development Environment Voice portal Voice messaging and unified messaging Voice-activated dialing (VAD) Text-to-speech e-mail Speech-enabled interactive voice response (IVR) Contact center Customer relationship management (CRM) Fax-on-demand Debit card Host Media Processing (supported under V8.2 SP2) Voice over IP--DM/IP boards ISDN--Basic Rate Interface (BRI) PRODUCT LINE Provides native support for speech recognition engines including Microsoft* SAPI, Nuance*, Phillips* SpeechPearl*, and SpeechWorks* Designed/tested for Windows NT* and Windows* 2000 operating systems Transparent support for R4 and Global Call* APIs Available for System Release 5.1 Supports 15 languages including Cantonese, Dutch, English, French, Mandarin, and Spanish Supports regional language differences such as British and American English, and Latin American and Castilian Spanish CT Application Development Environment The following are the descriptions and Item Market Names for the latest releases. ITEM MARKET NAME DESCRIPTION CTADE0PROGKEY 0 port, programmable key CTADE0PRGKEYUSB 0 port, programmable key USB CTADE2DEVKEY Version 8.2, 2-port development kit CTADE2RT 2-port, Runtime hardware key 155 156 Development Tools intel.com/design/network/products/telecom/index.htm ITEM MARKET NAME DESCRIPTION CTADE4RT 4-port, RunTime hardware key CTADE8RT 8-port, RunTime hardware key CTADE12RT 12-port, RunTime hardware key CTADE16RT 16-port, RunTime hardware key CTADE24RT 24-port, RunTime hardware key CTADE24DEVKEY Version 8.2, 24-port development kit CTADE30RT 30-port, RunTime hardware key CTADE30DEVKEY Version 8.2, 30-port development kit CTADE48RT 48-port, RunTime hardware key CTADE60RT 60-port, RunTime hardware key CTADE64RT 64-port, RunTime hardware key CTADE72RT 72-port, RunTime hardware key CTADE96RT 96-port, RunTime hardware key CTADE120RT 120-port, RunTime hardware key CTADE128RT 128-port, RunTime hardware key CTADE192RT 192-port, RunTime hardware key CTADE240RT 240-port, RunTime hardware key CTADE256RT 256-port, RunTime hardware key CTADE2DEVKEYUSB Version 8.2, 2-port development kit USB CTADE2RTUSB 2-port, RunTime hardware key USB CTADE4RTUSB 4-port, RunTime hardware key USB CTADE8RTUSB 8-port, RunTime hardware key USB CTADE12RTUSB 12-port, RunTime hardware key USB CTADE16RTUSB 16-port, RunTime hardware key USB CTADE24RTUSB 24-port, RunTime hardware key USB CTADE24DEVKEYUSB Version 8.2, 24-port development kit USB CTADE30RTUSB 30-port, RunTime hardware key USB CTADE30DEVKEYUSB Version 8.2, 30-port development kit USB CTADE48RTUSB 48-port, RunTime hardware key USB CTADE60RTUSB 60-port, RunTime hardware key USB CTADE64RTUSB 64-port, RunTime hardware key USB CTADE72RTUSB 72-port, RunTime hardware key USB CTADE96RTUSB 96-port, RunTime hardware key USB CTADE120RTUSB 120-port, RunTime hardware key USB CTADE128RTUSB 128-port, RunTime hardware key USB CTADE192RTUSB 192-port, RunTime hardware key USB CTADE240RTUSB 240-port, RunTime hardware key USB CTADE256RTUSB 256-port, RunTime hardware key USB intel.com/design/network/products/telecom/index.htm Telecom System Software Telecom System Software INTEL (R) DIALOGIC (R) SYSTEM RELEASE SOFTWARE I ntel(R) Dialogic(R) System Release Software is a collection of software components used to build and operate solutions that use the latest features of Intel(R) Dialogic(R) and Intel(R) NetStructureTM board products. This includes host software, downloadable firmware, software development tools (SDKs), and management utilities. The software has a high level of interoperability and typically includes significant infrastructure enhancements. It is designed for broad distribution with a complete uninstall/install required. Intel(R) Dialogic(R) System Release 6.0 PCI for Windows* he Intel(R) Dialogic(R) System Release 6.0 PCI for Windows* (Intel(R) Dialogic(R) SR 6.0 PCI for Windows) enables higherdensity solutions with increased usability and flexibility that use Intel(R) Dialogic(R) and Intel(R) NetStructureTM boards. This release supports new and enhanced telecom products from Intel, along with major enhancements to existing capabilities. This release provides support for the new Intel(R) NetStructureTM DMV600BTEP, DMV1200BTEP, and DMV3600BP combined media boards and the Intel Dialogic DMV160LPHIZ high-impedance board. Intel(R) Dialogic(R) Continuous Speech Processing Technology (which enables high-quality speech recognition), Global Call* (which provides a uniform call control interface), and the IP Media Library (which controls media on IP devices), all have new capabilities enabling more robust solutions. Intel(R) Dialogic(R) SR 6.0 PCI for Windows* adds support for the Windows 2003 operating system in addition to supporting the Windows XP and Windows 2000 operating systems. T Intel(R) Dialogic(R) System Release 6.0 CompactPCI* for Windows* and Linux* he Intel(R) Dialogic(R) System Release 6.0 CompactPCI* for Windows and Linux* is a telco-ready release that includes support for the high-density product line featuring the Intel(R) NetStructureTM IPT boards, the Intel(R) NetStructureTM DMN160TEC Network Interface Board, and the Intel(R) NetStructureTM DM/V-A combined media and high-density station interface (HDSI) boards. Intel Dialogic SR 6.0 CompactPCI supports high availability features such as peripheral hot swap (PHS) and warm redundant system slot (RSS), full SNMP support, fault management (detection, diagnosis, isolation, recovery, and repair), remote management, faster system download and initialization, and more. Intel(R) Dialogic(R) Continuous Speech Processing (Intel(R) Dialogic(R) CSP) and conferencing software modules can be implemented and scaled to hundreds of speech--and audio conferencing--enabled ports and still deliver high-quality speech recognition and conferencing effectively. By adding these capabilities, Intel provides OEMs with the building blocks they need to deliver robust carrier-grade solutions that use less hardware resources and space, resulting in decreased development, deployment, and operating costs. T Intel(R) Dialogic(R) System Release 5.1.1 FP1 for Windows* he Intel(R) Dialogic(R) System Release 5.1.1 Feature Pack 1 for Windows (Intel(R) Dialogic(R) SR 5.1.1 FP1) adds support for Windows XP Professional, as well as support for all products and features supported in previous Intel Dialogic SR 5.x releases. New products supported include the new Intel(R) Dialogic(R) DMV160LP Combined Media Board, Intel(R) Dialogic(R) CPI/400BRI PCI Fax Board, and the new Intel(R) Dialogic(R) DISI16R2, DISI24R2, and DISI32R2 switching boards. Intel Dialogic SR 5.1.1 FP1 also includes newly-enhanced features for some current board products including the Intel(R) Dialogic(R) DI0408LSA Switching Board and the new Intel(R) Dialogic(R) DI0408LSAR2 Switching Board. T 157 158 Telecom System Software intel.com/design/network/products/telecom/index.htm Intel(R) Dialogic(R) System Release 5.1.1 for Windows* he Intel(R) Dialogic(R) System Release 5.1.1 for Windows (Intel(R) Dialogic(R) SR 5.1.1) includes supports for the "A" series quad-pan and resource boards, dual-span boards, the high impedance (HiZ) boards from Intel, and the Intel(R) NetStructureTM High-Density Station Interface boards. All Intel(R) Dialogic(R) SR 5.0 and Intel(R) Dialogic(R) SR 5.01 supported products and features are also supported in Intel(R) Dialogic(R) SR 5.1.1. T Intel(R) Dialogic(R) System Release 5.1 Feature Pack 1 for Linux* he Intel(R) Dialogic(R) System Release 5.1 Feature Pack 1 for Linux (Intel(R) Dialogic(R) SR 5.1 FP1 for Linux) supports Red Hat* 7.2 and 7.3 and introduces support for several new features and the new Intel(R) Dialogic(R) D/4PCIU voice boards. Intel(R) Dialogic(R) SR 5.1 FP1 enhances the IP capabilities by adding support for host-based call control on DM/IP boards, adding IP Media Library support of RFC 2833 and T.38 fax, and Global Call API support for H.323 and SIP protocol stacks. In addition to supporting all previous features and products from Intel Dialogic SR 5.1 for Linux, this release includes support for universal PCI versions of the DM/F and DM/VF boards. T Intel(R) Dialogic(R) System Release 5.1 for Linux* he Intel(R) Dialogic(R) System Release 5.1 for Linux (Intel Dialogic SR 5.1) supports the Red Hat 7.1 and 7.2 operating systems, the high-density DM3-based boards, and the entire portfolio of communications boards and all the features found in the Intel Dialogic System Release 5.0 and Intel Dialogic System Release 5.01. Highlighted in this release are the Intel(R) Dialogic(R) DM/V-A boards with enhanced voice processing features and protocols, the DM/IP (100BaseT) boards, and the Intel(R) NetStructureTM DM/VF integrated T-1/E-1 voice and fax processing products. High availability and high-performance features required for carrier-grade telco, service provider, and large enterprise solutions are also included. Intel Dialogic SR 5.1 also supports lower-density communications building blocks from Intel on Linux platforms for building cost-effective solutions such as interactive voice response (IVR) and messaging for costsensitive market segments. Telcos and high-end service providers require highly available systems to sustain their revenue goals and to minimize their total cost of ownership. Intel Dialogic SR 5.1 for Linux enables solutions using the CompactPCI form factor supporting peripheral hot-swap, SNMP support, on-demand diagnostics, single-board start/stop operation, firmware tracing, faster system download and initialization, and more. Intel Dialogic Continuous Speech Processing Technology and conferencing software modules can be implemented and scaled to hundreds of speech- and audio-conferencing-enabled ports and still deliver high-quality speech recognition and effective conferencing. By adding these capabilities, Intel provides OEMs with the building blocks they need to deliver robust, carrier-grade solutions that use fewer hardware resources and less space, resulting in decreased development, deployment, and operating costs. T intel.com/design/network/products/telecom/index.htm Telecom System Software System Release Software Product Line Summary The following table summarizes the system release software product features. For additional information, refer to the product datasheet index at http://www.intel.com/network/csp/products/indx_aet.htm#srs SYSTEM RELEASE SOFTWARE PRODUCT KEY FEATURES Intel(R) Dialogic(R) System Release 6.0 PCI for Windows* Intel(R) Dialogic(R) System Release 6.0 CompactPCI* for Windows Intel(R) Dialogic(R) System Release 6.0 CompactPCI for Linux* Intel(R) Dialogic(R) System Release 5.1.1 FP1 for Windows Intel(R) Dialogic(R) System Release 5.1.1 for Windows Intel(R) Dialogic(R) System Release 5.1 FP1 for Linux Runs under Windows* 2003, Windows* XP, and Windows* 2000 Supports the Intel(R) NetStructureTM DMV600BTEP, DMV1200BTEP, and DMV3600BP combined media boards Supports the Intel Dialogic DMV160LPHIZ high-impedance board Echo cancellation to 64 mSec support on Intel NetStructure combined media boards Global Call* API support for Call Progress Analysis, call transfer, call hold and retrieve on DM3 boards, and access to SIP message information fields IP Media Library API support for RFC 2833 and T.38 fax Learn Mode and Tone Set API support on Intel NetStructure boards Enhancements to configuration, administration, and diagnostic software make it easier to install, configure, and manage Runs under Windows 2000 Supports standards-based basic peripheral hot-swap (PHS)--PICMG* 2.12 and warm redundant system slot (RSS) Increased fault management (FM) for detection, diagnosis, isolation, recovery, and repair SNMP support that also includes standard DS1 and ISDN MIB (2495) and MIB-II Clocking API and daemon provides clock management (fallback) eliminating system failure from clock faults Command line interface (CLI) for the operation of all boards (start, stop, remove, and diagnose) Locking CompactPCI board ejectors guards against accidental board removal Runs under Red Hat* 7.3 Linux operating system, offering quick out-of-the-box installation and configuration Same features and products supported as V6.0 for Windows Runs under Windows NT*, Windows 2000, and Windows XP operating systems Same products and features as Intel Dialogic SR 5.1.1 for Windows, plus additional product support and features New products supported--Intel Dialogic DMV160LP Combined Media Board, Intel Dialogic CPi/400-BRI PCI Fax Board, and Rev 2 DI products Runs under Windows NT and Windows 2000 operating systems Same products and features as Intel Dialogic SR 5.1 for Windows, plus additional product support and features Enhanced IP Link, expanded fax support, improved high availability Runs under Red Hat 7.2 and 7.23 operating systems Supports the Intel Dialogic D/4PCIU voice board Host-based H.323 and SIP IP call control Universal PCI versions of Intel NetStructure DM/F and DM/VF boards Global Call API support for H.323 and SIP Protocol stacks IP Media Library support for RFC 2833 and T.38 fax 159 160 Telecom System Software SYSTEM RELEASE intel.com/design/network/products/telecom/index.htm SOFTWARE (continued) PRODUCT KEY FEATURES Intel(R) Dialogic(R) System Release 5.1 for Linux* Runs under Red Hat* 7.1 and 7.2 operating systems Quad-span and resource "A" series boards can support up to 120 channels of conferencing in a single slot Dual-span, quad-span, and resource "A" series boards provide up to 120 channels of continuous speech processing, conferencing, or other media processing features HDSI boards provide support for up to 120 analog station devices DM3 voice, fax, and network interface in a single PCI slot offering 24 (T-1) or 30 (E-1) universal ports of voice, tone, fax processing, and network interface available on any call at any time in a 1:1:1:1 ratio DM/IP boards let VoIP calls be connected from the platform to the SCbus Increased high-availability features for carrier-grade solutions, including CompactPCI* peripheral hot-swap (like-for-like replacement) Interactive diagnostics for DM3 technology (POST on-demand) Detects and repairs firmware faults Improved system initialization time System Release Software The following are the descriptions and Item Market Names for the latest releases. ITEM MARKET NAME DESCRIPTION SR511WIN Intel(R) Dialogic(R) System Release 5.1.1 for Windows* SR511WINSP1 Intel(R) Dialogic(R) System Release 5.1.1 Service Pack for Windows SR511WINFP1 Intel(R) Dialogic(R) System Release 5.1.1 Feature Pack 1 for Windows SR51LINUX Intel(R) Dialogic(R) System Release 5.1 for Linux* SR51LINUXSP1 Intel(R) Dialogic(R) System Release 5.1 Service Pack for Linux SR51LINUXFP1 Intel(R) Dialogic(R) System Release 5.1 Feature Pack 1 for Linux SR60CPCIWIN Intel(R) Dialogic(R) System Release 6.0 for CompactPCI* for Windows SR60CPCILINUX Intel(R) Dialogic(R) System Release 6.0 for CompactPCI for Linux SR60PCIWIN Intel(R) Dialogic(R) System Release 6.0 PCI for Windows intel.com/design/network/products/telecom/index.htm Host Media Processing Software Host Media Processing Software INTEL(R) NETSTRUCTURETM HOST MEDIA PROCESSING SOFTWARE RELEASE 1.1 FEATURE PACK 1 FOR THE WINDOWS* OPERATING SYSTEM I ntel(R) NetStructureTM Host Media Processing (Intel(R) NetStructureTM HMP) Software performs media processing tasks on general-purpose servers based on Intel(R) architecture (IA) without the use of specialized hardware. The software provides media services that can be used to build flexible, scalable, and cost-effective next-generation IP media servers. When installed on a system, the software looks to the customer application like an Intel(R) telecom board with DM3 architecture, but all media processing takes place on the host processor. To help customers accelerate their time-to-market and migrate their existing applications to IP, the software also supports two direct APIs: R4 for media processing and Global Call* for call control. Release 1.1 uses a built-in network interface card (NIC) to provide IP connectivity. It also supports the industry-standard H.323 and Session Initiation Protocol (SIP) protocols for call control, and call transfers using the H.450.2 supplementary services protocol. Host Media Processing Software Product Summary The following table summarizes the Host Media Processing product features. For additional information, refer to the product datasheet index at http://www.intel.com/network/csp/products/8762web.htm. HOST MEDIA PROCESSING SOFTWARE PRODUCT PRODUCT AND APPLICATIONS KEY FEATURES Intel(R) NetStructureTM Host Media Processing Software Release 1.1 & Release1.1 Feature Pack 1 Voice mail and messaging IVR and announcements Conferencing server Unified messaging LINE Supports computing platforms with Intel(R) Celeron(R), Intel(R) Pentium(R) III, Intel(R) Pentium(R) 4, and Intel(R) XeonTM processors with ability to scale up to 120 media processing channels per system Compliant with the ITU H.323 specification for call control Supports voice record/play with automatic gain control and volume control in a variety of file formats including OKI ADPCM, linear A-law and -law PCM, and Wave Supports streaming media over RTP using a G.711 voice coder with choice of packet size (10 ms, 20 ms, and 30 ms) and RFC-2833 DTMF packets Uses built-in Ethernet card for network connectivity Compliant with the ITU H.323 and H.450.2 specifications and IETF SIP for call control IP multicast support Provides a mechanism for integration with any third-party call control or connection control over IP stack Supports streaming media over RTP using the G.711, G.723.a, G.729a, G.729b voice coders Supports the Global Call* and R4 APIs Includes administration tools