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Tensilica Configurable Processors Used in Stanford Smart Memories Project

SANTA CLARA, CA, - February 28, 2008 - Tensilica, Inc. today announced that Stanford University's Smart Memories Project used Tensilica's Xtensa LX2 configurable processor to develop a multiprocessor computing infrastructure for next generation applications. The Stanford Smart Memories Project has developed a prototype system-on-chip (SOC) design that provides the user the ability to program both the processor and the memory system of a chip-level multiprocessor. Using Tensilica allowed the Smart Memory team to focus on creating a flexible memory system that supports many different memory models, including message passing, coherent shared memory, and transactional memory. The design is currently being evaluated for possible commercial deployment by a couple of large semiconductor companies.

"It's exciting to see our processor cores enabling ground-breaking research on next-generation computing architectures," said Chris Rowen, Tensilica's president and CEO. "Universities play a key role in driving major electronics innovations, especially in the grand-challenge problems in scalable multiprocessor architectures and software paradigms."

The Stanford team configured Xtensa as 3-way issue VLIW processors with seven stage pipeline, 64 general purpose registers, a 32-bit floating point using the TIE (Tensilica Instruction Extension) Language. The Smart Memories group has defined new interfaces to the memory, which allows the processor to respond to the meta-data bits in the memory so it can support various kinds of cache coherence. The resulting system is a hierarchical multiprocessor. Two Tensilica processors are placed in a tile, along with a number of programmable memory mats. Four tiles are then grouped with a programmable local memory controller to form a quad, and quads interconnect with each other and memory controllers through an on-chip network to form a Smart Memory chip.

Stanford researchers designed Smart Memories to efficiently support different programming models, allowing an application to be programmed and run in the model that gives the best performance and/or programming ease. Smart Memories can reconfigure its memory system to provide the unique memory access requirements for each of three major models:

  1. The Shared Memory/Multithread programming model gives the programmer a cache coherent shared memory environment.
  2. The Streaming programming model is especially useful in high-performance data-parallel applications, such a multimedia and DSP.
  3. The Transaction programming model offers a simpler way to parallelize applications than by using different threads.

About Tensilica

Tensilica offers the broadest line of controller, CPU and specialty DSP processors on the market today, in both an off-the-shelf format via the Diamond Standard Series cores and with full designer configurability with the Xtensa processor family. Tensilica's low-power, benchmark proven processors have been designed into high-volume products at industry leaders in the digital consumer, networking and telecommunications markets. All Tensilica processor cores are complete with a matching software development tool environment, portfolio of system simulation models, and hardware implementation tool support. For more information on Tensilica's patented approach to the creation of application-specific building blocks for SOC design, visit .

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Editors' Notes:

  • Tensilica and Xtensa are registered trademarks belonging to Tensilica Inc. All other company and product names are trademarks and/or registered trademarks of their respective owners.
  • Tensilica's announced licensees include Afa Technologies, ALPS, Aquantia, Astute Networks, Atheros, AMD (ATI), Avision, Bay Microsystems, Berkeley Wireless Research Center, Broadcom, Brocade, Chiplen, Cisco Systems, CMC Microsystems, Conexant Systems, DS2, EE Solutions, Epson, ETRI, FUJIFILM Microdevices, Fujitsu Ltd., Hudson Soft, iBiquity Digital, Ikanos Communications, Intel, Juniper Networks, LG Electronics, Lucid Information Technology, Marvell, MediaPhy, NEC Laboratories America, NEC Corporation, NetEffect, Neterion, Nethra Imaging, Nippon Telephone and Telegraph (NTT), NuFront, NVIDIA, Olympus Optical Co. Ltd., Penstar, Plato Networks, PnpNetwork Technologies, Samsung, SandForce, Server Engines, SiBEAM, Silicon Optix, Sony, STMicroelectronics, Stretch, TranSwitch Corporation, u-Nav Microelectronics, UpZide, Valens Semiconductor, Validity Sensors, Victor Company of Japan (JVC), and XM Radio.