Intel's second-generation network processors are the first implementation of Intel's Hyper Task Chaining technology. This unique network processing approach allows a single stream packet/cell processing problem to be decomposed into multiple, sequential tasks that can be easily linked together. The hardware design uses 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 software pipelining and fast inter-process communication, Hyper Task Chaining delivers rich processing capability at OC-48/2.5 Gbps line rates.The 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 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-and-forward architecture combines a high-performance Intel XScale® core with eight 32-bit independent multi-threaded 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.
Features and Benefits
8 integrated programmable microengines with 4K instruction program stores
Enhanced second-generation flexible multi-threaded 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 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
2 unidirectional 32-bit media interfaces (Rx and Tx) programmable to be SPI-3, UTOPIA 1/2/3 or CSIX-L1. Each path is configurable for 4x8-bit, 2x16bit, 1x32bit or combinations of 8 & 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
1 industry-standard DDR DRAM interface
Memory subsystem supports the network processor store-and-forward processing model
2 industry-standard QDR SRAM interface
Memory subsystem for look-up tables and access lists, or co-processors (such as CAM/TCAM, IPsec devices). NPF standardized interface for co-processors
PCI 2.2 64 bit/66 MHz I/O Interface
Supports industry-standard connection to system host processors
Asynchronous control interface supports 8, 16 or 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 product development and reduces system cost
JTAG support
Improve hardware debug ability
Software SDK
Improves time to market via robust hardware and software development tools
Hardware Development Platform
Improves time to market via robust hardware and software development tools
Additional integrated hardware features:- Hardware Hash Unit (48, 64 and 128 bit)- 16 KByte Scratchpad Memory- Serial UART port for debug- 4 general-purpose I/O pins- 4 32-bit timers
Simplifies development, reduces development cost and saves board space
Friday, December 12, 2008
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