such as configuration manager and SNMP software Supports voice record/play with AGC control and volume control Detects and generates standard in-band DTMF and user-defined tones Full conferencing features include scalability with a maximum of 120 parties per system Quality of service (QoS) threshold alarms and packet loss reduction T.38 fax termination support Supports Intel(R) Dialogic(R) Continuous Speech Processing Technology Supports Windows* 2000, XP, 2003 Server operating systems 161 162 Host Media Processing Software intel.com/design/network/products/telecom/index.htm Intel(R) NetStructureTM Host Media Processing Software Release 1.1 for the Windows* Operating System The following are the Item Market Names and descriptions for the latest releases. ITEM MARKET NAME DESCRIPTION DMIPS10C11W Conferencing--Includes advanced features such as coach/pupil mode, tone clamping, and active talker notification (one conferencing port) DMIPS10E11W Enhanced RTP--Adds the capability of streaming voice over RTP using the G.723.1, G.729a, and G.729b coders to the RTP G.711 resource. Add on top of the RTP G.711 resource (one port of transcoding) DMIPS10F11W T.38 fax termination--T.38 fax termination (over UDP) (one port of fax) DMIPS10I11W IP call control--Provides call control stacks for the H.323 with H.450.2 supplementary services, and SIP protocols, with Global Call* API support. Can only be used together with the RTP G.711 resource (one port of IP call control) DMIPS10R11W RTP G.711--Provides the capability of streaming digitized voice over RTP using the G.711 coder with 10 ms, 20 ms, and 30 ms frames. Required for each RTP session (one RTP stream) DMIPS10S11W Speech integration--Integrates host media processing with speech engines for ASR and TTS support by using the continuous speech processing APIs. Add on top of the voice resource (one port of speech) DMIPS10V11W Voice--Play with volume control, record with AGC, DTMF, user-defined tone detection and generation, including RFC 2833 and H.245 UII (one port of voice) developer.intel.com/design/bridge Bridge Products Bridge Products TRANSPARENT PCI-TO-PCI BRIDGES I ntel's family of second-generation Transparent PCI-to-PCI bridge chips provides essential building blocks for extending PCI bus capabilities and delivering higher performance for data-intensive applications. With their secondary PCI buses, the Intel(R) 2115x family enables designers to increase the number of supported PCI slots in x86, Intel(R) Pentium(R) processor, PowerPC* Alpha*, and other system architectures, and to design multi-component PCI adapter cards with an independent bus on the card. For improved performance, Intel's second-generation Transparent PCI-to-PCI bridges are designed for compliance with 2.3 of the PCI Local Bus Specification. In addition, these second-generation bridge products feature support for delayed transactions and have deeper buffers than earlier-generation bridges designed for PCI Revision 2.0. They are compliant with the Advanced Configuration Power Interface (ACPI) and PCI Bus Power Management Specification. FEATURES Proven PCI technology for extending PCI bus capabilities Compliant with ACPI (Advanced Configuration Power Interface) the Power-Management Interface specification Compliant with PCI (Peripheral Component Interface Specification) Rev. 2.3 Increases the number of PCI slots that can be supported in a system and multi-device and multi-function add-in card designs Available in 33 MHz and 66 MHz and 32-bit or 64-bit bus architectures Support for delayed transactions and an advanced buffer architecture JTAG interface and general I/O pins for embedded device designs (see line card) 64-bit PCI bus provides the high bandwidth manufacturers need to deliver high-performance servers and workstations for data-intensive applications TRANSPARENT BASE PART NUMBER REVISION 21152 21154 BB AE BE Process Technology Key: Customer Technical Questions: PCI-TO-PCI MANUFACTURER PART NUMBER BRIDGES MAT'L. MASTER PROCESS PRIMARY PART NUMBER TECH SPEED INTERFACE SECONDARY INTERFACE OTHER PCI BUS SPEED PCI BUS JTAG PRODUCT GPIO FEATURES PACKAGE POWER MGMT 835912 821305 821308 32 bit 64 bit 64 bit No Yes Yes 160 PQFP 304 PQFP 304 PQFP Yes Yes Yes 854 Intel(R) 0.35 micron (854.6) 1-800-628-8686 support@mailbox.intel.com 854 854 854 33 MHz 33 MHz 66 MHz 33 MHz 33 MHz 66 MHz 32 bit 64 bit 64 bit No Yes Yes 163 164 Bridge Products developer.intel.com/design/bridge PCI-X Bridge Products TRANSPARENT PCI-X BRIDGE I ntel's newest member of the PCI discrete bridge chip family is a transparent bridge for the latest, eXtended version of PCI architecture--PCI-X. PCI-X provides significantly increased I/O throughput over standard 33MHz and 66MHz PCI modes. Operating at a maximum 133MHz clock frequency, the 64-bit BW31154 provides throughput of up to 1GB/sec-- twice the max throughput of 64-bit, 66MHz PCI. It also runs at 66MHz and 100MHz PCI-X frequencies, and also can be operated seamlessly in standard 33MHz or 66MHz PCI speeds for complete compatibility with legacy PCI devices and frequency isolated systems or modules. With the 31154's 10 secondary PCI clocks and other advanced, second-generation PCI-X bridge features, design engineers can readily develop high slot and/or high-density device attach applications in PCI or cPCI form factors for motherboards, add-in cards, backplanes or embedded platforms. For improved performance, Intel's Transparent PCI-X bridge is designed for compliance with 1.0b of the PCI-X Local Bus Specification. In addition, the highly capable and flexible 31154 features a dynamic 8KB transaction buffer, 5V tolerance for legacy PCI devices, an opaque memory mode (for semi-transparent operation), cPCI hot swap capability and asynchronous clock frequency support. FEATURES Latest PCI-X technology for extending PCI and PCI-X bus capabilities Compliant with ACPI (Advanced Configuration Power Interface) the Power-Management Interface specification Compliant with the PCI SIG's PCI-X v 1.0b specification Increases the number of PCI slots that can be supported in a system or backplane, as well as increasing the number of devices (multi-function and/or multi-device) in add-in cards and HBAs 64-bit bridge supporting 33 MHz and 66 MHz PCI; and 66MHz, 100MHz and 133MHz PCI-X architectures and speeds; in any arrangement between primary and secondary bus segments Support for PCI-X split transaction protocol and asynchronous clock frequency (25MHz - 133MHz) JTAG interface and general I/O pins for embedded device designs (see line card) 64-bit PCI/PCI-X bus provides the high-bandwidth hardware vendors need for high-performance enterprise-class desktops and servers, embedded platforms, backplanes and add-in cards. TRANSPARENT BASE PART NUMBER REVISION BW31154 Process Technology Key: PCI-TO-PCI MANUFACTURER PART NUMBER 859 0.18 micron BRIDGES MAT'L. MASTER PROCESS PRIMARY PART NUMBER TECH SPEED INTERFACE SECONDARY INTERFACE OTHER PCI BUS SPEED PCI BUS JTAG PRODUCT GPIO FEATURES PACKAGE POWER MGMT 857381 64-bit Yes 421BGA Yes 859 133MHz 133MHz 64-bit Yes developer.intel.com/design/bridge NON-TRANSPARENT PCI-TO-PCI Bridge Products BRIDGES I ntel's 21555 non-transparent PCI-to-PCI bridge chips enable add-in card vendors to deliver high-performance, intelligent option cards and embedded products that previously were not possible. Designed specifically for applications where a processor is used behind a PCI-to-PCI bridge, the chip provides a clean architecture for creating a product with multiple processor domains. The non-transparent PCI-to-PCI bridge chip provides designers of intelligent controllers and embedded systems with a solution capable of resolving resource conflicts between a PCI-based host system and a PCI-based subsystem. This gives a local processor maximum flexibility in mapping and managing subsystem resources. In addition, this non-transparent bridge product is fully compliant with Revision 2.3 of the PCI specification including delayed transactions. It also features cPCI hot swap capability. FEATURES Independent address spaces and asynchronous clocks deliver unparalleled application flexibility 64-bit primary and secondary bus interfaces deliver high performance for data-intensive applications Compliant with PCI (Peripheral Component Interface Specification) Rev. 2.3 Secondary bus arbitration support for up to nine bus master devices Evaluation Design Kit speeds time-to-market Available in 33 MHz and 66 MHz bus speed NON-TRANSPARENT BASE PART NUMBER REVISION MANUFACTURER PART NUMBER PCI-TO-PCI BRIDGES MAT'L. MASTER PROCESS PRIMARY PART NUMBER TECH SPEED 21555 A BB Process Technology Key: Intel 848191 Intel 848192 854 (R) Intel 0.35 micron (854.6) Customer Technical Questions: 1-800-628-8686 support@mailbox.intel.com 854 854 33 MHz 66 MHz INTERFACE SECONDARY INTERFACE OTHER PCI BUS SPEED PCI BUS JTAG PRODUCT GPIO FEATURES PACKAGE POWER MGMT 64 bit 64 bit Yes Yes 304 PBGA 304 PBGA Yes Yes 33 MHz 66 MHz 64 bit 64 bit Yes Yes 165 166 Bridge Products PCI-X SERIAL developer.intel.com/design/bridge ATA HOST DISK CONTROLLER I ntel's 31244 PCI-X Serial ATA Host Disk controller is a 4-port, 1.5Gbps Host Controller backwards compatible with Parallel ATA software and drivers. Using the 31244 host Serial ATA controller, system and storage vendors can provide high-performance, low-cost disk controller and RAID 0, 1 and 10 capability on motherboards, storage/RAID cards or external disk/storage subsystems for DAS, SAN or NAS solutions. Designed with features such as Direct Port Access (independent, concurrent port control) and dedicated DMA channel for each port, the 31244 PCI-X Serial ATA host disk controller takes the inherent advantages of PCI-X and Serial ATA 150MBs (per port) architectures even further with sophisticated features and enterprise extensions to SATA I--such as LED, enhanced voltage, drive hot plug and powerful Serial ATA (native) Command Queuing support. In addition, the 31244 controller is backwards compatible with PCI 33MHz and 66MHz speeds (32-bit or 64-bit bus modes), as well as supporting PCI-X 66MHz, 100MHz and 133MHz in 64-bit mode. FEATURES Four Serial ATA channels/ports at 1.5Gbps (150MBs) each PCI-X 1.0a-compliant 64-bit bus width running at 133, 100 or 66MHz speeds; backwards compatible with 32-bit or 64-bit PCI v 2.3 running at 33 or 66MHz speeds Direct Port Access (DPA mode or Master/Master) control over each Serial ATA port Dedicated DMA channel for each Serial ATA port Parallel ATA mode (Master/Slave) support Serial ATA Command Queuing with support for up to 32 queue pairs RAID 0, 1, 10 (including boot support and pre-O/S utility) Supports hot-plug Serial ATA hard disk drives Activity LED support for each driver, or one LED for the system Enhanced voltage support for storage/HDD backplane applications DPA Mode software drivers for Windows* 2000, Windows XP and Windows CE .NET; and Linux* Redhat 8.0 NOTE: In addition, a Host Bus Adapter (HBA) card and Customer Reference Board (CRB) are available. developer.intel.com/design/mcs96 Microcontrollers MCS 96 Microcontrollers (R) A POWERFUL FOUNDATION T he Intel(R) MCS(R) 96 microcontroller family of products are popular for 16-bit embedded microcontrollers. The 8XC196 products are found in a variety of embedded applications. The high-performance register-to-register architecture is well suited for complex real-time control applications such as industrial controllers, automation, printers, pattern recognition and motor control. Our broad portfolio of 8XC196 microcontroller products has been designed to meet your varying peripheral, memory size, addressability, serial communications and performance requirements. The 8XC196 family shares a common core architecture which is register based. This register-based architecture eliminates the accumulator bottleneck seen in most other microcontroller families and enables fast context switching. All devices have bit, byte, word and some 32-bit operations. The table below summarizes the capture and generation of high-speed signals on the HSIO and EPA. OPERATION 16 MHz 20 MHz 25 MHz 50 MHz HSI (High-speed input) HSO (High-speed output) EPA (Event processor array) 1.125 us 1 us 250 ns 900 ns 800 ns 200 ns 160 ns 80 ns The 8XC196 Bus Controller features programmable wait-state generation, 8- or 16-bit bus width, and features a HOLD/ HLDA protocol for multiprocessor applications. The 8XC196NP/NU have dynamically selectable multiplexed/demultiplexed bus and a chip select unit. The MCS 96 microcontroller product family has three distinct product lines. The most recent products form the EPA (Event Processor Array) family. This family of devices has the advanced peripherals which include a flexible input/output system and the EPA module itself. The HSIO family consists of devices that have the High-Speed Input/Output subsystem. The Motor Control family is comprised of devices that support motor control applications. This last family also uses the EPA system for I/O control. The majority of the MCS96 microcontrollers product family is offered with on-chip EPROM (size vary) and some have on-chip CAN 2.0. The advanced 88CO196EC microcontroller offers high level of integration with on chip Flash (256Kbyte) and CAN 2.0. 167 168 Microcontrollers developer.intel.com/design/mcs96 FEATURES COMMON TO ALL MCS(R) 96 PRODUCTS BENEFITS 16-bit CPU High performance. Up to 50 MHz On-chip memory Low cost. Cost-effective solution Register-to-register architecture Efficient. More compact code than accumulator-based architecture, which allows more efficient use of memory (no accumulator bottleneck for any operations/computations) Unlimited usage. Minimum of 232 registers can be directly addressed at any time Three operand instructions Create efficient code. Reduces data memory usage Bus controller features programmable wait-state generation and bus widths Economical. Efficient usage of wide variety of memory and 8- or 16-bit peripheral devices Flat addressability of large register files Fewer barriers. Avoids artificial limitation and barriers of segmented files Three distinct product lines: event processor array (EPA) high-speed input/output (HSIO) motion control (MC) Advanced. Peripherals include configurable input/output ports and modular event processor array structure Speed. Devices with high-speed input FIFO and output system Waveform. Uses waveform generator and event processor array system for input/output MCS(R) 96 Microcontroller Family--High-Speed Input/Output ntel designed the HSIO family for applications that require high-speed input and output and closed-loop event control. These devices can lock events in the high-speed output unit (CAM), which allows you to repeat events with no software overhead. The HSIO family comprises the 8X196KB, 8XC196KC, 8XC196KD and 88CO196EC. The CHMOS version (denoted with a "C," i.e., 8XC196) is code- and peripheral-compatible with the obsolete NMOS products. The HSIO allows interrupt servicing in the background with minimal CPU overhead and reduces external components for temperature control, strain gauge and motion detection, providing an attractive solution for applications that need accurate timing for multiple events. I FEATURES FOUND ON HSIO PRODUCTS BENEFITS Register-to-register architecture; up to 1,000-byte register RAM and up to 32K internal OTPROM Efficient. No accumulator bottleneck, fast context switching 1.4 uSec 16x16 multiply, 2.4 uSec 32/16 divide Speed. Good math performance for fast and compact calculation loops 8-channel, 8- or 10-bit A/D converter Fewer components. Reduces external components requirement by integrating A/D functionality on chip 8- or 16-bit external bus Performance. Optimal memory interfacing Full-duplex serial port Tracking. Versatile event tracking Pulse-width-modulated output Less overhead. Reduces processor overhead High-speed I/O subsystem Timing. For accurate timing of multiple events Peripheral transition server on KC and KD Less overhead. Reduces CPU overhead during interrupt servicing Integrated Flash and CAN on 88CO196EC Integration. Attractive solution where CAN and/or Flash memory is required, enabling easy upgrade for current 96 users based on the same architecture developer.intel.com/design/mcs96 Microcontrollers MCS(R) 96 Microcontroller Family--Motor Control ntel's Motor Control family provides efficient three-phase AC induction motors, DC brushless motors and inverter applications. The product line features the 8XC196MC, 8XC196MD and 8XC196MH. The 8XC196MC/MD/MH have a unique three-phase waveform generator that enables precise and efficient motor control. All include standard microcontroller peripherals so the same chip can also handle additional functions such as front-panel control. These products are ideal single-chip solutions for reducing system cost. Motor control can also be possible through software using 88CO196EC microcontroller. I FEATURES FOUND ON MC PRODUCTS BENEFITS Register-to-register architecture Efficient. No accumulator bottleneck, fast context switching Three-phase PWM waveform generator Ease of operation. Simplifies software and hardware requirements Up to 12-channel EPA Timing. High-resolution timing of multiple events Peripheral transaction server (PTS) Less overhead. Reduces CPU overhead required to service interrupts Up to 14-channel A/D converter Efficiency. Monitors multiple analog signals 16-bit watchdog timer Reliability. Increases reliability of system 488 MC/MD and 744 MH byte register file, high-performance CPU Speed. Provides fast context switching, fast instruction execution On-chip ROM/OTPROM 16K MC/MD and 32K MH Storage. Available for code and data storage