Tensilica Uses Synopsys Design Compiler FPGA Tool to Improve Prototyping Design Flow.SANTA CLARA, Calif. -- Tensilica, Inc., the leading supplier of configurable and extensible microprocessor cores, announced that it has based its FPGA (Field Programmable Gate Array) A type of gate array that is programmed in the field rather than in a semiconductor fab. Containing up to hundreds of thousands of gates, there are a variety of FPGA architectures on the market. prototyping design flow on the Design Compiler(R) FPGA (DC FPGA) tool from Synopsys, Inc. Only DC FPGA supports key design elements of the Tensilica(R) processor. When designers of Tensilica's Xtensa(R) configurable processors want to create an FPGA-based prototype of a system on chip (SoC) that incorporates one or more Xtensa processors before committing to final silicon, Tensilica's patented Xtensa Processor Generator uses the DC FPGA tool to generate an optimized FPGA netlist. "The DC FPGA tool is the only FPGA synthesis solution that supports key design elements of our Xtensa LX processor, including fine-grain clock gating," stated Ashish Dixit, vice president of Engineering for Tensilica. "Design teams that use Tensilica's Xtensa LX processor and DC FPGA achieve better quality-of-results, faster time to prototype and lower prototype costs." Since designers can extensively customize Xtensa processors, many design teams download different configurations into FPGA-based emulation platforms to test the complete SoC including the custom-configured processor. The Xtensa Processor Generator uses the DC FPGA tool to quickly deliver optimized versions of these customized configurations as pre-verified FPGA netlists. Highly efficient implementations and maximum system performance are obtained by taking advantage of the unique fine-grain clock gating transformations and register retiming capabilities in the DC FPGA tool. The fine-grain clock gating transformations map complex register control logic into a highly efficient implementation tailored to the specific FPGA device to be used as the prototype. The register retiming relies on the DC FPGA tool to insert registers in complex multi-cycle logic to maximize system performance. "Tensilica has discovered the value of applying the Design Compiler compatible flow for prototyping ASICs on FPGAs," said Michael Jackson, vice president of Engineering, ASIC (Application Specific Integrated Circuit) Pronounced "a-sick." A chip that is custom designed for a specific application rather than a general-purpose chip such as a microprocessor. and FPGA Synthesis, at Synopsys. "Use of Design Compiler FPGA to prototype customized Xtensa processors allows designers to evaluate a broad range of implementations before selecting the one for their ASIC, leading to products that more closely meet their cost, functionality, and performance goals." About Tensilica Tensilica was founded in July 1997 to address the growing need for optimized, application-specific microprocessor solutions in high-volume embedded applications. With a configurable and extensible microprocessor core called Xtensa, Tensilica is the only company that has automated and patented the time-consuming process of generating a customized microprocessor core along with a complete software development tool environment, producing new configurations in a matter of hours. For more information, visit www.tensilica.com. 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 Agilent, ALPS, AMCC AMCC Applied Micro Circuits Corporation AMCC Air Mobility Control Center AMCC Ashore Mobile Contingency Communications AMCC Advanced Materials Commercialization Center AMCC allied movement coordination center (US DoD) (JNI (Java Native Interface) A programming interface (API) in Sun's Java Virtual Machine used for calling native platform elements such as GUI routines. RNI (Raw Native Interface) is the JNI counterpart in Microsoft's Java Virtual Machine. JNI - Java Native Interface Corporation), Astute Networks, ATI (ATI Technologies Inc., Markham Ontario, http://ati.amd.com) A leading manufacturer of graphics chips and display adapters. Founded in 1985 by K. Y. Ho, Benny Lau and Lee Lau, ATI chips and boards are widely used by OEMs. , Avision, Bay Microsystems, Berkeley Wireless Research Center, Broadcom, Cisco Systems, Conexant Systems, Cypress, Crimson Microsystems, ETRI ETRI Electronics & Telecommunications Research Institute (Korea) ETRI Enhanced Threat Reduction Initiative ETRI Electronics Telecommunication Research Inc. , FUJIFILM Microdevices, Fujitsu Ltd., Hudson Soft, Hughes Network Systems Hughes Network Systems, LLC (HNS), is a provider of broadband satellite network products for businesses and consumers. HNS pioneered the development of high-speed satellite Internet access services and IP-based networks with its original DirecPC service but which it now markets , Ikanos Communications, LG Electronics, Marvell, NEC (NEC Corporation, Tokyo, www.nec.com, www.necus.com) An electronics conglomerate known in the U.S. for its monitors. In Japan, it had the lion's share of the PC market until the late 1990s (see PC 98). NEC was founded in Tokyo in 1899 as Nippon Electric Company, Ltd. Laboratories America, NEC Corporation, NetEffect, Nippon Telephone and Telegraph (NTT NTT Nippon Telegraph and Telephone Corporation NTT New Technology Telescope NTT National Technology Transfer, Inc NTT Name That Tune (TV game show) NTT National Tree Trust NTT Number Theoretic Transform ), Olympus Optical Co. Ltd., S2io, Solid State Systems, Sony, STMicroelectronics, Stretch, TranSwitch Corporation, and Victor Company of Japan (JVC JVC Victor Company of Japan (or Japan's Victor Company) JVC Jewelers Vigilance Committee JVC Jesuit Volunteer Corps JVC Jet Vane Control (directs VLS-launched missiles) JVC Jonker-Volgenant-Castanon ). |
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