Xtensa 6 Processor Core Provides Fastest Customization Path, Lower Power and Advanced Security Provisions; Algorithm to Fully Configured Core in Less Than One Hour.SANTA CLARA, Calif. -- Tensilica(R), Inc., today announced a new version of its Xtensa(R) processor family -- the Xtensa 6 configurable and extensible processor core for system-on-chip (SOC) design. As a replacement for Tensilica's workhorse Xtensa V processor, Xtensa 6 adds three major enhancements: the ability to automatically customize it from a C/C C/C Center to Center C/C Combustion Chamber C/C Command/Control C/C Crew Chief C/C cabin cruiser (US DoD) C/C chief complaint (medical) C/C Channel-to-Channel C/C Communication and Collaboration ++ based algorithm using Tensilica's proven XPRES (TM) Compiler; approximately 30 percent lower power than Xtensa V; and advanced security provisions in MMU-enabled configurations through a "no execute" bit that provides enhanced protection against malicious code. "Xtensa 6 provides SOC designers with the fastest, most cost-effective SOC block design tool in the industry," stated Steve Roddy, vice president of marketing, Tensilica. "By using our popular XPRES Compiler, in less than an hour designers can create application-specific building blocks that can serve as either conventional control processors or as a suitable alternative to RTL-based hardware block design, but in a fraction of the time and without the verification headaches. We expect this product to significantly widen our customer base because it fully automates time-and-resource intensive IC design steps and adds programmability to the post-silicon design, a crucial value-add enabler in fast-moving, high-volume SOC markets." Automatic Configurations from C/C++ Code Tensilica's XPRES Compiler enables the rapid development of optimized SOC building blocks without requiring designers to hand code their hardware using design languages like VHDL (VHSIC Hardware Description Language) A hardware description language (HDL) used to design electronic systems at the component, board and system level. VHDL allows models to be developed at a very high level of abstraction. and Verilog, which take months of design and verification effort. Instead, designers input the original algorithm that they're trying to optimize, written in standard ANSI (American National Standards Institute, New York, www.ansi.org) A membership organization founded in 1918 that coordinates the development of U.S. voluntary national standards in both the private and public sectors. It is the U.S. member body to ISO and IEC. C/C++, and the XPRES Compiler, coupled with Tensilica's automated processor generation technology, automatically generates an RTL (Register Transfer Level) A high-level hardware description language (HDL) for defining digital circuits. The circuits are described as a collection of registers, Boolean equations, control logic such as "if-then-else" statements as well as complex event sequences; (register transfer level) hardware description and associated tool chain. The XPRES Compiler automatically determines which functions should be accelerated in hardware and generates a comprehensive hardware/software solution for those functions. No RTL coding is required; the XPRES Compiler automatically generates the necessary RTL code that is pre-verified to be correct by construction. In less than an hour, the resulting hardware block is delivered electronically in the form or a pre-verified Xtensa 6 processor core that has been optimized for that exact application. The correct by construction generated RTL removes the verification headaches associated with hand-generated, non-programmable hardware blocks. The XPRES Compiler allows designers to quickly evaluate different configurations and make area/speed/power trade-offs. It also preserves C code portability, generating Xtensa 6 processors that can be re-used over a range of similar application software code. Similar code can take advantage of the acceleration without any modification due to the automatically generated C/C++ compiler associated with that particular configuration. Additionally, the XPRES Compiler also works with Tensilica's flagship Xtensa LX processor, meaning that XPRES Compiler users can rapidly explore a wide range of hardware alternatives. Lower Power for Handheld Applications Tensilica significantly improved the base architecture of the Xtensa 6 processor, resulting in a 25-30 percent improvement in power dissipation. Several techniques were employed. Tensilica used both fine-grain clock gating, which turns off power to small sections of the processor when not in demand, and coarse-grain clock gating, which conserves power throughout much larger portions of the chip. For example, when a processor activity such as a cache-line fill occurs, coarse-grain clock gating is activated, saving valuable power. Advanced Security Provisions In this newest member of the Xtensa processor family, Tensilica employs advanced security provisions in the Xtensa MMU (Memory Management Unit) The part of the computer that governs memory access. Either part of the CPU chip or housed on separate chips, the MMU controls memory partitions and virtual memory. See memory and virtual memory. MMU - Memory Management Unit (Memory Management Unit) configuration option similar to what AMD (Advanced Micro Devices, Inc., Sunnyvale, CA, www.amd.com) A major manufacturer of semiconductor devices including x86-compatible CPUs, embedded processors, flash memories, programmable logic devices and networking chips. and Intel have provided for personal computers. While AMD calls the feature Enhanced Virus Protection Enhanced Virus Protection, often abbreviated as EVP, is a proprietary technology used by AMD which attempts to prevent malicious computer code from being executed without the user's knowledge or permission. (EVP EVP Executive Vice President EVP EGR (Exhaust Gas Recirculation) Valve Position Sensor EVP Electronic Voice Phenomenon EVP Europäische Volkspartei (Germany) EVP Employee Value Proposition ) and Intel calls it eXecute Disable (XD), it is generically known as NX for No eXecute. NX provides the ability to protect portions of memory so processor instructions can't execute in those areas. In Xtensa 6 configurations that employ the full virtual memory capability of the Xtensa MMU, the new security features of the Xtensa 6 design set some areas of memory off bounds, thus helping to prevent worms and other types of malicious code from executing functions. This feature will be of interest to designers planning to run the embedded Linux operating system on Xtensa 6 processors, as this feature will be incorporated in future versions of the Linux operating system. Pricing and Availability Tensilica's new Xtensa 6 processor is available now. Licensing fees for a single processor configuration with perpetual usage rights start at $350,000. About Tensilica Tensilica was founded in July 1997 to address the growing need for optimized, application-specific processor solutions in high-volume embedded applications. With a configurable and extensible processor core called Xtensa, Tensilica is the only company that has automated and patented the time-consuming process of generating a customized processor 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. 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Ltd., sci-worx, Seiko Epson, 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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