Frequency generator (MD only) Applications. For infrared (remote) functionality Two serial ports (MH only) Applications. For increased communication capability MCS(R) 96 Microcontroller Family--Event Processor Array (EPA) he EPA family of devices is ideal for complex, real-time control applications that require a flexible input/output system and yield a finer granularity in timing measurement. EPA products include the 8XC196NT, 8XC196NP, 80C196NU and 80C196EA is the newest addition to this family, operating at 40 MHz and is integrated with a large number of peripherals and 4K of data RAM. The 80C196EA's demultiplexed address/data bus with three chip select outputs make it easier to design low-cost memory solutions. The 88CO196EC is the newest addition to this family, operating at 40MHz and is highly integrated with on-chip 256K Flash and CAN 2.0. T FEATURES FOUND ON EPA PRODUCTS BENEFITS Register-to-register architecture Speed. Fast context switching and compact calculation loops High-speed capture/compare EPA channels Precision. Precision event capture, output compare Peripheral transaction server Less overhead. Reduces system overhead to service interrupts Optional ROM on chip when codes are stable; NP is ROM or CPU-only, NU is CPU-only Solutions. Provides single-chip solutions Up to 1,000-byte-register RAM Performance. Fast data manipulation with register space Up to 31 prioritized interrupt sources Flexibility. Handles a variety of commands NP/NU feature dynamic demux/mux address/data bus and chip Performance. Fast external memory access using commodity or unit with six chip select pins; NP supports 3V operation low-cost memory devices; allows for glueless memory interface; NU provides a clockdoubled performance increase over all MCS(R) 96 microcontroller devices and approximately twice the performance of the C196NP Integrated Flash and CAN on 88CO196EC Integration. Attractive solution where can and/or Flash memory is required, enabling easy upgrade for current 96 users based on the same architecture 169 170 Microcontrollers developer.intel.com/design/mcs96 MCS(R) 96 Microcontroller Family--Integrated CAN 2.0 88CO196EC Microcontroller he Intel(R) 88CO196EC contains a highly integrated set of functions, including the CAN2.0 in-vehicle networking protocol, plus an SDU, stack monitor, 16-channel A/D converter, and an enhanced EPA. With the SDU, designers can set a hardware breakpoint for debugging purposes, plus read and write code RAM as well as program the Flash memory through a high-speed, dedicated serial link. The stack monitor detects stack overflow and underflow conditions and invokes a nonmaskable interrupt if the stack pointer crosses a user defined boundary. The enhanced EPA, capable of transmitting and receiving Pulse Width Modulation (PWM) signals, handles high-speed input and output events with reduced overhead and trigger A/D conversions. The 16-channel, 8- or 10-bit A/D converter, with an individual register for each channel, supports an auto-scan mode and consumes no CPU overhead. T MCS(R) 296 Microcontroller--Advanced 16-Bit Controller with DSP Capability ntel's MCS(R) 296 microcontroller is the latest addition to the Intel MCS 96 microcontroller family. The 80296SA is performance enhanced compared to the 8XC196NP and 8XC196NU controllers. The 80296SA is designed to be binarycode compatible with the 8XC196NP/NU products, and can be directly dropped into an 8XC196NP/NU socket with an immediate boost to system performance. The 80296SA exhibits improved math performance over previous architectures making it suitable for embedded digital signal processing and feedback control systems. The 80296SA can perform at 12.5 DSP MIPS and 16 general-purpose MIPS. The 80296SA has 512 bytes of register RAM and 2 Kbytes of code/data RAM and utilizes the same peripherals as the 8XC196NP/NU. Additionally, like the 8XC196NU, the 80296SA includes a phase-lock loop. With this peripheral, an external clock drives the device at one-half or one-quarter the maximum internal clock frequency allowing the system to use low-frequency external clock or oscillators while maintaining the maximum internal operating frequency. Enhancements to the chip select unit, the interrupts, and the timers are also implemented. The MCS 96 windowing scheme was enhanced in the 80296SA to include the windowing of some external memory locations for direct addressing, thus improving the overall efficiency of external memory instructions. I FEATURES BENEFITS 50 MHz Operation Speed. Higher performance Binary-code compatible with Intel's 8XC196NU/NP Cost. Protect existing software investment microcontrollers Pipelined architecture/reduced execution states Faster. Up to five times faster than the 8XC196KC20 6 Mbyte of address space Memory headroom. More memory headroom for high-level language compilation 2 Kbytes code/data RAM High-speed code memory. More space to store data 40-bit accumulator Added signal processing capability. Multiply and accumulate executes in 80 ns using 40-bit hardware accumulator. Useful in signal processing and feedback control system 512 bytes register RAM Fast data manipulation. Within register space MCS(R) 296 Microcontroller Development Tools he Intel MCS 296 controller is complemented by an extensive set of hardware and software tools from Intel and leading third-party development tool vendors. Software development is supported by ANSI C compiler, assembler, linker/locator, debugger, and simulators from Tasking, IAR, and ChipTools. Hardware design and debug is supported by In-Circuit Emulators from Nohau*. Product evaluation is facilitated using Intel's 296SA Eval Kit. This kit includes a board, debug monitor, and evaluation copies of third-party software development tools to facilitate code development and execution. T developer.intel.com/design/mcs96 Microcontrollers MCS(R) 96 Microcontroller Development Tools The Intel MCS 96 microcontroller product family is supported by a variety of development tools, and evaluation boards. Complete sets of development tools and C compilers are available from third-party vendors. Third-party vendors also support development tools for in-circuit emulation. For more information about development tools support, contact your Intel sales representative or visit the Web site at: http://appzone.intel.com/toolcatalog/ MCS(R) 96 Microcontroller family--CAN Product family ntel has developed a complete product family that supports the Controller Area Network (CAN) protocol. Intel offers the CAN capability as either a standalone communications controller or integrated onto high-performance 16-bit Microcontroller. CAN is a development of Robert Bosch GmbH and was designed specifically for high-speed in-vehicle networking. CAN is widely accepted in automotive applications and supports high-speed networking standards such as DeviceNet* and SDS*, that are used in industrial control and factory automation. CAN utilizes a multi-master bus configuration for the transfer of communication objects between nodes of the network. All members of the Intel(R) CAN product family utilize the features of the 82527-standalone communications controller and are software compatible. They all support the standard and extended message identifier CAN specification 2.0 part B. I CAN--Standalone Communications Controller--82527 he 82527 serial communications controller, which is a joint development of Robert Bosch GmbH and the Intel Corporation, is a highly integrated device that performs serial communication according to the CAN protocol. It features advanced message filtering, I/O port reconstruction, and storage for 15 message objects and multiple CPU interface options. T FEATURES BENEFITS CAN specification 2.0 Capable of transmitting, receiving, and performing message filtering on extended message frames Programmable global mask Allows users to globally mask any identifier bits of the incoming message. Two 8-bit bidirectional I/O Ports Two 8-bit I/O ports for communication with external peripherals/CPU, allowing two-way communications Flexible CPU Interface Ability to directly interface with many different CPUs Programmable message objects of 8-byte data length Message object can be configured as either transmit or receive CAN--16-bit Microcontroller with Integrated CAN ntel has combined the 82527 CAN protocol controller with the industry-standard MCS(R) 96 16-bit Microcontroller architecture on one chip. The result is a family of integrated Microcontrollers well suited for a variety or real-time event control applications that require high-speed networking. Integrating CAN on the CPU decreases printed circuit board area, allows faster access to CAN messages and reduces overall system cost. All members of the MCS 96 family have bit, byte, word and some 32-bit operations. The 87C196CA and 87C196CB microcontrollers with integrated CAN provide an upgrade path for the members of the 87C196Kx/87C196Jx families. I 171 172 Microcontrollers developer.intel.com/design/mcs96 16-bit Microcontroller with Integrated CAN-TN87C196CA N87C196CA has a similar memory and peripheral set similar to the 87C196JT including 32Kbytes of on-chip OTPROM, 1Kbytes of on-ship register RAM and 256 bytes of code RAM. This product is suited for applications requiring real-time event control such as anti-lock braking systems, 4-cylinder engine control and programmable logic controllers. T FEATURES BENEFITS Integrated CAN 2.0 Built-in CAN 2.0 capability, reducing overall application cost 6 high-speed capture/compare EPAs High-resolution timing of multiple events Up to 38 I/O ports High interface potential with external peripherals Full duplex synchronous serial I/O port (SSIO) Enables communication with other SSIO-equipped peripherals Configurable 8- or 16-bit external bus Works with various external peripherals vs. just 8 or 16-bit peripherals 16-bit Microcontroller with Integrated CAN-TN87C196CB N87C196CB is a highly integrated superset of the 87C196CA. It contains all 87C196CA features, and additional memory, more I/O capability, user-selectable 4X PLL clock multiplier and additional features. The 87C196CB provides a compatible upgrade path for the 87C196CA applications, such as 4 or 6 cylinder engine control, integrated vehicle dynamics, programmable logic controllers and motor controls. T FEATURES BENEFITS Integrated CAN 2.0 Built-in CAN 2.0 capability, reducing overall application cost Up to 56 I/O port Pins Extremely high interface potential with external peripherals 1 Mbytes external addressing More memory headroom for high-level language compilation 4X PLL Clock multiplier Greater flexibility in choosing an external clocking source 56 Kbytes on-chip OTPROM Highest internal memory available for all Intel(R) 16-bit controllers 1.5 Kbytes on-chip register RAM Fast data manipulation with register space developer.intel.com/design/mcs96 M C S(R) 9 6 MICROCONTROLLER LINE Microcontrollers CARD PRODUCT SPEED (MHz) ROM/ OTPROM REGISTER RAM CODE RAM I/O PINS I/O TYPE SERIAL PORTS ANALOG INPUT CHANNELS ADDRESS SPACE PKG TEMP KEY FEATURES HSIO FAMILY 8XC196KB 16 168K 232 NO 48 HSIO 1 8 64K C, E, A Low-cost entry level, suitable for replacing NMOS 8X9X 8XC196KC20 20 16K 488 NO 48 HSIO 1 8 64K C, E, A 16K OTPROM, 488-byte RAM 3-PWM, PTS 8XC196KD/ 16, 20 32K 1000 NO 48 HSIO 1 8 64K C, E, A 32K OTPROM, 1000-byte RAM Version of KC E PTS, PWM, 3-Phase Waveform Generator E MC Enhancement with Frequency Generator E Enhanced 3-Phase Waveform Generator with 32K EPROM N-68 N-84 NG-132 S-100, SB-100 S-100, SB-100 N-68 E E C,E C Integrated CAN 2.0 controller Integrated CAN 2.0, 1 MB linear address range, 2K RAM Integrated CAN 2.0, 256 Kbytes on chip Flash 1 MB Linear Address Range, Low Power, 6 Chip select, 3 PWMs, Demux bus 3V at 14 MHz version of 8XC196NP S-100, SB-100 S-160 C N-68, S-80 N-68, S-80, SB-80 N-68, S-80, SB-80 8XC196KD20 Timer Counters = 2; Once Test Mode = Yes; Process = CMOS MOTION CONTROL FAMILY 8XC196MC 16 16K 488 NO 53 8 EPA PTS MODE 13 64K 8XC196MD 16 16K 488 NO 64 12 EPA PTS MODE 14 64K 8XC196MH 16 32K 744 NO 52 6 EPA 2 8 64K N-84, S-80, U-64 N-84, S-80 N-84, S-80, U-64 Timer Counters = 2; Once Test Mode = Yes; Process = CMOS EPA Family 87C196CA 87C196CB 88CO196EC 8XC196NP 20 20 40 25 32K 56K 0 4K 1000 1.5K 1.26Kb 1000 256 512 275 NO 44 56 59 32 6 EPA 10 EPA 15 EPA 4 EPA 2 2 3 1 6 8 16 0 64K 1M 2 MB 1 MB 8XL196NP 14 4K 1000 NO 32 4 EPA 1 0 1 MB 8XC196NT 20 32K 1000 512 56 10 EPA 2 4 1 MB 80C196NU 40, 50 0 1000 NO 33, 32 4 EPA 1 0 1 MB 80C196EA 40 0 1K 3K 83 17 EPA 3 16 2M C C, E C High performance and highly integrated controller with 1 MB Address Range 1 MB Linear Address Range, 6 Chip Selects, 3 PWMs, Demux bus Highly integrated NU-core Controller with Serial Debug Unit Timer Counters = 2, except 83C196EA = 4; Once Test Mode = Yes; Process = CMOS M C S(R) 2 9 6 PRODUCT PROCESSOR SPEED (MHz) ROM/ OTPROM MCS 296 Microprocessor Line card 80296SA 40, 50 0 LINE CARD REGISTER RAM CODE RAM I/O PINS I/O TYPE SERIAL PORTS ANALOG INPUT CHANNELS ADDRESS SPACE PKG TEMP KEY FEATURES 512 2K 32 4 EPA 1 0 6M C 6 MB Linear Address Range, 6 Chip selects, 3 PWM, 40-bit Hardware Accumulator (R) S-100 Timer Counters = 2; Once Test Mode = Yes; Process = CMOS 82527 CAN STANDALONE LINE CARD PRODUCT CAN VERSION I/O PORTS BIT RATE MESSAGE OBJECTS 82527 2 Two 8-bit Ports Up to 1 Mbit 14 (one with programmable mask) Yes Packages: C = 48L Ceramic DIP N = 68L PLCC N-52 = 52L PLCC N-68 = 68L PLCC N-84 = 84L PLCC P = 68L Plastic DIP R = 68L Ceramic LCC S = 80L QFP (EIAJ) S-100 = 100L QFP SB-100 = 100L SQFP U = 64L Shrink DIP GLOBAL MASK PROGRAM CLOCKOUT CPU INTERFACE Yes 8-bit MUX, 16-Bit MUX 44ld PLCC 8-bit Non-MUX (sync/async) Temperature Ranges: C = Commercial (0 to 70 degrees C) E = Extended (-40 to 85 degrees C) A = Automotive (-40 to 125 degrees C) To receive more information on Intel's Automotive Products, call (800) 548-4725 and ask for document #272452-01, "The Winning Formula Automotive Brochure." PACKAGE TEMPERATURE E 173 174 Microcontrollers developer.intel.com/design/mcs251 MCS 251 Microcontrollers (R) THE NEXT-GENERATION MICROCONTROLLERS U sing advanced modular design techniques, Intel launched the next generation of its 8-bit (80c51) architecture-- MCS(R) 251 microcontroller. The MCS 251 microcontroller delivers significantly higher performance of minimum five times simply by recompiling your existing MCS(R) 51 code, and offers a host of other enhanced features including an increase in memory mix and addressing, low power and noise, efficient high-level language support, an enhanced instruction set and other integrated features. Most importantly, the new architecture maintains binary code and pin compatibility with existing MCS 51 microcontrollers. The MCS 251 microcontrollers will deliver even greater performance through its enhanced and optimized 251 instruction set with no hardware changes to your existing MCS 51 microcontroller application. FEATURES 8XC251SA/SB/SP/SQ 8XC251TB/TQ BENEFITS New core architecture Up to 15X performance increase using new MCS 251 microcontroller instructions Significantly reduce RFI Increase efficiency and support of C language programming Binary code and pin compatible with MCS 51 microcontroller 8 Kbytes/16 Kbytes on-chip Flexibility in using different memory options in development and ROM/OTPROM or ROMless version production Programmable Counter Array (PCA) supports High-speed output Real-time capture and compare PWM Flexibility and performance enhancement in real-time control applications such as: - Measurement of duty cycle, phase difference and frequency - Real-time interrupt generation and output toggling - Adjustable duty cycle generation Hardware watchdog timer Increased system reliability Page mode configuration Increases the performance for external instruction fetch by 2X Programmable wait-states (0-3) external wait-pin capability Flexibility in external memory and peripheral interface configuration and Allows the use of either fast or slow memory Support seven interrupt sources, each with four interrupt priority levels Increased flexibility for event control applications 256 Kbytes external memory space Increased capability and flexibility to handle large software requirements 512/1 Kbyte on-chip RAM Increased internal memory capacity for data manipulation and C language support Hardware investment protected Reduce development time with backward-compatible MCS(R) 51 microcontroller instruction set developer.intel.com/design/mcs251 Microcontrollers MCS(R) 251 Microcontrollers ntel(R) 8XC251SA/SB/SP/SQ and Intel(R) 8XC251TB/TQ microcontrollers provide the performance upgrade path to existing MCS 51 microcontroller with the New Instruction Pipeline, 16-bit internal code fetch and page mode capability giving a performance edge over other microcontrollers. It also has an interface provision for slower external peripherals through its unique configurable wait-states and external wait-pin capability. This significantly reduces RFI design consideration. It also has the ability to execute C code efficiently and coupled with larger RAM size options to enable complex applications thus shortening applications design and qualification time. The Intel 8XC251TB/TQ is based on the MCS 251 microcontroller architecture and has ALL of the Intel 8XC251SA/SB/SP/SQ peripheral features plus a second programmable serial I/O port (UART). In addition, the Intel 8XC251TB/TQ microcontroller can perform up to 24 MHz frequency and maintains pin and code compatibility with MCS 51/151/251 microcontrollers. Similar with the Intel 8XC251SA/SB/SP/SQ, the Intel 8XC251TB/TQ has 512 bytes or 1 Kbyte of on-chip data RAM options, 8 Kbytes and 16 Kbytes of on-chip ROM or ROMless options, and is available in 44LD PLCC and 40LD PDIP package options. The Intel 8XC251TB/TQ and Intel 8XC251SA/SB/SP/SQ microcontrollers are an ideal performance upgrade path for all existing MCS 51 microcontroller applications. The high-performance architecture and the advanced features available in the Intel 8XC251TB/TQ and Intel 8XC251SA/SB/SP/SQ also make them ideally suited for applications requiring complex data manipulation functions and real-time control capability such as printers, copiers, scanners, CD-ROM drives, tape drives, POS terminals, modems, digital phones, cellular/wireless handsets and line cards. I Development Tools and Programming Tools ntel offers design engineers a variety of hardware and software development tools from some of the industry's leading tools suppliers. High performance, Windows*-based software, full featured, real-time emulators along with flexible, fully integrated device programming support is available from many of the familiar suppliers currently supporting the MCS 51 microcontroller architecture. High-performance Windows-based development tools are also available from BSO/Tasking, Franklin/Keil and Production Languages Corporation (PLC). These high-quality tools include ANSI C Compilers, Macro Assemblers, Source Level Debuggers, Object Librarians, Linker/Locators and Instruction Simulators. Full-featured, real-time emulators featuring DOS* or Windows-based user interface and a variety of host hardware interfaces are offered by Metalink Corporation* and Nohau Corporation. Flexible, fully integrated device programming support for advanced designs is available from BP Microsystems*, Data I/O*, Needham*, SMS Mikrocomputer-Systeme GmbH*, and System General Corporation*. I 175 176 Microcontrollers M C S(R) 2 5 1 developer.intel.com/design/mcs251 MICROCONTROLLER LINE CARD PRODUCT ROM/ EPROM (BYTES) REGISTER RAM (BYTES) TIMER/ SERIAL COUNTERS PORT ANALOG INPUT I/O CHANNELS PINS SPEED (MHz) PROCESS PACKAGE SECURITY TEMP KEY FEATURES 87C251SA 8K 1K 3 0 16 CHMOS P, N, TN, TP L3 C, E High-Performance MCS(R) 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT 1 32 87C251SB 16K 1K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 87C251SP 8K 512K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 87C251SQ 16K 512K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 83C251SA 8K 1K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 87C251SA, ROM 83C251SB 16K 1K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E High-Performance MCS 251 Architecture, PCA, H/W WDT 87C251SB, ROM 83C251SP 8K 512K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E High-Performance MCS 251 Architecture, PCA, H/W WDT 87C251SP, ROM 83C251SQ 16K 512K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E High-Performance MCS 251 Architecture, PCA, H/W WDT 87C251SQ, ROM 80C251SB ROMless 1K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 80C251SQ ROMless 512K 3 1 0 32 16 CHMOS P, N, TN, TP L3 C, E 83C251TB 16K 1K 3 2 0 32 24 CHMOS P, N, TN, TP L3 C, E 83C251TQ 16K 512K 3 2 0 32 24 CHMOS P, N, TN, TP L3 C, E 80C251TB ROMless 1K 3 2 0 32 24 CHMOS P, N, TN, TP L3 C, E 80C251TQ ROMless 512K 3 2 0 32 24 CHMOS P, N, TN, TP L3 C, E High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT High-Performance MCS 251 Architecture, PCA, H/W WDT PACKAGE OPTIONS: D = 40LD CerDIP, Ku = 100LD QFP (Quad Flat Pack), N = 44LD PLCC, N1 = 68LD PLCC, P = 40LD PDIP, P1 = 48LD PDIP, S = 44LD QFP (Quad Flat Pack), Sb = 100LD SQFP (Shrink Quad Flat Pack), X = SmartDie(R): Product, P = 40 Lead Plastic Dual Inline Package at commercial temp, N = 44 Lead Plastic Chip Carrier at commercial temp, TN = 44 Lead Plastic Chip Carrier at express temp, TP = 40 Lead Plastic Dual Inline Package at express temp TEMPERATURE RANGES: C = Commercial (0C to +70C), E = Extended (-40C to +85C), A = Automotive (-40C to +125C). To receive more information on Intel's Automotive Products, call (800) 548-4725 and ask for document #272452-01, "The Winning Formula Automotive Brochure." Speed (MHz): * = commercial temperature range only. Security: L1 = 1 Lock Bit, L2 = 2 Lock Bits, L3 = 3 Lock Bits, P = Protection NOMENCLATURE: 83C51xx = Mask ROM, 80C5x = Mask ROM, 87C51xx,ROM = FPROM, 87C5x,ROM = FPROM, 87Cx51,ROM = Factory Program ROM Where available, order Factory Programmed ROM (FPROM) Additional product information is always available at http://developer.intel.com/design/mcs51/ developer.intel.com/design/mcs51 Microcontrollers MCS 51 Microcontrollers (R) THE ORIGINAL 8-BIT MICROCONTROLLERS I ntel's 8-bit MCS(R) 51 microcontroller family consists of CHMOS versions of the original NMOS 8-bit microcontrollers. The MCS 51 microcontroller architecture is optimized for control-oriented applications and provides a variety of fast addressing modes for accessing the internal RAM facilitates byte processing and numerical operations on small data structures. The instruction set provides an extremely useful spread of 8-bit arithmetic instructions, including multiply and divide instructions, logical instructions as well as extensive on-chip support for 1-bit variables as a separate data type, allowing direct bit manipulation and testing in control and logic systems that require Boolean processing. Intel offers a wide variety of MCS 51 controllers with different levels of on-chip peripherals and memory. The MCS 51 microcontroller family includes versions with on-chip EPROM, One-Time Programmable (OTP) and ROM memory, as well as CPU-only microcontrollers. Intel's proven CHMOS technology provides lower power, higher integration and higher performance for the MCS 51 product line. FEATURES COMMON TO ALL MCS(R) 51 PRODUCTS BENEFITS 8-bit CPU optimized for event control Efficient. Event control design Boolean processing Ease. Simple bit manipulation Flexibility. Enables single-chip designs On-chip peripherals (timer/counters, serial ports, I/O ports, PCA, etc.) Integration. High integration enables low-cost and low-chip-count designs Extensive software and hardware programming support Easy to use. Simplifies your design cycle MCS(R) 51 Microcontroller Family--Classic ntel's 8-bit MCS 51 Classic family is a leading choice for embedded control. Intel offers a wide variety of on-chip memory in both EPROM and ROM options, as well as CPU-only microcontrollers. Intel's proven CHMOS technology provides lower power, higher integration and higher performance. I FEATURES FOUND ON MCS(R) 51 CLASSIC PRODUCTS BENEFITS 8-bit CPU optimized for event control Efficient. Event control design Boolean processing Ease. Simple bit manipulation On-chip memory (up to 32K) Solutions. Enables single-chip designs On-chip peripherals (timer/counters, serial ports, PCA, etc.) High integration. Enables low-cost and I/O ports, low-chip-count designs MCS(R) 51 Microcontrollers--Expanded RAM he 8XC51RA/RB/RC provides additional on-chip RAM from 256 to 512 bytes, making these products ideal if your application requires large on-chip data storage. The Expanded RAM family is peripheral-compatible with the 8XC51FX product line. T FEATURES FOUND ON MCS(R) 51 EXPANDED RAM PRODUCTS BENEFITS Expanded internal RAM (512 byte) size Synergy. More working space on chip, breaks the 256-byte limitation Dedicated hardware watchdog timer Control. Improved system integrity control Functionally compatible with other MCS(R) 51 microcontrollers Compatibility. Easy migration of existing designs On-chip peripherals (timer/counters, serial ports, I/O ports, etc.) High integration. Enables low-cost and low-chip-count designs 177 178 Microcontrollers developer.intel.com/design/mcs51 MCS(R) 51 Microcontroller Development Tools omplete sets of development utilities and C compilers are available through third-party vendors. Many third-party vendors also provide in-circuit emulator development tools. For more information about development tools support, log on to http://developer.intel.com/design/mcs51, or contact your Intel sales representative. C M C S(R) 5 1 CLASSIC FAMILY MICROCONTROLLER LINE CARD PRODUCT ROM/ EPROM (BYTES) REGISTER RAM TIMER/ SERIAL (BYTES) COUNTERS PORT ANALOG INPUT I/O SPEED CHANNELS PINS (MHz) PROCESS PACKAGE SECURITY TEMP KEY FEATURES 80C31BH 80C51BH 87C51 80C32 80C52 87C52 87C58, ROM 87C58 80C51FA ROMless 4K ROM 4K EPROM/OTP ROMless 8K ROM 8K EPROM/OTP 32K ROM 32K EPROM/OTP ROMless 128 128 128 256 256 256 256 256 256 2 2 2 3 3 3 3 3 3 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 32 32 32 32 32 32 32 32 32 16, 24 12, 16, 24 16, 24 16, 24 12, 16, 24 16, 24 12, 16, 24, 33 16, 24, 33 16, 24, 33 CHMOS CHMOS CHMOS CHMOS CHMOS CHMOS CHMOS CHMOS CHMOS D, N, P, S N, P, S D, N, P, S N, P, S N, P, S D, N, P, S N, P, S D, N, P, S D, N, P, S N/A P L3 N/A L1 L3 L1 L3 N/A C, E C, E C, E C, E C, E C, E C, E C, E C, E 83C51FA 8K ROM 256 3 1 0 32 12, 16, 24 CHMOS N, P, S L1 C, E, A 87C51FA 8K EPROM/OTP Power Save Modes Power Save Modes Three-Level Memory Lock Up-Down Timer/Counter Up-Down Timer/Counter Up-Down Timer/Counter Up-Down Timer/Counter Up-Down Timer/Counter Programmable Counter Array (PCA), Prog. Clock Out Programmable Counter Array (PCA), Prog. Clock Out Programmable Counter Array (PCA), Prog. Clock Out Programmable Counter Array (PCA), Prog. Clock Out Programmable Counter Array (PCA) Prog. Clock Out Programmable Counter Array (PCA), Prog. Clock Out Programmable Counter Array (PCA), Prog. Clock Out 256 3 1 0 32 16, 24, 33 CHMOS D, N, P, S L3 C, E, A 87C51FB, ROM 16K ROM 256 3 1 0 32 12, 16, 24, 33 CHMOS N, P, S L1 C, E, A 87C51FB 256 3 1 0 32 16, 24, 33 CHMOS D, N, P, S L3 C, E, A 87C51FC, ROM 32K ROM 256 3 1 0 32 12,16, 24, 33 CHMOS D, N, P, S L1 C, E, A 87C51FC 256 3 1 0 32 16, 24, 33 CHMOS D, N, P, S L3 C, E, A PACKAGE SECURITY TEMP 16K EPROM/OTP 32K EPROM/OTP M C S(R) 5 1 PRODUCT EXPANDED ROM/ EPROM (BYTES) RAM FAMILY REGISTER RAM TIMER/ SERIAL (BYTES) COUNTERS PORT LINE ANALOG INPUT I/O SPEED CHANNELS PINS (MHz) CARD PROCESS KEY FEATURES 80C51RA ROMless 512 3 1 0 32 16, 24 CHMOS N, P, S N/A C, E Expanded RAM, Prog. Clock out, H/W WDT 87C51RA, ROM 87C51RA 8K OTP 512 3 1 0 32 16, 24 CHMOS N, P, S L3 C, E Expanded RAM, Prog. Clock out, H/W WDT 87C51RB, ROM 87C51RB 16K OTP 512 3 1 0 32 16, 24 CHMOS N, P, S L3 C, E Expanded RAM, Prog. Clock out, H/W WDT 87C51RC, ROM 87C51RC 32K OTP 512 3 1 0 32 16, 24 CHMOS N, P, S L3 C, E Expanded RAM, Prog. Clock out, H/W WDT PACKAGE OPTIONS: D = 40LD CerDIP, Ku = 100LD QFP (Quad Flat Pack), N = 44LD PLCC, N1 = 68LD PLCC, P = 40LD PDIP, P1 = 48LD PDIP, S = 44LD QFP (Quad Flat Pack), Sb = 100LD SQFP (Shrink Quad Flat Pack), X = SmartDie(R): Product, P = 40 Lead Plastic Dual Inline Package at commercial temp, N = 44 Lead Plastic Chip Carrier at commercial temp, TN = 44 Lead Plastic Chip Carrier at express temp, TP = 40 Lead Plastic Dual Inline Package at express temp TEMPERATURE RANGES: C = Commercial (0C to +70C), E = Extended (-40C to +85C), A = Automotive (-40C to +125C). To receive more information on Intel's Automotive Products, call (800) 548-4725 and ask for document #272452-01, "The Winning Formula Automotive Brochure." Speed (MHz): * = commercial temperature range only. Security: L1 = 1 Lock Bit, L2 = 2 Lock Bits, L3 = 3 Lock Bits, P= Protection NOMENCLATURE: 83C51xx = Mask ROM, 80C5x = Mask ROM, 87C51xx,ROM = FPROM, 87C5x,ROM = FPROM, 87Cx51,ROM = Factory Program ROM Where available, order Factory Programmed ROM (FPROM) Additional product information is always available at http://developer.intel.com/design/mcs51/ developer.intel.com/design/interconnect/ Microcontrollers Interconnect Devices PRODUCT OVERVIEW T he Intel(R) Interconnect Devices provide a combination of flexible integration options, functionality and reliability that helps ensure optimum system-level performance and customer satisfaction. Intel(R) PC Card (PCMCIA) controllers provide a flexible, compact, and reliable solution for software transport, memory upgrade and peripheral connectivity in communications devices and embedded systems. Serial Controllers are I/O data communication devices for network applications. Parallel Controllers are IEEE 1284-compatible parallel I/O data communication products for peripheral applications. WAN Controllers enable leased line, dial-up and packet-based WAN connections for a broad range of communications applications. PRODUCTS CONTROLLER CATEGORY OPERATING TEMPERATURE PACKAGE EVALUATION KIT DESCRIPTION DZPD6710VCB SPD6722QCCE SPD6729QCE SCD140010QCJ SCD186510QCB SCD128310QCE SCD128410QCE SCD240110QCM SCD248110QCD PC Card/PCMCIA PC Card/PCMCIA PC Card/PCMCIA Serial Serial Parallel Parallel WAN WAN Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) Commercial (0C to +70C) LQFP 144 pin MQFP 208 pin MQFP 208 pin MQFP 100 pin MQFP 100 pin MQFP 100 pin MQFP 100 pin MQFP 100 pin MQFP 100 pin PDK6710ADM12 PDK6722ADM16 PDK6729ADM14 CDK1400JAT01A CDK1865BAT01A CDK1284EAT02A CDK1284EAT02A CDK2401MAT03B CDK2481DAT03B ISA to PC Card Single-slot ISA to PC Card Dual-slot PCI to PC Card Dual-slot 4 async serial channels at 230.4 Kbps or 3 serial ports and 1 parallel port 8 async serial channels at 115.2 Kbps IEEE 1284 IEEE 1284, 2 serial channels at 115.2 Kbps 4 async/sync serial channels at 134.4 Kbps 4 async/sync serial channels at 230.4 Kbps PC Card (PCMCIA) Applications Routers, bridges, network switches Printers Test equipment Portable handheld systems Remote access servers Terminal servers POS terminals Video conferencing using Zoom Video DSLAMs (digital subscriber line access multiplexers) Vending machines Integrated access devices PBXs Set-top, Internet boxes Navigation systems Serial Controller Applications General-purpose, multi-channel serial communications Remote access servers Terminal servers POS terminals Multiport async cards 179 180 Microcontrollers developer.intel.com/design/interconnect/ Parallel Controller Applications Printers Scanners Copiers Backup systems Industrial control systems Multi-function devices Set-top boxes with printer port WAN Controller Applications Branch office routers Remote access servers Terminal servers Protocol converters developer.intel.com/platforms/applied/software/devsoft.htm Software Software SOFTWARE FOR EID PRODUCTS E mbedded Intel(R) Architecture (EIA) system software support is a key platform building block. Software building blocks from Intel such as the Intel(R) Embedded Computing Firmware Library eases development of EIA designs for faster timeto-market. Enabling software such as device drivers help deliver maximum performance for the advanced features offered on EIA silicon. Intel(R) Embedded Computing Firmware Library he high rate of technology evolution makes it critical to get to market quickly with innovative, high-performance, connected devices. These sophisticated systems must also meet increasingly demanding application requirements and tighter budget controls. Developers regularly face challenges that threaten their ability to meet schedule, feature, and cost goals. One large challenge is in the area of system initialization. Many applied computing platforms don't require the full set of features provided in a standard PC BIOS. The problem is that developing initialization code is difficult and timeconsuming. Intel Embedded Computing Firmware Library can help. Intel Embedded Computing Firmware Library provides a set of libraries and tools that perform core level initialization of the processor, chipset and memory. Intel Embedded Computing Firmware Library lets developers implement only the components they need, resulting in faster boot times and a smaller memory footprint. In addition, Intel Embedded Computing Firmware Library can significantly reduce the time and cost associated with developing and validating system initialization modules. Currently, Intel Embedded Computing Firmware Library provides support for component-level initialization of the Intel(R) Pentium(R) III, Intel(R) Pentium(R) II and Intel(R) Celeron(R) processors, SDRAM, the Intel(R) 440BX AGPset, Intel(R) 440MX chipset, Intel(R) 815 and Intel(R) 815E chipsets and the Intel(R) E7500 chipset. It presents a simple, clean, 32-bit API consistent with common embedded programming practices regardless which Intel(R) processor or chipset is being utilized. Figure 1 shows the Intel Embedded Computing Firmware Library version 2 architecture. The API provides an abstraction of the processor and chipset so that if these components change, the developer is no longer required to update any of the "additional initialization code" that may have been developed. Instead, the developer downloads only the version of Intel Embedded Computing Firmware Library supporting the Intel processor and chipset selected for the new design. T Boot Sequence Reset and Mode Switch Basic Initialization Script Shell, Application, Loader, RTOS BSP or other customer FW Advanced Initialization Script Library PCI Legacy Real Mode Console GDB ATA C-Lib Subset Flash Manager Others... API and Services Drivers Processor Chipset Super I/O Flash Binary Source Figure 1: Intel(R) Embedded Computing Firmware Library Block Diagram 181 182 Software developer.intel.com/platforms/applied/software/devsoft.htm Intel Embedded Computing Firmware Library has the following features: Memory and memory controller initialization Processor cache initialization, configuration and control Initialization of multi-processor system including Hyper-Threading processors Installation of processor updates Querying of hardware configuration (e.g., installed memory, cache size, etc.) PCI enumeration and resource allocation Support for PCI expansion ROMs enabling video initialization, PXE boot, SCSI boot, etc. IDE initialization and I/O Subset of C library Support for common OS boot loaders GNU debugger (GDB) stub with serial interface which enables early dynamic system test execution, remote debugging of system boot & hardware Basic initialization of most components on selected super I/O chips Easily extensible subset of real-mode interrupts (i.e., BIOS services) System management mode support Interrupt handling Local and remote consoles with user-extensible, command line shell Update boot flash via serial port using YMODEM Enabling Software nabling software consists of software and tools used to realize maximum performance from Embedded Intel Architecture (EIA) processors and of software, typically referred to as device drivers, used to deliver maximum performance from the features provided by the EIA chipsets. E developer.intel.com/platforms/applied/software/devsoft.htm Software Processor Enabling Software rocessor enabling software consists of software tools and utilities used to optimize the application software and operating systems which are targeted to run on a platform with an EIA processor. The following steps may be taken in order to fully optimize any software product for EIA processors: 1. Incorporate Intel(R) Performance Libraries in the software source code to take advantage of the special processor features. See http://developer.intel.com/software/products/perflib/ for additional details. 2. Use Intel(R) Compilers (now with embedded extentions) to compile the software source code to take advantage of special processor instruction sets, such as SSE2. See http://developer.intel.com/software/products/compilers/ for additional details. 3. Use Intel(R) VTuneTM Performance Analyzers to optimize the software source code flow such that the resultant compiled binary performs significantly better. See http://developer.intel.com/software/products/vtune/ for additional details. 4. Use Intel's Threading Tools to add parallelism to software if it is targeted for a Multi-Processing system or for a processor which supports Hyper-Threading Technology. See http://developer.intel.com/software/products/threadtool.htm for additional details. These steps apply to any software designated for a platform with an EIA processor, including operating systems. For example, the Intel Compilers may be used to compile the Linux* operating system kernel in place of the standard Gnu C Compiler for improved performance. Table 1 identifies the operating systems that have specific processor feature support available. P Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 OPERATING Microsoft Windows* XP Embedded PER Microsoft Windows NT* Embedded SUPPORTED Microsoft Windows* XP FEATURES Microsoft Windows* 2000 PROCESSOR Microsoft Windows* 98SE 1 Microsoft Windows NT* 4.0 TABLE Hyper-Threading Technology (Intel(R) Pentium(R) 4 Processor feature) N N Y1 Y1 N Y1 N N Y Y2 N Physical Address Extension (36-bit addressing) N N Y3 Y3 N Y3 N N Y4 N N5 Major Processor Features SYSTEM 1 See http://www.microsoft.com/windows2000/server/evaluation/performance/reports/hyperthread.asp for more information Hyper-Threading Technology supported as loosely coupled asynchronous multiprocessing design. See http://www.microsoft.com/hwdev/platform/server/PAE/default.asp for more information 4 See http://www.intel.com/idf/us/fall2002/presentations/DES124PS.pdf for more information 5 Neutrino v6.2.1 provides support for PAE with an explicit model - apps/drivers can access >4G but kernel does not manage this space 2 3 Chipset Enabling Software (Device Drivers) he device drivers for the EIA chipsets and components improve performance and expose features, such as USB 2.0, ATA/100, or Gigabit LAN. Typically each operating system vendor will provide, with the distribution of their operating system, a set of "native" device drivers which support many of the standard features available on the EIA chipsets which were common at the time of the OS release. For example, Microsoft Windows* 2000 provides native drivers for the integrated graphics available on the Intel 815 Chipset, while Microsoft Windows NT* 4.0 will use the default native VGA drivers. In addition, Intel offers the Intel(R) Embedded Graphics Driver for the Intel(R) 815/815E, 845GV, 852GME, and 855GME Chipsets which may be installed on either Microsoft Windows XP, eXP, 2000, NT 4.0, CE .NET, and Linux replacing the native drivers and providing enhanced performance and features. T 183 184 Software developer.intel.com/platforms/applied/software/devsoft.htm In some cases driver updates are available from the operating system vendor while in other cases updates are only available from Intel. This section is intended to clarify what device drivers are available for the chipsets which are on EIA Division's roadmap and where updates may be found. In addition, some references are included for Intel(R) Network Adapters. Due to the large variety of operating systems used in embedded markets, only a limited listing is provided. The paragraphs below describe where the drivers for each operating system are typically found; after that there are tables which describe the drivers available for each supported EIA Division chipset. Microsoft* Operating Systems he Microsoft operating systems typically have native device driver support for all Intel(R) chipsets and components up to the time that the operating systems are released. In a few cases, Microsoft will provide Service Packs or may offer Microsoft Windows Updates which include updated drivers that have support for newer features. For example, Windows 2000 was released before USB 2.0 products were widely available. Microsoft has since provided a Service Pack for Windows 2000 that will include drivers for USB 2.0 support. On the other hand, Windows NT 4.0 was released prior to USB 1.1 product availability. Microsoft does not currently, and will not ever, provide any Service Packs that provide USB 1.1 support for Windows NT 4.0. The embedded versions of the Microsoft operating systems, such as Microsoft Windows XP embedded and Microsoft Windows NT embedded, will typically use the same device driver binary as the standard desktop version of the operating system. The primary difference is the method of installation of the driver binary; with a desktop operating system, an install method, such as Plug and Play, is normally used to find and install on initial boot the appropriate drivers for the hardware features that are present on the platform, while for the embedded operating systems, the OEM customer will use a development environment to include the device driver binary as part of an operating system image built prior to initial boot of the target platform. Because of this, different support files are required for the embedded operating system development environment. However, out of the box, the same level of device driver support will be available from Microsoft for both the desktop version and the embedded version of the operating system. For example, Windows NT 4.0 does not have support for USB 1.1, and Windows NT embedded also does not have support for USB 1.1. One distinct exception to the native Intel chipset device driver support under the Microsoft operating systems is the Microsoft Windows CE operating system. There are very few native device drivers available for specific EIA components, and only the most rudimentary support is available for generic services, such as IDE and USB. T TABLE ITEM 2 MICROSOFT* OPERATING SYSTEM DESCRIPTION Microsoft* Updates Microsoft supplied updates, such as Service Packs and patches, to operating system which may include updated or new native device drivers Intel Network Updates and overwrites the Microsoft-supplied native device drivers for Adapter Drivers Intel Network Adapters with newer and more advanced features. Includes Intel(R) PRO/100, Intel(R) PRO/1000, and Intel(R) PRO/Wireless adapters. (R) Intel Chipset Installs chipset INF file which describes to the operating system the capabilities Software Installation Utility of the chipset such that the correct native drivers are loaded. Intel(R) Application Performance software package for Intel(R) desktop PCs which provides improved IDE Accelerator hard drive support for Windows* operating systems, including 48-bit LBA (137+ GB) drive support. (R) (R) Intel 810, Intel 815, Updates and overwrites the Microsoft-supplied native device drivers, if present, and Intel(R) 845GV for the internal graphics of these chipsets. chipsets graphics drivers (R) Intel InfiniBand* Information and tools for developing device drivers for the Intel InfiniBand Architecture resource Architecture. USB 1.1 drivers Drivers which add generic USB support for the operating system (R) USB 2.0 drivers 6 7 8 9 Drivers which add USB 2.0 support for Windows 2000 and Windows XP only DEVICE DRIVER RESOURCES LOCATION APPLICABLE MICROSOFT OS* http://windowsupdate.microsoft.com Desktop Only6 http://support.intel.com/support/network/index.htm All http://support.intel.com/support/chipsets/ Desktop only7 http://support.intel.com/support/chipsets/ All except Windows* CE8 http://support.intel.com/support/graphics/intel815/ and http://support.intel.com/support/graphics/intel810/ and http://support.intel.com/support/graphics/intel845g/ http://www.intel.com/technology/infiniband/index.htm Desktop only9 http://www.bsquare.com/products/devtools/usbwin40/ Windows NT* 4.0 and Windows* NT Embedded Windows 2000, Windows XP, and Windows XP Embedded http://www.microsoft.com/WindowsXP/pro/downloads/ servicepacks/sp1/default.asp or http://www.microsoft.com/windows2000/downloads/ servicepacks/sp3/default.asp All For the embedded operating systems, a new package must be obtained from Microsoft or a Microsoft partner. For the embedded operating systems, the Intel(R) Chipset Software Installation Utility is not used because the developer of the embedded image may choose the specific drivers the operating system will use when developing the OS image. IAA may be installed normally after the Embedded XP or Embedded NT image is created; there are no Embedded components for either of these operating systems. For Microsoft* Windows CE 3.0 and Windows CE .NET, device drivers can be found on FDBL, under Applied Computing -> Products -> Chipsets -> [choose chipset] -> Software. developer.intel.com/platforms/applied/software/devsoft.htm Software Linux* Operating System he Linux operating system is available in source code form free of charge from http://www.kernel.org. The current kernel distribution includes complete support for the majority of the EIA chipsets, with additional support for newer chipsets being added with each new release. Many of the basic device drivers are typically provided with the kernel, and necessary modifications can be made through a source code patch; audio drivers and X server drivers are drivers which are available separately. Linux vendors, such as Red Hat*, Agilent*, MontaVista*, and LynuxWorks*, will adopt the standard Linux kernel distribution, make their own modifications, and then redistribute through their own channels. Therefore, their redistribution will have the same EIA devices supported as the Linux kernel they have adopted. The EIA Division works with the Linux kernel development team to incorporate the support for new features and functionality of EIA chipsets into new kernel distributions when possible; if additional features and functionality is required, Intel FAE/FSE should forward request to the EID Driver Software contact. T TABLE 3 LINUX* OPERATING SYSTEM DEVICE DRIVER RESOURCES ITEM DESCRIPTION LOCATION Official Linux* kernel distribution Intel(R) Network Adapter Drivers Complete source for the Linux operating system which supports a large number of EIA devices Intel(R)-supplied network drivers for the Linux operating system. Note that the kernel distribution does already have Intel network driver support; these drivers are an alternative. Includes Intel(R) PRO/100, Intel(R) PRO/1000, and Intel(R) PRO/Wireless adapters. Most popular open-source X Window System which runs on Linux; support provided for EIA integrated graphics chipsets. Project to provide extensive audio support for the Linux operating system, including support for the EIA chipsets which have integrated AC'97 controllers. Effort to enhance USB support for the Linux kernel; USB 2.0 support has been rolled into the standard Linux kernel distribution 2.4.19 and later Updated compiler provided with Linux kernel distribution; this version provides some Intel(R) Pentium(R) 4 processor optimizations. Information and tools for developing device drivers for the Intel InfiniBand Architecture http://www.kernel.org/ http://support.intel.com/support/network/index.htm Xfree86 Audio driver project USB Project Gnu C Compiler (GCC) 3.1 Intel(R) InfiniBand* Architecture resource http://www.xfree86.org/ http://www.alsa-project.org http://www.linux-usb.org/ http://gcc.gnu.org http://www.intel.com/technology/infiniband/index.htm Other Real Time Operating Systems (RTOSs) ther operating systems that are typically used in embedded applications are WindRiver* VxWorks and QNX* Neutrino. For Intel(R) devices, these vendors will develop and support the device drivers on their own. O Other Embedded Operating Systems here are a large number of other operating systems that are used in embedded applications. The EIA Division does not typically provide driver support for any of these other operating systems. Two of the most popular operating systems which support EIA chipsets include WindRiver VxWorks and QNX Neutrino. For Intel devices, these vendors will develop and support the device drivers individually. T TABLE 4 OTHER EMBEDDED OPERATING SYSTEM DEVICE DRIVER RESOURCES ITEM DESCRIPTION LOCATION WindRiver* VxWorks v5.x QNX* Neutrino v6 Most widely adopted real-time operating system in the embedded industry, according to WindRiver. The QNX RTOS provides a powerful, massively scalable, reliable foundation for embedded systems, according to QNX. Intel provided distribution of network drivers for the Intel(R) 82559ER Ethernet component which includes WindRiver-provided VxWorks drivers. http://www.windriver.com/products/html/vxwks5x.html http://www.qnx.com/products/os/rtos6.html Intel(R) Network Adapter Drivers http://developer.intel.com/design/network/products/lan/controllers/ 82559er.htm 185 186 Software INTEL T (R) developer.intel.com/platforms/applied/software/devsoft.htm EMBEDDED CHIPSET DEVICE DRIVER SUPPORT MATRIX he following tables describe the device driver support provided for the associated Intel(R) Embedded Chipsets. The tables are presented in the following order: Table 5 Intel(R) E7500 and Intel(R) E7501 Chipset--ICH3 south bridge (RGEE7500PL/RGE7501MC + FW82801CA + RG82870P2) Table 6 Intel(R) 845GV Chipset--ICH4 south bridge (RG82845GV + FW82801DB) Table 7 Intel(R) 845E Chipset--ICH4 south bridge (RG82845E + FW82801DB) Table 8 Intel(R) 845 Chipset--ICH2 south bridge (RG82845 + FW82801BA) Table 9 Intel(R) 815E and Intel(R) 810E2 Chipsets--ICH2 south bridge (FW82815E/FW82810E + FW82801BA) Table 10 Intel(R) 840 Chipset--ICH south bridge (FW82840 + FW82801AA) Table 11 Intel(R) 815E and Intel(R) 810E2 Chipsets--CICH south bridge (FW82815E/FW82810E + FW82801E) (the CICH south bridge is not natively supported by any of the Microsoft operating systems. Check FDBL for the Microsoft OS drivers) Table 12 Intel(R) 815 and Intel(R) 810 Chipsets--ICH south bridge (FW82815/FW82810 + FW82801AA) Table 13 Intel(R) 440BX Chipset--PIIX4E south bridge (FW82443BX + FW82371EB) Table 14 Intel(R) 440MX Chipset--Integrated south bridge, PIIX4E compatible (FW82443MX100) Table 15 Intel(R) 430TX Chipset--PIIX4 south bridge (FW82439TX + FW82371EB) Table 16 Intel(R) 430HX Chipset--PIIX3 south bridge (FW82439HX + SB82371SB) Table 17 Intel(R) Network Adapters Each table provides a list of highlighted features for the chipset, and the support available for each OS. For the best performance, it may be necessary to get the most recent drivers available from the sources provided in the operating system sections above. developer.intel.com/platforms/applied/software/devsoft.htm Software Microsoft Windows* XP Microsoft Windows NT* Embedded Microsoft Windows* XP Embedded Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 Y Y Y N10 Y 1x 1x Y Y Y 11 11 11 3x USB 2.0 N N Y Y N Y N N Y N 2x IDE ATA/100 Y12 Y12 Y Y ATA/66 Y PIO PIO Y Y Y 1x Integrated LAN Y Y Y Y Y Y Y Y Y Y Y AC'97 2.2 Y Y Y Y Y Y Y Y Y N Y Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 (RG82845GV Microsoft Windows* XP Embedded 3x USB 1.1 BRIDGE Microsoft Windows NT* Embedded Major Chipset Functions SOUTH Microsoft Windows* XP CHIPSET--ICH4 Microsoft Windows* 2000 845GV N Microsoft Windows* 98SE (R) N10 Microsoft Windows NT* 4.0 TABLE 6 INTEL FW82801DB) Microsoft Windows* 2000 3x USB 1.1 Microsoft Windows* 98SE Major Chipset Functions Microsoft Windows NT* 4.0 TABLE 5 INTEL(R) E7500 AND INTEL(R) E7501 CHIPSET--ICH3 SOUTH BRIDGE (RGEE7500PL/RGE7501MC + FW82801CA + RG82870P2) N10 Y Y Y N10 Y 1x 1x Y Y Y 11 11 11 3x USB 2.0 N N Y Y N Y N N Y N 2x IDE ATA/100 Y12 Y12 Y Y13 ATA/66 Y14 PIO PIO Y Y N Y 1x Integrated LAN Y Y Y Y Y Y Y Y Y N Y AC'97 2.2 Y Y Y Y Y Y Y Y Y N Y Resolution to 1600x1200, color depth to 24bpp Y Y Y Y N N N N Y15 N N Accelerated 2D features Y Y Y Y N N N N Y N N Accelerated 3D features Y Y Y Y N N N N N N N Accelerated video features Y Y Y Y N N N N Y N N DVO encoder support (includes TV-Out, TMDS, and LVDS devices) Y Y Y Y N N N N N N N Integrated Graphics: 10 USB 1.1 support available separately from third-party vendors USB 2.0 support available in a Microsoft Windows Update release ATA/100 and 48-bit LBA (137+ GB) drive support provided in Intel(R) Application Accelerator utility 13 48-bit LBA (137+ GB) drive support provided in Intel(R) Application Accelerator utility; also will be enabled as part of Service Pack 1 14 48-bit LBA (137+ GB) drive support will be enabled as part of Service Pack 1 15 Advanced graphics features supported in XFree86 4.2 11 12 + 187 developer.intel.com/platforms/applied/software/devsoft.htm Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 Y Y Y N10 Y 1x 1x Y Y Y 11 11 11 3x USB 2.0 N N Y Y N Y N N Y N 2x IDE ATA/100 Y12 Y12 Y Y13 ATA/66 Y14 PIO PIO Y Y Y 1x Integrated LAN Y Y Y Y Y Y Y Y Y N Y AC'97 2.2 Y Y Y Y Y Y Y Y Y N Y Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 (RG82845 Microsoft Windows* CE .NET 3x USB 1.1 BRIDGE Microsoft Windows* CE 3.0 Major Chipset Functions SOUTH Microsoft Windows* XP Embedded CHIPSET--ICH2 Microsoft Windows NT* Embedded 845 N Microsoft Windows* XP (R) N10 Microsoft Windows* 2000 TABLE 8 INTEL FW82801BA) (RG82845E Microsoft Windows* XP Embedded 3x USB 1.1 BRIDGE Microsoft Windows NT* Embedded Major Chipset Functions SOUTH Microsoft Windows* XP CHIPSET--ICH4 Microsoft Windows* 2000 845E Microsoft Windows* 98SE (R) Microsoft Windows* 98SE TABLE 7 INTEL FW82801DB) Microsoft Windows NT* 4.0 Software Microsoft Windows NT* 4.0 188 N10 Y Y Y N10 Y 1x 1x Y Y Y 12 12 2x IDE ATA/100 Y Y Y Y ATA/66 Y PIO PIO Y Y Y 1x Integrated LAN Y Y Y Y Y Y Y Y Y N Y AC'97 2.1 Y Y Y Y Y Y Y Y Y N Y 10 USB 1.1 support available separately from third-party vendors USB 2.0 support available in a Microsoft Windows Update release ATA/100 and 48-bit LBA (137+ GB) drive support provided in Intel(R) Application Accelerator utility 13 48-bit LBA (137+ GB) drive support provided in Intel(R) Application Accelerator utility; also will be enabled as part of Service Pack 1 14 48-bit LBA (137+ GB) drive support will be enabled as part of Service Pack 1 11 12 + + developer.intel.com/platforms/applied/software/devsoft.htm Microsoft Windows* XP Microsoft Windows NT* Embedded Microsoft Windows* XP Embedded Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Y Y N10 Y 1x 1x 2x IDE ATA/66 Y Y Y Y Y Y PIO PIO AC'97 2.1 Y Y Y Y Y Y Y Y Y Y Y N Y N10 Y 1x 1x Y Y Y 2x IDE ATA/100 Y12 Y12 Y Y ATA/66 Y PIO PIO Y Y Y 1x Integrated LAN Y Y Y Y Y Y Y Y Y Y Y AC'97 2.1 Y Y Y Y Y Y Y Y Y N Y Resolution to 1600x1200, color depth to 24bpp Y Y Y Y Y Y Y Y Y15 Y16 Y17 Accelerated 2D features Y Y Y Y Y Y Y Y Y N Y Accelerated 3D features Y Y Y Y Y Y Y Y N N N Accelerated video features Y Y Y Y Y Y Y Y Y N N DVO encoder support (includes TV-Out, TMDS, and LVDS devices) Y Y Y Y Y Y Y18 Y18 Y19 N N QNX* Neutrino v6 Y Windriver* VxWorks 5.x Y Linux* 2.4.19 Y Microsoft Windows* CE .NET N10 Microsoft Windows* CE 3.0 2x USB 1.1 Major Chipset Functions Integrated Graphics: 10 USB 1.1 support available separately from third-party vendors ATA/100 and 48-bit LBA (137+ GB) drive support provided in Intel(R) Application Accelerator utility Advanced graphics features supported in XFree86 4.2 16 Advanced graphics features supported in WindML 17 Advanced graphics features supported in Photon* MicroGUI 18 Limited to Chrontel* CH700x and Silicon Image* 154/164 19 Limited to Chrontel* CH7007 12 15 SOUTH (FW82840 Microsoft Windows* XP Embedded BRIDGE Microsoft Windows NT* Embedded SOUTH Y Microsoft Windows* XP CHIPSET--ICH Y Microsoft Windows* 2000 840 Y Microsoft Windows* 98SE (R) Y Microsoft Windows NT* 4.0 TABLE 10 INTEL FW82801AA) QNX* Neutrino v6 Microsoft Windows* 2000 Y 2x USB 1.1 Windriver* VxWorks 5.x Microsoft Windows* 98SE N10 Major Chipset Functions Linux* 2.4.19 Microsoft Windows NT* 4.0 TABLE 9 INTEL(R) 815E AND INTEL(R) 810E2 CHIPSETS--ICH2 BRIDGE (FW82815E/FW82810E + FW82801BA) Software + 189 Software developer.intel.com/platforms/applied/software/devsoft.htm 2x IDE ATA/100 Microsoft Windows* 2000 Microsoft Windows* XP Microsoft Windows NT* Embedded Microsoft Windows* XP Embedded Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 2x USB 1.1 Microsoft Windows* 98SE Major Chipset Functions Microsoft Windows NT* 4.0 TABLE 11 INTEL(R) 815E AND INTEL(R) 810E2 CHIPSETS--CICH B R I D G E ( F W 8 2 8 1 5 E / F W 8 2 8 1 0 E + F W 8 2 8 0 1 E ) 20 N10 Y Y Y N10 Y 1x 1x Y Y N Y Y ATA/66 Y PIO PIO Y Y N Y Y Y Y Y Y Y Y Y Y N Resolution to 1600x1200, color depth to 24bpp Y Y Y Y Y Y Y Y Y15 Y16 Y17 Accelerated 2D features Y Y Y Y Y Y Y Y Y N Y Accelerated 3D features Y Y Y Y Y Y Y Y N N N Accelerated video features Y Y Y Y Y Y Y Y Y N N DVO encoder support (includes TV-Out, TMDS, and LVDS devices) Y Y Y Y Y Y Y18 Y18 Y19 N N 2x Integrated LAN ATA/66 ATA/66 SOUTH Integrated Graphics: Microsoft Windows* XP Embedded Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Y Y N10 Y 1x 1x 2x IDE ATA/66 Y Y Y Y Y Y PIO PIO AC'97 2.1 Y Y Y Y Y Y Y Y Resolution to 1600x1200, color depth to 24bpp Y Y Y Y Y Y Y Y Accelerated 2D features Y Y Y Y Y Y Y Accelerated 3D features Y Y Y Y Y Y Y Accelerated video features Y Y Y Y Y Y DVO encoder support (includes TV-Out, TMDS, and LVDS devices) Y Y Y Y Y Y QNX* Neutrino v6 Microsoft Windows NT* Embedded Y 2x USB 1.1 Windriver* VxWorks 5.x Microsoft Windows* XP N10 Major Chipset Functions SOUTH Linux* 2.4.19 Microsoft Windows* 2000 CHIPSETS--ICH Microsoft Windows* 98SE TABLE 12 INTEL(R) 815 AND INTEL(R) 810 (FW82815/FW82810 + FW82801AA) Microsoft Windows NT* 4.0 190 Y Y Y Y Y Y Y N Y Y15 Y16 Y17 Y Y N Y Y N N N Y Y Y N N Y18 Y18 Y19 N N Integrated Graphics: 10 USB 1.1 support available separately from third-party vendors Advanced graphics features supported in XFree86 4.2 Advanced graphics features supported in WindML 17 Advanced graphics features supported in Photon* MicroGUI 18 Limited to Chrontel* CH700x and Silicon Image* 154/164 19 Limited to Chrontel* CH7007 20 For the Microsoft OS driver support, check on FDBL at Applied Computing -> Products -> Chipsets -> Havasupai -> Software. 15 16 BRIDGE 10 Major Chipset Functions 1x USB 1.0 2x Ultra DMA/33 CHIPSET--PIIX4 USB 1.1 support available separately from third-party vendors QNX* Neutrino v6 Y SOUTH N10 Y Y Y N10 Y Y Y Y Y Y Y Y Y Y Y Y PIO PIO Y Y Y QNX* Neutrino v6 Y Y Windriver* VxWorks 5.x Y Y Windriver* VxWorks 5.x Y Y Linux* 2.4.19 Y AC'97 2.1 Microsoft Windows NT* Embedded N10 Y Y Y N10 Y Y Y Y Y Y Y Y Y Y Y Y PIO PIO Y Y Y QNX* Neutrino v6 Windriver* VxWorks 5.x Linux* 2.4.19 Microsoft Windows* CE .NET Microsoft Windows* CE 3.0 Microsoft Windows* XP Embedded Microsoft Windows* XP SOUTH Linux* 2.4.19 1x IDE ATA/33 Microsoft Windows* CE .NET TABLE 14 INTEL(R) 440MX CHIPSET--INTEGRATED COMPATIBLE (FW82443MX100) Microsoft Windows* CE .NET Y Microsoft Windows* CE 3.0 Y Microsoft Windows* CE 3.0 Y Microsoft Windows* XP Embedded N10 Microsoft Windows NT* Embedded Microsoft Windows* XP Microsoft Windows* 2000 CHIPSET--PIIX4E Microsoft Windows* XP Embedded Microsoft Windows NT* Embedded 430TX Microsoft Windows* 98SE 2x IDE ATA/33 Microsoft Windows* XP 1x USB 1.0 Microsoft Windows* 2000 Major Chipset Functions Microsoft Windows* 98SE 1x USB 1.0 Microsoft Windows NT* 4.0 Major Chipset Functions Microsoft Windows* 2000 (R) 440BX Microsoft Windows* 98SE TABLE 15 INTEL FW82371EB) (R) Microsoft Windows NT* 4.0 TABLE 13 INTEL FW82371EB) Microsoft Windows NT* 4.0 developer.intel.com/platforms/applied/software/devsoft.htm BRIDGE SOUTH BRIDGE, N10 Y Y Y Y Y Y Y Y PIO PIO Y Y Y Y Y Y Y Y N Y BRIDGE Software (FW82439TX 191 (FW82443BX PIIX4E + + developer.intel.com/platforms/applied/software/devsoft.htm 21 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 Y Y Y Y Y Y Y Y Y Y Y Y PIO PIO Y Y Y Microsoft Windows* CE 3.0 Microsoft Windows* CE .NET Linux* 2.4.19 Windriver* VxWorks 5.x QNX* Neutrino v6 ADAPTERS Intel(R) PRO/1000 (includes 82544) Y Y Y Y Y Y N N Y Y Y Intel(R) PRO/100 Adapters (includes 82557, 82558, 82559, 82550) Y Y Y Y Y Y Y Y Y Y Y Intel(R) PRO/Wireless Adapters21 (includes 802.11a and 802.11b adapters) Y Y Y Y Y N Y Y Y N N Major Chipset Functions 10 N10 Microsoft Windows* XP Embedded NETWORK Y Microsoft Windows NT* Embedded (R) Y Microsoft Windows* XP INTEL Y Microsoft Windows* 2000 17 N10 Microsoft Windows* 98SE TABLE Microsoft Windows* CE 3.0 2x Bus Master IDE Microsoft Windows* XP Embedded 1x USB 1.0 BRIDGE Microsoft Windows NT* Embedded Major Chipset Functions SOUTH Microsoft Windows* XP CHIPSET--PIIX3 Microsoft Windows* 2000 430HX (R) Microsoft Windows* 98SE TABLE 16 INTEL SB82371SB) Microsoft Windows NT* 4.0 Software Microsoft Windows NT* 4.0 192 USB 1.1 support available separately from third-party vendors Some Wireless adapters are not supported by all operating systems; check supported operating systems at http://support.intel.com/support/network/wireless/31485.htm. (FW82439HX + developer.intel.com Communications and Embedded Developer's Networks Communications and Embedded Developer's Networks (R) Intel Communications Alliance A community of communications and embedded developers and solution providers Intel(R) Communications Alliance he Intel(R) Communications Alliance is a community of communications and embedded developers and solutions providers who share a vision of the convergence of communications and embedded computing technologies. Members of the Intel Communications Alliance include operating systems and tools providers, software providers, hardware providers and integrators. These companies share a commitment to accelerating the convergence of computing and communications based on Intel(R) technologies, products and services. By networking, building new relationships and working together, members of the Intel Communications Alliance have the opportunity to deliver innovative solutions, in less time at lower cost, and pass these competitive benefits on to their customers. Intel works with community members, providing underlying communications and computing technologies and driving the industry-standard specifications needed for greater choice, stability and opportunities for market segment growth. The Intel Communications Alliance reflects Intel's growing commitment to the success of communications and embedded market segments in key areas: Communications and computing technologies and industry initiatives Solutions development and co-marketing assistance Standards leadership Identification with the Intel Communications Alliance positions member companies as industry leaders. Active participation creates unique opportunities to engage with Intel and benefit from opportunities only possible through collaboration with the worldwide communications and embedded ecosystem. Engage with the Intel Communications Alliance and share the benefits of our worldwide community. http://www.intel.com/go/ica T 193 194 Communications and Embedded Developer's Networks developer.intel.com Intel PCA Developer Network (R) It's all about being first! Intel(R) Personal Internet Client Architecture Developer Network embership in the Intel(R) PCA Developer Network provides application developers, device manufacturers, development tools vendors, and service providers with technical data, marketing support, marketing exposure, marketing opportunities, and industry connections they need to accelerate the innovation and marketing of wireless Internet solutions. Joining this Web-based community today provides you with even easier access to the resources you need to design, develop, and deploy innovative solutions based on this widely supported standards-based architecture. Here are just some of the benefits: Now it is easier to make the industry connections you need through the Intel PCA Developer Network Company Directory. The new and enhanced Intel(R) PCA Developer Network Solutions Catalog provides even faster access to Intel(R) PCA building blocks, third-party tools, and software. Intel PCA Development Support and Technical Support pages deliver the data you need. The Intel(R) PCA Developer Network Newsletter keeps you informed on the latest Intel(R) PCA wireless solutions. M Benefits P CA Developer Network provides access to critical product and software tool information to enable members to bring solutions to the market. Members become part of community to share valuable information to help accelerate the development of wireless solutions. Intel PCA Developer Network provides members the following benefits: Advance information Access to development tools and platforms Software building blocks for applications Application and technical support Marketing assistance and cooperative marketing opportunities Networking and matchmaking opportunities Joining the community is easy. Register today at no cost and accelerate your innovation. Please see link: http://developer.intel.com/pca/developernetwork/about.htm http://www.intel.com/pca developer.intel.com/design/develop.htm Development Tools and Support Development Tools and Support COMPREHENSIVE SUPPORT FOR EMBEDDED PRODUCTS I ntel is proud of the wide variety of hardware and software development tools available to support you in all phases of the development cycle. Some of the industry's leading tools suppliers are providing high-performance Windows*-based software; full-featured, real-time emulators; along with flexible, fully integrated device programming support for Intel's embedded products. We are committed to providing the tools and support needed to speed the learning curve and reduce design time. The pages that follow list our tool vendors and contact information, including World Wide Web addresses. Feel free to contact them directly, browse their home site, or look up their tool fact sheets on Intel's Web-based Electronic Tools Catalog at: http://appzone.intel.com/toolcatalog/. M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Hardware Support MCS(R) 196/296 MICROCONTROLLERS MCS(R) 51/251 MICROCONTROLLERS 80X86 AND PENTIUM(R) PROCESSORS PENTIUM(R) II, PENTIUM(R) III AND CELERON(R) PROCESSORS PENTIUM(R) 4 AND XEONTM PROCESSORS Emulation Technology, Inc. Tribal Microsystems Adapter Technologies, Inc. Emulation Technology, Inc. Hitex Development Tools GmbH American Arium Intel Corp. American Arium Intel Corp. CEIBO, Inc. ChipTools, Inc. Dr. Krohn & Stiller Emulation Technology, Inc. Agilent Hi-Lo Systems Research HiTech Equipment Corp. Hitex Development Tools GmbH## Huntsville Microsystems ISystems Lauterbach Datentechnik GmbH MetaLink Corp., Inc. Nohau Corp. Signum Systems Tribal Microsystems MIcetek International American Arium CEIBO, Inc. Hewlett-Packard Company Hitex Development Tools GmbH Microtek International Signum Systems Softaid, Inc. Sophia Systems Agilent American Arium Applied Microsystems Corp. Microtek International American Arium HiTech Equipment Corp. Intel Corp. Intel Corp. Intel Corp. Intel Corp. ITT Cannon Newnex Forte Design Systems Adtron Corp. AnnaSoft Datalight, Inc. Intel Corp. M-Systems Inc. Microsoft Corp. Phoenix Technologies Syquest Technology Adtron Corp. AnnaSoft Datalight, Inc. Intel Corp. M-Systems Inc. Microsoft Corp. Phoenix Technologies Syquest Technology Adtron Corp. AnnaSoft Datalight, Inc. Intel Corp. M-Systems Inc. Microsoft Corp. Phoenix Technologies Syquest Technology Agilent DLI Digital Logic Instruments GmbH Hewlett-Packard Company Agilent Tektronix, Inc. Agilent Tektronix, Inc. Agilent Tektronix, Inc. Adtron Corp. Ampro Computers, Inc. EEPD Imagenation Corp. Jumptec Motion Engineering, Inc. Adtron Corp. Ampro Computers, Inc. EEPD Jumptec Supports both 196 & 296 Microcontrollers ACCESSORIES/ADAPTERS Emulation Technology, Inc. EMULATORS Dr. Krohn & Stiller Huntsville Microsystems Lauterbach Datentechnik GmbH Nohau Corp. Phyton Signum Systems EVALUATION BOARDS AND KITS Intel Corp. The Dearborn Group HARDWARE ACCESSORIES--MEMORY & STORAGE Forte Design Systems LOGIC/BUS ANALYZERS Agilent PC/104 MODULES 195 196 Development Tools and Support developer.intel.com/design/develop.htm M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Hardware Support (continued) MCS(R) 196/296 MICROCONTROLLERS MCS(R) 51/251 MICROCONTROLLERS 80X86 AND PENTIUM(R) PROCESSORS PENTIUM(R) II, PENTIUM(R) III AND CELERON(R) PROCESSORS PENTIUM(R) 4 AND XEONTM PROCESSORS Advantech American Predator Corp. Ampro Computers, Inc. Carlo Gavazzi Cell Computing Concurrent Technologies Diversified Technology Force Computers HiTech Equipment Corp. I-Bus ICS Advent Itox Jumptec Kontron Micro Industries Microbus Motion Engineering, Inc. Motorola Computer Group Pep Modular Computers Portwell RadiSys Corp. SBS Technologies Trenton Technology VMIC WinSystems Advantech American Predator Corp. Ampro Computers, Inc. Carlo Gavazzi Cell Computing Concurrent Technologies Diversified Technology Force Computers I-Bus Itox Jumptec Kontron Micro Industries Microbus Motorola Computer Group Pep Modular Computers Portwell RadiSys Corp. SBS Technologies Trenton Technology VMIC WinSystems Advantech Diversified Technology Force Computers Kontron Nexcom Portwell RadiSys Corp. Trenton Technology Intel Corp. National Semiconductor Vadem Intel Corp. National Semiconductor Vadem Supports both 196 & 296 Microcontrollers SINGLE BOARD COMPUTING SUPPORT COMPONENTS M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Hardware Support i960(R) PROCESSORS INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS 80200/80312 PXA210/PXA250 IXP 220/225/425 IXP 1200/2400/2800 Applied Microsystems Corp. ARM, Ltd. Sophia Systems ARM, Ltd. Embedded Performance, Inc. Lauterbach Datentechnik, GmbH Macraigor Systems LLC Sophia Systems Wind River Systems, Inc. Applied Microsystems Corp. ARM, Ltd. Embedded Performance, Inc. Lauterbach Datentechnik, GmbH Macraigor Systems LLC Sophia Systems Wind River Systems, Inc. Acorn Systems China Business Services Cogent Computer Systems, Inc. GDA Technologies ADI Engineering Cyclone Microsystems, Inc. Intel Corp. Wind River Systems, Inc. Intel Corp. RadiSys Corp. Agilent Corelis, Inc. Tektronix, Inc. Agilent New Wave PDG Tektronix, Inc. STRONGARM* PROCESSORS Supports I/O Processors ACCESSORIES/ADAPTERS Cyclone Microsystems, Inc. Emulation Technology, Inc. Intel Corp. PLX Technology, Inc. SKY Computers, Inc. EMULATORS Corelis, Inc. Spectrum Digital, Inc. EVALUATION BOARDS AND KITS CompuLab Cyclone Microsystems, Inc. Intel Corp. HARDWARE ACCESSORIES--MEMORY AND STORAGE Emulation Technology, Inc. LOGIC/BUS ANALYZERS Agilent DLI Digital Logic Instrument GmbH Tektronix, Inc. developer.intel.com/design/develop.htm Development Tools and Support M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Hardware Support (continued) i960(R) PROCESSORS STRONGARM* PROCESSORS Supports I/O Processors INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS 80200/80312 PXA210/PXA250 IXP 220/225/425 IXP 1200/2400/2800 ADI Engineering Cyclone Microsystems, Inc. Force Computers Kontron RadiSys Corp. PC/104 MODULES SINGLE BOARD COMPUTING Cyclone Microsystems, Inc. Accelent Systems, Inc. ADS SUPPORT COMPONENTS Applied Micro Circuits Corp. Galileo Technology, Inc. Intel Corp. V3 Semiconductor ADI Engineering M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Software Support MCS(R) 196/296 MICROCONTROLLERS MCS(R) 51/251 MICROCONTROLLERS 80X86 AND PENTIUM(R) PROCESSORS PENTIUM(R) II, PENTIUM(R) III AND CELERON(R) PROCESSORS PENTIUM(R) 4 AND XEONTM PROCESSORS Borland International CAD-UL, Inc. Red Hat DDC-I, Inc. Intel Corp. GNU MetaWare, Inc. Metrowerks Microsoft Corp. Rational Software Corp. Thomson Software Products CAD-UL, Inc. Red Hat Intel Corp. GNU Microsoft Corp. Red Hat Intel Corp. GNU Microsoft Corp. American Megatrends, Inc. AnnaSoft Award Software International, Inc. General Software, Inc. Insyde Software Phoenix Technologies American Megatrends, Inc. Award Software International, Inc. General Software, Inc. Insyde Software Phoenix Technologies American Megatrends, Inc. Award Software International, Inc. General Software, Inc. Insyde Software Phoenix Technologies Antron/Psilogic International Test Technologies Antron/Psilogic International Test Technologies Antron/Psilogic International Test Technologies ChipTools, Inc. AnnaSoft CAD-UL, Inc. Concurrent Sciences, Inc. Embedded Power Corp. Micro Digital, Inc. Microsoft Corp. Paradigm Systems CAD-UL, Inc. Red Hat GNU Microsoft Corp. Red Hat GNU Microsoft Corp. Avocet Systems Cogent Real-Time Systems, Inc. Intel Corp. Intrinsyc Software, Inc. Log Point Technologies, Inc. Cogent Real-Time Systems, Inc. Intel Corp. Intrinsyc Software, Inc. Cogent Real-Time Systems, Inc. Intel Corp. Intrinsyc Software, Inc. ASSEMBLERS & COMPILERS, LINKERS/LOCATORS IAR Systems Phyton, Inc. Tasking Avocet Systems, Inc. IAR Systems Intel Corp. Keil Elektronik GmbH*. Micro Computer Control Corp. Tasking. BIOS BOARD TESTERS DEBUGGERS ChipTools, Inc. IAR Systems Intel Corp. Tasking Universal Cross-Assemblers DEVELOPMENT SOFTWARE Chip Tools, Inc. IAR Systems Phyton, Inc. Tasking FUZZY LOGIC SOFTWARE Aptronix Inform Syndesis 197 198 Development Tools and Support developer.intel.com/design/develop.htm M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Software Support (continued) MCS(R) 196/296 MICROCONTROLLERS MCS(R) 51/251 MICROCONTROLLERS 80X86 & PENTIUM(R) PROCESSORS PENTIUM(R) II, PENTIUM(R) III AND CELERON(R) PROCESSORS PENTIUM(R) 4 AND XEONTM PROCESSORS Accelerated Technology, Inc. AnnaSoft Datalight, Inc. Embedded Systems Products, Inc. IBM Software Group--OEM Sales Industrial Programming, Inc. Integrated Systems, Inc. JMI Software Systems, Inc. KADAK Products Ltd. LynuxWorks Micro Digital, Inc. Microsoft Corp. Microtec Microware Systems Corp. On Time Marketing Phar Lap Software, Inc. QNX Software Systems Ltd. RadiSys Corp. U.S. Software VenturCom, Inc. Wind River Systems, Inc. LynuxWorks Microsoft Corp. MontaVista Software QNX Software Systems, Ltd. VenturCom, Inc. Wind River Systems, Inc. LynuxWorks Microsoft Corp. MontaVista Software QNX Software Systems, Ltd. VenturCom, Inc. Wind River Systems, Inc. Synopsys, Inc. Synopsys, Inc. Synopsys, Inc. Applied Microsystems Corp. Applied Microsystems Corp. Applied Microsystems Corp. OPERATING SYSTEMS AND REAL-TIME EXTENSIONS CMX Company Embedded Systems Products, Inc. IAR Systems CMX Company Embedded Systems Products, Inc. Signum Systems PROGRAMMERS Advin Systems, Inc. BP Microsystems, Inc. Data I/O Corp. Needham's Electronics Phyton, Inc. SMS Microcomputer Systeme GmbH Stag Programmers Ltd. System General Corp. (US) Tribal Microsystems Advin Systems, Inc. BP Microsystems, Inc. CEIBO, Inc. Data I/O Corp. Needham's Electronics Phyton, Inc. SMS Microcomputer Systeme GmbH System General Corp. (US) Tribal Microsystems Zorchip Corporation MODELING/SIMULATION Chip Tools, Inc. Chronology Corp. SOFTWARE MODEM SOFTWARE TEST/VERIFICATION VOICE RECOGNITION M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Software Support i960(R) PROCESSORS STRONGARM* PROCESSORS INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS ARM, Ltd. GNU Green Hills Software, Inc. Intel Corp. LynuxWorks MontaVista Red Hat Wind River Systems, Inc. ARM, Ltd. GNU Green Hills Software, Inc. Intel Corp. LynuxWorks MontaVista Red Hat Wind River Systems, Inc. ASSEMBLERS & COMPILERS, LINKERS/LOCATORS Green Hills Software, Inc. Intel Corp. Irvine Compiler Corp. ARM, Ltd. Red Hat GNU Green Hills Software, Inc. MetaWare, Inc. BIOS BOARD TESTERS Corelis, Inc. International Test Technologies Corelis, Inc. developer.intel.com/design/develop.htm Development Tools and Support M I C R O C O N T R O L L E R S , N E T W O R K A N D M I C R O P R O C E S S O R S -- Software Support (continued) i960(R) PROCESSORS STRONGARM* PROCESSORS INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS ARM, Ltd. Red Hat GNU Green Hills Software, Inc. MetaWare, Inc. ARM, Ltd. Green Hills Software, Inc. Red Hat LynuxWorks MontaVista Wind River Systems, Inc. ARM, Ltd. Green Hills Software, Inc. Intel Corp. LynuxWorks MontaVista RadiSys Corp. Red Hat Wind River Systems, Inc. ARM, Ltd. Red Hat GNU Green Hills Software, Inc. MetaWare, Inc. ARM, Ltd. Accelerated Technology, Inc. Green Hills Software, Inc. Red Hat Wind River Systems, Inc. Consystant Intel Corp. MontaVista RadiSys Corp. Teja Technologies Wind River Systems, Inc. Accelerated Technology, Inc. CMX Company Embedded Systems Products, Inc. Express Logic, Inc. Integrated Systems, Inc. JMI Software Systems, Inc. KADAK Products Ltd. Lucent Technologies, Inc. LynuxWorks Mentor Graphics Corp. Microsoft Corp. Microware Systems Corp. MontaVista Net BSD Perihelion Distributed Software Ltd. Sun Microsystems, Inc. Symbian U.S. Software Wind River Systems, Inc. Accelerated Technology, Inc. OSE Systems Express Logic, Inc. LynuxWorks MontaVista Microware Systems, Corp. QNX Software Red Hat Wind River Systems, Inc. Accelerated Technology, Inc. LynuxWorks MontaVista OSE Systems QNX Software RadiSys Corp. Wind River Systems, Inc. Applied Microsystems Corp. ARM, Ltd. Corelis Inc. Summit ARM, Ltd. Red Hat VaST Systems Technology Intel Corp. DEBUGGERS Accelerated Technology, Inc. ARM, Ltd. Green Hills Software, Inc. Integrated Systems, Inc. Intel Corp. Real-Time Innovations, Inc. DEVELOPMENT SOFTWARE Green Hills Software, Inc. Intel Corp. Wind River Systems, Inc. FUZZY LOGIC SOFTWARE OPERATING SYSTEMS AND REAL-TIME EXTENSIONS Accelerated Technology, Inc. JMI Software Systems, Inc. KADAK Products Ltd. NSI Com Wind River Systems, Inc. PROGRAMMERS MODELING/SIMULATION Integrated Systems, Inc. Synopsys SOFTWARE MODEM Altacom PC Tel Surf SOFTWARE TEST/VERIFICATION SOFTWARE TEST/VERIFICATION Dragon Systems L&H 199 200 Development Tools and Support developer.intel.com/design/develop.htm MICROCONTROLLERS, NETWORK AND MICROPROCESSORS-- Other Products and Services MCS(R) 196/296 MICROCONTROLLERS MCS(R) 51/251 MICROCONTROLLERS 80X86 AND PENTIUM(R) PROCESSORS PENTIUM(R) II, PENTIUM(R) III AND CELERON(R) PROCESSORS PENTIUM(R) 4 AND XEONTM PROCESSORS Applied Microsystems Corp. Applied Microsystems Corp. Applied Microsystems Corp. RouterWare, Inc. U.S. Software RouterWare, Inc. U.S. Software FuturePlus Systems Agilent FuturePlus Systems Agilent FuturePlus Systems Agilent CONSULTING SERVICES NETWORKING PCI BOARDS AND COMPONENTS PCI BOARDS TOOLS PRINTERS SYSTEM INTEGRATORS X WINDOW SYSTEM INTELLIGENT I/O S/W TOOLS MICROCONTROLLERS, NETWORK AND MICROPROCESSORS-- Other Products and Services i960(R) PROCESSORS STRONGARM* PROCESSORS INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS Accelent Systems, Inc. ADS Anigma China Business Services ISI Design ADI Engineering Cyclone Microsystems, Inc. Design Interface Ltd. RadiSys Corp. Silicon & Software Systems Wind River Systems, Inc. Cyclone Microsystems, Inc. RadiSys Corp. CONSULTING SERVICES CompuLab Intel Corp. Venture Technologies NETWORKING CompuLab Harris & Jeffries Integrated Systems, Inc. PCI BOARDS AND COMPONENTS Applied Micro Circuits Corp. Catalyst Enterprise, Inc. Cyclone Microsystems, Inc. Gefen Computer Engineering, Ltd. Intel Corp. PLX Technology V3 Semiconductor developer.intel.com/design/develop.htm Development Tools and Support MICROCONTROLLERS, NETWORK AND MICROPROCESSORS-- Other Products and Services (continued) i960(R) PROCESSORS STRONGARM* PROCESSORS INTEL(R) XSCALETM TECHNOLOGY INTEL(R) IXA NETWORK PROCESSORS PCI BOARDS TOOLS Catalyst Enterprise, Inc. Corelis, Inc. FuturePlus Systems Hewlett-Packard Company PRINTERS Advanced Hardware Architecture Bitstream, Inc. Destiny Technology Corp. Intel Corp. Peerless Systems Corp. Pipeline Xionics Document Technologies, Inc. SYSTEM INTEGRATORS AnnaSoft Bsquare Corp. Eclipse Silicon & Software Systems Wipro X WINDOW SYSTEM AGE Logic, Inc. INTELLIGENT I/O S/W TOOLS Intel Corp. Serano Systems, Corp. Wind River Systems, Inc. Wind River Systems, Inc. 201 202 Development Tools and Support developer.intel.com/design/develop.htm developer.intel.com Price Quote and Ordering Distributor and Manufacturing Representatives North American Distributors: Arrow Electronics, Inc. 50 Marcus Drive Melville, NY 11747 Tel: 800-777-2776 Avnet Cilicon 2211 South 47th Street Phoenix, AZ 85034 Tel: 800-408-8353 Digi-Key 701 Brooks Ave. South Thief River Falls, MN 56701 Tel: 800-344-4539 Rochester Electronics, Inc. 10 Malcolm Hoyt Drive Newburyport, MA 01950 Tel: 978-462-9332 European Distributors Austria Silica (An Avnet Company) Diefenbachgasse 35-2 A-1150 Wien Tel: +43 1 866 42 0 Fax: +43 1 866 42 350 E-mail: silica.wien@avnet.com Spoerle an Arrow Company Landstraer Hauptstrasse 97-101(Stiege 1 /4A) 1030 Vienna, Austria Tel: +43 1 3 60 46 0 Fax: +43 1 3 60 46 90 www.spoerle.com Spoerle an Arrow Company Am Kehlerpark 1 16850 Dornbirn, Austria Tel: +43 (0)5572 38 65 00-0 Fax: +43 (0)5572 38 65 00-90 E-mail: Vertrieb.Dornbirn@spoerle.com Unique Memec Diefenbachgasse 35A 1150 Wien, Austria Tel: +43 1 892 85 60 Fax: +43 1 862 85 60 25 E-mail: info@unique.at.memec.com Belgium Arrow Spoerle Electronic Keiberg II Minervastraat 14/B2 1930 Zaventem, Belgium Tel: +32(0)272-54660 Fax: +32(0)272 54511 Getronics Belux Research Park Zellik Pontbeeklaan 43 1731 Zellik, Belgium Tel: +32(0)24671755 Fax: +32(0)24671748 www.getronics.be Getronics Belux Place Madouplein 1 box 8 1210 Brussels, Belgium Tel: +32 (0)2 229 91 11 Fax: +32 (0)2 229 92 00 Unique Memec Gen. De Wittelaan N 17, B10 2800 Mechelen, Belgium Tel: +32 15 44 00 80 Fax: +32 15 44 00 88 E-mail: info@unique.be.memec.com www.unique.memec.com Silica (An Avnet Company) Kouterveldstraat 20 1831 Diegem, Belgium Tel: + 32 (2) 709 90 00 Fax: +32 (2) 709 98 10 E-mail: silica.belgium@avnet.com Bulgaria Unique Memec no office address Tel: +35 92 719 103 Fax: +35 92 971 440 1 E-mail: info@bg.memec.com Croatia Unique Memec no office address Tel: +38 51 23 245 4 Fax: +38 51 23 245 4 E-mail: info@hr.memec.com Czech Republic Spoerle Electronic Charkovska 24 101 00 Praha 10, Czech Republic Tel: +42 02 71 74 20 00 Fax: +42 02 71 74 20 01 Silica (An Avnet Company) Argentinska 38/286 CZ - 170 00 Praha 7 Tel: +420 2 3409 1031 Fax: +420 2 3409 1030 E-mail: silica.praha@avnet.com Unique Memec no office address Tel: +420 24 1933765-26 Fax: +420 24 1933765-27 E-mail: info@cz.memec.com Denmark Arrow Component Denmark Snedehoilm 13A 2730 Herlev, Denmark Tel: +45 7010-2211 Fax: +45 44 50 82 10 Silica (An Avnet Company) Banemarksvej 50 2605 Brondby, Denmark 43 22 80 1044 88 08 00 Fax: +45 43 22 80 11 E-mail: silica.denmark@avnet.com Unique Memec Tempovej 16 2750 Ballerup, Denmark Tel: +45 4343 2020 Fax: +45 4343 2122 www.unique.memec.com Finland Arrow Finland Kalkkipellontie 4 Box 280 FIN-02600 Espoo, Finland Tel: +358 9 47 66 60 Fax: +358 9 47 66 63 19 (Administration) Fax: +358 9 47 66 63 27 (Sales) Silica (An Avnet Company) Niittykatu 8 FIN-02200 Espoo Tel: +358 (0) 9 613 182 00 Fax: +358 (0) 9 613 182 80 E-mail: silica.helsinki@avnet.com Unique Memec Kutojantie 7 - 02630 Espoo, Finland Tel: +358 9 25 35 44 60 Fax: +358 9 25 35 44 77 E-mail: info@unique.fi.memec.com France Arrow Electronique S.A: 21, rue du Jura Silic 585 94633 RUNGIS Cedex, France Tel: +33 (0) 1 4978 4900 Fax: +33 (0) 1 41 80 96 30 Silica (An Avnet Company) 6 / 8 rue Ambroise Croizat, ZAE les glaises 91127 Palaiseau Cedex, France Tel: +33 (0)1 64 47 29 29 Fax: +33 (0)1 64 4700 84 E-mail: silica.paris@avnet.com Unique Memec 8 rue de L'Esterel, Silic 583 94663 Rungis Cedex, France Tel: +33 1 46 87 22 00 Fax: +33 1 46 87 80 49 www.unique.memec.com Germany Arrow Spoerle Germany Max Planck Str. 1-3 63303 Dreieich, Germany Tel: +49 (0) 6103 30 42 01 Fax: +49 (0) 6103 304 - 0 www.spoerle.com Silica (An Avnet Company) Gruber Strasse 60c 85586 Poing, Germany Tel: +49-8121-777 02 Fax: +49-812 777 531 E-mail: silica.muenchen@avnet.com Unique Memec Leonhardsweg 4 82008 Unterhaching, Germany Tel: +49 89 61 52 390 Fax: +49 89 61 52 39 97 E-mail: info@unique.de.memec.com Greece Arrow Electronics Hellas Elia Eliou 31 Athens 11743, Greece Tel.: +30-210-9020165 Fax: +30-210-9022118 Silica (an Avnet Company) 1, Anaxagora Street GR-17778 Tavros (Athens) Phone: +30-210-342 51 28 Fax: +10-210-341 43 04 Email: silica.greece@avnet.com Unique Memec no office address Tel.: +30 210 325 362 6 Fax: +30 210 321 606 3 E-mail: info@gr.memec.com Hungary SPOERLE ELECTRONIC BUDAPEST Vaci ut 45 1134 Budapest Fax: (01) 350 6277 Tel: (01) 3506275 / 76; 329 4202 E-mail: SalesOffice.Budapest@spoerle.com Silica (An Avnet Company) Montevideo u. 2/B 1037 Budapest, Hungary Tel: +36 1 436 72 15 Fax: +36 1 43 672 13 E-mail: silica.budapest@avnet.com Unique Memec no office address Tel: +36 1 231 700 0 Fax: +36 1 231 70 11 E-mail: info@hu.memec.com Ireland Arrow Electronics Ltd 10A Second Floor Beckett Way Park West Dublin 12, Ireland Tel: +353 1 629 870 0 (Reception) Fax: +353 1 629 870 1 Silica (An Avnet Company) Unit 7, Swords Business Park Swords Co., Dublin, Ireland Tel: +353 1 890 1000 Fax: +353 1 890 101 0 E-mail: silica.dublin@avnet.com Unique Memec Gardner House, Bank Place Limerick, Ireland Tel: +353 61 31 61 16 Fax: +353 61 31 61 17 www.unique.memec.com Israel Arrow\Rapac Ltd. 60 Amal St. Kiryat-Arieh Petach-Tikva 49130 Tel: +972-3-9203456 Fax: +972-3-9203443 www.arrow-israel.co.il Eastronics Israel Rozanis Street 11 P.O.B. 39300 Tel Baruch 61392 Tel-Aviv, Israel Tel: +972 3 6458746 Fax: +972 3 6458 666 E-mail: eastronics.co.il www.eastronics.co.il Italy Arrow Silverstar Viale Fulvio Testi, N 280 I-20126 Milano, Italy Tel: +39-02-66-1251 Fax: +39-02-66101-359 Arrow Lasi Elettronica -Milano Viale Fulvio Testi 280 20126 Milano, Italy Tel: +39 02 661431 Fax: +39 02 66101385 Silica (An Avnet Company) Via Valtellina 23/25 I-20092 Cinisello B., MI Tel: +39 02 660 921 Fax: +39 02 660 165 43 E-mail: silica.milano@avnet.com Unique Memec Via Bernina 7 20158 Milano, Italy Tel: +39 02 60 79 51 Fax: +39 02 68 87 143 E-mail: info@unique.it.memec.com Netherlands Arrow / Spoerle Electronic Postbus 476 3990 GC Houten, Netherlands Tel: +31(0)30 6 39 12 05 Fax: +31(0)30 6 39 12 34 E-mail: SalesOffice.Utrecht@spoerle.com Getronics Energieweg 1 2627 AP P.O Box 125 2600 AC Delft, Netherlands Tel: +31(0)152609906 Fax: +31(0)152619194 www.getronics.nl * Third-party marks and names are the property of their respective owners. Intel Corporation makes no warranty for the use of its products and assumes no responsibility for any errors that may appear in this document. Intel retains the right to make changes to the specifications at any time, without notice. Contact your local Intel sales office or distributor to obtain the latest specifications before placing your order. Intel Corporation makes no warranty as to the content or reliability of the third-party tool vendor information contained herein. 203 204 Price Quote and Ordering developer.intel.com Distributor and Manufacturing Representatives Gertronics Donauweg 10 P.O. Box 652 1000 AR Amsterdam, Netherlands Tel: +31 (20) 5861412 Fax: +31 (20) 5861568 Silica (An Avnet Company) Takkebijsters 2 4802 HV Breda, Netherlands Tel: +31 76 572 27 00 Fax: +31 76 572 270 7 E-mail: Silica.breda@avnet.com Unique Memec Insulindelaan 134 5613 Eindhoven, Netherlands Tel: +31 40 26 59 399 Fax: +31 40 26 59 393 E-mail: info@unique.nl.memec.com Norway Arrow Components Norway AS Trygve Nilsens Vei 8 P.O.Box 91 Furuset N-1001 Oslo, Norway Tel: +47 52763000 Fax: +47 21306550 Silica (An Avnet Company) Hagalokkveien 7 Postboks 63 NL-1371 Asker, Norway Tel: +47 66 77 36 00 Fax: +47 66 77 36 77 E-mail: silica.norway@avnet.com Unique Memec Smedsvingen 4 P.O. Box 366 1379 Nesbru, Norway Tel: +47 66 77 45 40 Fax: +47 66 77 45 49 E-mail: info@unique.no.memec.com www.unique.memec.com/ Poland SPOERLE ELECTRONIC Polska Sp. Zo.o ul. Sobieskiego 110/28 00-764 Warszawa Tel: +48 22 856 90 90 Fax: +48 22 851 61 36 Kvazar-Micro-M 76, Butyrskaya Str. 125015 Moscow Russia Tel: +7 095 210 07 00 Fax: +7 095 210 07 00 E-mail: kmm@kvazar-micro.ru www.kvazar-micro.ru Sweden Arrow Components Sweden Box 67 Kronborgsgrand 19 SE-164 94 Kista, Sweden Tel: +46 8 56265500 Fax: +46 8 56265770 (Arrow Nordic) Fax: +46 8 56265550 (Arrow Sweden) Unique Memec 64/65 Rabans Close Aylesbury Buckinhamshire HP19 8TW, UK Tel: +44 1296 39 73 96 Fax: +44 1296 39 74 39 E-mail: info@unique.uk.memec.com www.unique.memec.com/ Silica (an Avnet company) Korovinskoye Chaussee 10 Building 2, Office 25 RUS-127484 Moscow Tel: +386 (0)1 430 1461 Fax: +386 (0)1 430 1464 E-mail: silica.russia@avnet.com Silica (An Avnet Company) Englundavagen 7 Box 1830 S-171 27 Solna, Sweden Tel: +46 08-587 461 00 Fax: +46 08-587 463 01 E-mail: silica.stockholm@avnet.com www.aac.avnet.com/europe Ukraine Kvazar-Micro 1, Severo-Syretskaya Str. 04136 Kiev Ukraine Tel: +380 (44) 442 9459 Fax: + 380 (44) 239 9868 E-mail: dic@kvazar-micro.com www.kvazar-micro.com/ Unique Memec no office address Tel.: +7 095 234 063 6 Fax: +7 095 234 064 0 E-mail: info@ru.memec.com Serbia and Montenegro Unique Memec no office address Tel: +381 11 316 095 7 Fax: +381 11 316 095 7 Slovakia Unique Memec no office address Tel: +421 2 482 508 50 Fax: +421 2 482 508 54 E-mail: info@sk.memec.com Slovenia Unique Memec no office address Tel: +386 1 568 013 1 Fax: +386 1 568 012 0 South Africa Arrow Altech Distribution (Pty) Ltd. 53-57 Yaldwyn Road Hughes Ext, Jet Park 1600 Johannesburg, South Africa Tel: 27119239600 Fax: 27119239887 E-mail: info@arrow.altech.co.za www.arrow.altech.co.za Avnet EM Sp. z o.o. ul. Domaniewska 39a PL-02-672 Warszawa, Poland Tel: +48 22640 2351 Fax: +48 22640 2354 E-mail: silica.warszawa@avnet.com Unique Memec 101 Heritage House 20 Dreyer Street 7700 Claremont, South Africa Tel: +27 21 674 0835 Fax: +27 21 674 0852 www.unique.memec.com UNIQUE MEMEC POLSKA sp. z o.o. ul. Sowinskiego 5 PL-44-1000 Gliwice, Poland Polska Tel: +48 32 238 03 41 Fax: +48 32 238 06 92 E-mail: info@pl.memec.com Spain Arrow Iberia Electronica c/ Albasanz 75 28037 Madrid, Spain Tel: + 34 91 304 30 40 Fax: +34 91 304 24 72 www.arrowiberia.com Portugal ARROW Iberia Electronica Avda. das Larangeiras 12 2720 Amadora-Lisboa Portugal Tel: 351 21 471 48 06 Fax: 351 21 471 08 02 Silica (An Avnet Company) C/Chile, 10-plta 2, ofic 229 Edificio Madrid 92 E-28290 Las Matas (Madrid), Spain Tel: +34 91 372 71 00 Fax: +34 91 636 97 88 E-mail: silica.madrid@avnet.com www.aac.avnet.com/europe Silica (An Avnet Company) Rua Corujeira de Baixo 452 PT-4300 -150 Porto; Portugal Tel: +351 (0) 22 589 8070 Fax: +351 (0)22 589 8071 E-mail: silica.porto@avnet.com www.aac.avnet.com/europe Russia Spoerle Electronic Avakiana Str. 32/3 Appt. 12 220065 Minsk, Belarus Mob: +375 29 666 7709 Tel: +375 172197625 Fax: +375 172197625 Unique Memec Centro Empresarial El Plantio Ochandiano 8-2 1 28023 Madrid, Spain Tel: +34 91 3076 893 Fax: +34 91 37 29 453 E-mail: info@unique.es.memec.com Unique Memec Sehlstedtsgatan 6 115 28 Stockholm, Sweden Tel: +46 8 45 97 900 Fax: +46 8 45 97 999 E-mail: info@unique.se.memec.com Switzerland Silica (An Avnet Company) Hardstrasse 72 CH-5430 Wettingen, Switzerland Tel: +41 056 437 51 11 Fax: +41 056 437 55 54 E-mail: silica.wettingen@avnet.com www.aac.avnet.com/europe Spoerle Electronic Schweiz Riedmatt 9 8153 Rumlang, Switzerland Tel: +41 18 17 6262 Fax: + 41 18 17 6200 Unique Memec Gaswerkstrasse 32 4901 Langenthal, Switzerland Tel: +41 62 91 94 200 Fax: +41 62 91 94 209 E-mail: info@unique.ch.memec.com Turkey Arrow Elektronik Ticaret A.S. Cayiryolu sok Ucgen Plaza No:7Kat 8 81120 Icerenkoy Istanbul, Turkey Tel: +90 216 575 18 20 Fax: +90 216 575 18 30 Silica (an Avnet Company) Bayar Gulbahar, Sok. Nr. 17 Perdemsac Plaza D:132 TR-34742 Istanbul Tel: +90 216 361 89 58 Fax: +90 216 361 89 27 E-mail: silica.turkey@avnet.com Unique Memec no office address Tel: +90 216 339 611 9 Fax: +90 216 339 611 3 E-mail: info@tr.memec.com UK Arrow Electronics (UK) Ltd Edinburgh Way Harlow Essex CM20 2DF, UK Tel: 01279 626777 (Sales) Tel: 01279 455155 (Customer Service) Tel: 01279 441144 (Reception) Fax: 01279 455777 E-mail: sales@arrowuk.com Silica (An Avnet Company) Avnet House Rutherford Close, Meadway Stevenage, Herts SG1 2EF, UK Tel: +44 (0)1438 788 310 Fax: +44 (0)1438 788 250 E-mail: silica.stevenage@avnet.com Unique Memec no office address Tel: +380 44 290 829 4 Fax: +380 44 254 425 8 E-mail: info@ua.memec.com Japanese Distributors Asahi Electronics Co. Ltd. Shinjuku IS Bldg 2nd Floor, 2-13-12 Shinjuku, Shinjuku-ku, Tokyo, 160-0022 Japan Tel: 03-3350-5418 Macnica, Inc. Macnica Bldg. No. 1 1-6-3, Shin-Yokohama, Kohoku-ku, Kanagawa, 222-8561 Japan Tel: 045-470-9821 Okaya Electronics Corp. Dai-2 Ueno Bldg. 6F 3-7-18 Shin-Yokohama, Kohoku-ku, Yokohama, Danagawa, 222-0033 Japan Tel: 045-475-1502 Ryoyo Electro Corp. Konwa Bldg, 1-12-22 Tsukiji, Chuo-ku, Tokyo, 104-8408 Japan Tel: 03-3546-5015 Tomen Electronics Corp. Nishin Bldg, 1-8-27 Kohnan, Minato-ku, Tokyo 108-8510, Japan Tel: 03-5462-9618 Unidux, Inc. Dia Semicon Systems Div. Tobu AK Bldg, 3-23-3 Shin-Yokohama, Kohoku-ku, Yokohama-city, Kanagawa-ken, 222-0033 Japan Tel: 045-476-7451 Asian/Pacific Distributors Australia Braemac 1/59-61 Burrows Road, Alexandria Sydney, 2015 Australia Tel: 61-2-95506600 Fax: 61-2-95506377 MemecEBV (NSD division) Unit 6, 17-19 Melrich Road, Bayswater Victoria, 3153 Australia Tel: 61-3-97604333 Fax: 61-3-97604344 China Avnet Sunrise Limited Rm 612, Chang Xin Bldg.. 39 AnDing Rd. Chao Yang Dist. Beijing, 100081 China Tel: 86-10-64413113 Fax: 86-10-64438246 developer.intel.com Price Quote and Ordering Distributor and Manufacturing Representatives Avnet Sunrise Limited 21/ Strength Plaza. No. 3, Lane 600 Tian Shan Rd. Shanghai, 200051 China Tel: 86-21-52062288 Fax: 86-21-52062099 India Memec (Asia Pacific) Ltd. Unique Div. 1st Floor, Sandhya Deep Building, 15 Community Centre East of Kailash New Delhi, 110065 India Tel: +91-11-6218801, 6225223 Fax: +6215023 Avnet Sunrise Limited 10/F, Block A, Electronic Technology Building 11 ZhenNan Zhong Road Shenzhen, 518031 China Tel: 86-755-83781886 Fax: 86-755-83783139 WPI International (I) PVT Ltd. 405, Gateway Plaza, Hiranandani Gardens, Powai Mumbai 400076 India Tel: +91 22 570 5093 Fax: +91 22 570 5094 Avnet Sunrise Limited 7/F & 16F, Spectrum Tower 53 Hung To Road KwunTong Hong Kong Tel: 852-21765388 Fax: 23761235 Arrow Electronics 20/F, Tower Two, Ever Gain Plaza 88 Container Port Road Kwai Chung, Hong Kong Tel: 852-24842484 Fax: 852-24871268 Arrow Electronics Rm F, 9/F, Phase 2, East Ocean Centre 618 Yanan Rd East Shanghai, 200001 China Tel: 86-21-53061871 Fax: 86-21-53061876 Arrow Electronics (Shenzhen) Limited No. 109-112 Building International Commerce and Exhibition Center No. 1001 HongHua Road Futian Free Trade Zone Shenzhen, 518038 China Tel: 86-755-3592920 Fax: 86-755-3592377 Arrow Electronics China Ltd. Rm. 1002, 10F Manhattan CNT Building 6 Chao YengMen Bei DaJie Beijing, 10003227 China Tel: 86-10-85282030 Fax: 86-10-85282698 Synnex Pacific Limited 3/F Block A, Overseas Decoration Building 11 Zhenhua Road ShenZhen 518031 China Tel: 755-83342722 Fax: 852-83237466 Honestar Technologies Co., Ltd. Room 1301-5, Cyber times Tower A, Cyber Park Futian District Shenzhen 518041, PRC Tel: 86 83475116 Fax: 86 834769911 Dragon Technology Distribution Co., Ltd. Rm 1823, Landmark North, Sheung Shui, New Territories Hong Kong Tel: (852) 2303 0711 Fax: (852) 2317 7522 WPI International (Hong Kong) Ltd. Unit 1201-1205 12F/ Miremar Tower 132 Nathan Road Tsim Sha Tsui Kowloon, Hong Kong Tel: (852) 27654860 Fax: (852) 27641129 Tecnomic 111-113 A-Wing. Carlton Towers 1 Airport Road Bangalore--560008 India Tel: 91-80-5286934,5273594 New Zealand Insight Electronics Pty Ltd. 69 Worchester Boulevard Christchurch, New Zealand Singapore Achieva Components 240 Macpherson Road #02-02, Pines Industrial Building Singapore 348574 Tel: 65-8403107 Ingram Micro Asia Ltd 205 Kallang Bahru Road, #04-00 Singapore 339341 Tel: (65) 298 0888 Fax: (65) 3923294 WPI International (S) Pte Ltd. 10 Upper Aljunied Link #07-01/03 York Industrial Building Singapore 367904 Tel: (65) 282 5188 Fax: (65) 280 4988 The Republic of Korea Intechn Co. 52-3 Wonhyoro-2Ga Yongsan-Gu, Seoul 140-112, The Republic of Korea Tel: +82-2-2129-7960 Fax: +82-2-2129-7802 Uniquest Korea 8th Floor Dongsung Bldg. 158-24, Samsung-Dong Kangnam-Ku, Seoul, The Republic of Korea Tel: +82-2-3404-9900 Fax: +82-2-3404-9900 Taiwan World Peace Industrial Co., Ltd. 1F, 76 Cheng Kung Road, Sec. 1, Nan Kang, Taipei, Taiwan, R.O.C. Tel: 886-2-27885200 Fax: 886-2-26510286 Synnex Technology International Corp. 4F, 75, Sec. 3, Ming-Sheng E. Rd., Taipei, Taiwan, R.O.C. Tel: 886-2-25063320 Fax: 886-2-25000606 Acer Sertek Incorporated 8F, 88, Sec 1, Hsin Tai Wu Rd., Hsichin Taipei Hsien 221, Taiwan, R.O.C. Tel: 886-2-26963131 Fax: 886-2-26964817 ASEC International Corporation 4F No. 223 Chung Yang Road, Nan Kang Taipei, Taiwan, R.O.C. Tel: 886-2-27866677 Fax: 886-2-27865257 Micromax International Corp. 3F, No. 103, Sec. 2, Jiow-Jong Rd., Nei-Hu Taipei, Taiwan, R.O.C. Tel: 886-2-27962789 Fax: 886-2-27963889 North American Manufacturer's Representatives Alabama Elcom 4940 Corporate Drive, Suite C Huntsville, AL 35805 Tel: 770-447-8200 Arizona Addem 8700 E. via de Ventura, Suite 265 Scottsdale, AZ 85258 Tel: 770-447-8200 Arkansas BP Sales 689 West Renner Rd., Suite 101 Richardson, TX 75080 Tel: 972-234-8438 California-Southern Vision Technical Sales 300 Goddard, Suite 150 Irvine, CA 92618 Tel: 949-450-9050 California-Northern T3 Technical Sales 3211 Scott Blvd., Suite 201 Santa Clara, CA 95054 Tel: 408-350-3900 Colorado Luscombe Engineering Company Inc. of Colorado 1500 Kansas Avenue, Suite 1B Longmont, CO 80501 Tel: 303-772-3342 Connecticut Impact Technical Sales 294 Cutlers Farm Road Monroe, CT 06468 Tel: 203-268-7229 Delaware Delta Technical Sales Inc. 122 North York Road, Suite 9 Hatboro, PA 19040 Tel: 215-957-0600 Florida Elcom 801 International Parkway, Suite 5066 Lake Mary, FL 32746 Tel: 770-447-8200 Georgia Elcom 4400 Rivergreen Parkway, Suite 120 Duluth, GA 30096 Tel: 770-447-8200 Idaho Luscombe Engineering Company Inc. of Utah 6901 Emerald, Suite 206 Boise, ID 83704 Tel: 208-377-1444 Illinois-Northeastern Oasis Sales 1101 Tonne Road Elk Grove Village, IL 60007 Tel: 847-640-1850 Illinois-Southern Stan Clothier Sales 340 North Main Street, Suite 205A St. Charles, MO 63301 Tel: 636-916-3777 Illinois-Rock Island County Mel Foster Company 3047 Center Point Road NE, Suite D Cedar Rapids, IA 52402 Tel: 319-363-6336 Indiana-Indianapolis Millennium-Alliance Technical Sales 4000 East 96th Street, Suite 160 Indianapolis, IN 46240 Tel: 317-575-4600 Indiana-Kokomo Millennium-Alliance Technical Sales 2715 S. Albright Rd. Kokomo, IN 46902 Tel: 765-453-4260 Iowa Mel Foster Company 3047 Center Point Road NE, Suite D Cedar Rapids, IA 52402 Tel: 319-363-6336 Kansas Stan Clothier Sales 10300 West 103rd St., Suite 205 Overland Park, KS 66214 Tel: 913-894-1675 Kentucky Millennium-Alliance Technical Sales 7155 Post Road Dublin, OH 43016 Tel: 614-793-9545 Louisiana-Northern BP Sales 689 W. Renner Rd., Suite 101 Richardson, TX 75080 Tel: 972-234-8438 Louisiana-Southern BP Sales 10700 Richmond, Suite 150 Houston, TX 77042 Tel: 713-782-4144 Maine Impact Technical Sales One New England Executive Park, First Floor Burlington, MA 01803 Tel: 781-238-8888 Maryland Third Wave Solutions, Inc. 8335H Guilford Road Columbia, MD 21046 Tel: 410-290-5990 Massachusetts Impact Technical Sales One New England Executive Park Burlington, MA 01803 Tel: 781-238-8888 Michigan-Eastern Millennium-Alliance Technical Sales 21800 Haggerty Road, Suite 203 Northville, MI 48167 Tel: 248-305-6700 Michigan-Western Millennium-Alliance Technical Sales 3343 Creek Ct. Holland, Michigan 49424 Tel: 619-399-9265 Minnesota Mel Foster Company 7611 Washington Avenue South Edina, MN 55439 Tel: 952-941-9790 Mississippi Elcom 4940 Corporate Dr., Suite C Huntsville, AL 35805 Tel: 770-447-8200 Missouri-Eastern Stan Clothier Sales 340 North Main Street, Suite 205A St. Charles, MO 63301 Tel: 636-916-3777 205 206 Price Quote and Ordering developer.intel.com Distributor and Manufacturing Representatives Missouri-Western Stan Clothier Sales 10300 West 103rd St., Suite 205 Overland Park, KS 66214 Tel: 913-894-1675 Oklahoma BP Sales 689 West Renner Rd., Suite 101 Richardson, TX 75080 Tel: 972-234-8438 Virginia Third Wave Solutions, Inc. 8335H Guilford Road Columbia, MD 21046 Tel: 410-290-5990 Montana Luscombe Engineering Company of Utah 5097 South 900 East, Suite 200 Salt Lake City, UT 84117 Tel: 801-268-3434 Oregon SiFore Technical Sales, LLC 9115 SW Oleson Rd. Suite 140 Portland, OR 97223 Tel: 503-977-6267 Washington SiFore Technical Sales, LLC 11100 NE 8th Street, Suite 600 Bellevue, WA 98004 Tel: 425-990-4701 Nebraska Stan Clothier Sales 10300 West 103rd St., Suite 205 Overland Park, KS 66214 Tel: 913-894-1675 Nevada-Las Vegas Addem 8700 E. via de Ventura, Suite 265 Scottsdale, AZ 85258 Tel: 480-421-9270 Nevada-Reno T3 Technical Sales 3211 Scott Blvd, Suite 201 Santa Clara, CA 95054 Tel: 408-350-3900 New Hampshire Impact Technical Sales One New England Executive Park, First Floor Burlington, MA 01803 Tel: 781-238-8888 New Jersey-Northern Parallax, Inc. 140 Fell Ct Hauppauge, NY 11788 Tel: 631-351-1000 New Jersey-Southern Delta Technical Sales, Inc. 122 North York Road, Suite 9 Hatboro, PA 19040 Tel: 215-957-0600 New Mexico Addem 6220 East Thomas Rd., Suite 303 Scottsdale, AZ 85251 Tel: 480-421-9270 New York-NY City/Long Island Parallax, Inc. 140 Fell Ct Hauppauge, NY 11788 Tel: 631-351-1000 New York-Upstate Foster & Wager Incorporated 55 Webster Commons Blvd. Webster, NY 14580 Tel: 585-872-1030 North Carolina Elcom 15200 Weston Parkway, Suite 104 Cary, NC 27513 Tel: 770-447-8200 North Dakota Mel Foster Company 7401 East Palomino Road Sioux Falls, SD 57110 Tel: 605-332-7307 Pennsylvania-Eastern Delta Technical Sales Inc. 122 North York Road, Suite 9 Hatboro, PA 19040 Tel: 215-957-0600 Pennsylvania-Western Millennium Technical Sales 6325 Cochran Rd., Suite 7 Solon, OH 44139 Tel: 440-349-6600 Rhode Island Impact Technical Sales One New England Executive Park, First Floor Burlington, MA 01803 Tel: 781-238-8888 Washington, D.C. 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Thame House; Thame Road Office Suite 1 Haddenham Buckinghamshire United Kingdom HP178HU Tel: 44-1844-296800 Italy Overtek s.r.l. Via Ludovico di Breme, 46 20156 Milano, MI Italy Tel: 39-02-3088566 Luxemburg IC-4S Interleuvenlaan 62 3001 Leuven Belgium Tel: 32-16-400025 Netherlands IC-4S Interleuvenlaan 62 3001 Leuven Belgium Tel: 32-16-400025 Norway Cedar Scandinavia AB Fagerstagatan 15, 5tr P.O. Box 8204 16308 Spanga Sweden Tel: 46-(8)-56472583 Apera Technologies Inc. 905 Michele-Bohec Blainville, Quebec, J7C5L6, Canada 450-971-6969 www.aperatech.com Portugal IC-4S PTM, Isaac Newton 2 28760 Tres Cantos (Madrid) Spain Tel: 34-918041495 European Manufacturer's Representatives Spain IC-4S PTM, Isaac Newton 2 28760 Tres Cantos (Madrid) Spain Tel: 34-918041495 Belgium IC-4S Interleuvenlaan 62 3001 Leuven Belgium Tel: 32-16-400025 Denmark Cedar Scandinavia AB Fagerstagatan 15, 5tr P.O. Box 8204 16308 Spanga Sweden Tel: 46-(8)-56472583 Finland Cedar Scandinavia AB Fagerstagatan 15, 5tr P.O. Box 8204 16308 Spanga Sweden Tel: 46-(8)-56472583 Sweden Cedar Scandinavia AB Fagerstagatan 15, 5tr P.O. Box 8204 16308 Spanga Sweden Tel: 46-(8)-56472583 Switzerland Prisma Sales Service GmbH Foehrenweg 26 D-29308 Winsen/Aller Germany Tel: 49-5143-912540 United Kingdom Cedar Technologies Ltd. Thame House; Thame Road Office Suite 1 Haddenham Buckinghamshire United Kingdom HP178HU Tel: 44-1844-296800 developer.intel.com Latin American Manufacturer's Representatives Brazil Hitech Electronica Rua Cunha Gago, 700 9 andar Sao Paulo, SP Brazil 05421-001 Tel: 55-11-3094-3844 Japanese Manufacturer's Representatives Nagano Japan Radio Co., Ltd. Intel Consulting Group 5-33-8 Sendagaya shibuya-ku Tokyo Japan 151-0051 813-5360-4555 Novatec Corporation 2-19-2 Nishi-Gotanda Shinagawa-ku Tokyo Japan 141-0031 813-5759-261 141-0031 813-5759-2612 Price Quote and Ordering 207 208 Price Quote and Ordering developer.intel.com NOTE: PLEASE ADJUST SPINE TO PROPER WIDTH Europe Intel Corporation (UK) Ltd. Pipers Way Swindon Wiltshire SN3 1RJ UK Phone: England (44) 1793 403 000 France (33) 1 4694 7171 Germany (49) 89 99143 0 Italy (39) 02 575 441 Israel (972) 2 589 7111 Netherlands (31) 20 659 1800 Asia Pacific Intel Semiconductor Ltd. 32/F Two Pacific Place 88 Queensway, Central Hong Kong SAR Phone: (852) 2844-4555 The Communications and Embedded Products Source Book 2004 May 2004 Japan Intel Kabushiki Kaisha P.O. Box 300-8603 Tsukuba-gakuen 5-6 Tokodai, Tsukuba-shi Ibaraki-ken 300-2635 Japan Phone: (81) 298-47-8511 The Communications and Embedded Products Source Book Intel Corporation United States and Canada Intel Corporation Robert Noyce Building 2200 Mission College Boulevard P.O. Box 58119 Santa Clara, CA 95052-8119 USA Phone: (408) 765-8080 South America Intel Semicondutores do Brasil Av. Dr Chucri Zaidan, 940- 10th floor Market Place Tower II 04583-906 Sao Paulo-SP-Brasil Phone: (55) 11 3365 5500 Copyright (c) 2004 Intel Corporation Intel, and the Intel logo are registered trademarks of Intel Corporation. * Other names and brands may be claimed as the property of others. Printed in USA/2004/10K/MD/HP Order No. 272676-012 Covering the spectrum of Intel communications products