Intrinsity Announces 2 GHz FastMATH Adaptive Signal Processor and FastMIPS Microprocessor for Embedded Systems.Business Editors & High-Tech Writers Embedded Processor A CPU chip used in a system other than a general purpose workstation, desktop or laptop computer. Such chips are used by the billions every year in a myriad of products. See embedded system. Forum 2002 AUSTIN, Texas--(BUSINESS WIRE)--April 22, 2002 New Adaptive Signal Processor(TM) Chip Provides ASIC-Level Computational Performance with the Programming Advantages of Embedded Inserted into. See embedded system. Microprocessors Intrinsity, Inc. a fabless semiconductor company A fabless semiconductor company specializes in the design and sale of hardware devices implemented on semiconductor chips. It achieves an advantage by outsourcing the fabrication of the devices to a specialized semiconductor manufacturer called a semiconductor foundry or "fab. , today announced the FastMATH(TM) microprocessor, a multi-GHz Adaptive Signal Processor(TM) chip that delivers unsurpassed programmable performance on real-time, adaptive signal processing See DSP. applications. Intrinsity's FastMATH(TM) microprocessor combines an innovative MIPS (Million Instructions Per Second) The execution speed of a computer. For example, .5 MIPS is 500,000 instructions per second; 100 MIPS is a hundred million instructions per second. (R)-based architecture with 2 GHz speeds, delivering unprecedented real-time signal-processing performance in applications that would otherwise require banks of DSPs, expensive FPGAs or power-hungry desktop CPUs. Unlike those products or exotic alternatives, the FastMATH(TM) microprocessor is fully-programmable, scaleable and uses industry-standard development tools. The price-performance and programming ease of Intrinsity's FastMATH(TM) microprocessor improves the economics and time-to-market schedules of many application areas, including medical imaging, military systems, network infrastructure and mobile data communications data communications, application of telecommunications technology to the problem of transmitting data, especially to, from, or between computers. In popular usage, it is said that data communications make it possible for one computer to "talk" with another. . Designed to scale beyond 4 GHz, the FastMATH(TM) processor delivers six times the performance of the fastest DSPs on common, math-intensive operations, such as the Fast Fourier Transform See FFT. (algorithm) Fast Fourier Transform - (FFT) An algorithm for computing the Fourier transform of a set of discrete data values. Given a finite set of data points, for example a periodic sampling taken from a real-world signal, the FFT expresses the data in terms of (FFT (Fast Fourier Transform) A class of algorithms used in digital signal processing that break down complex signals into elementary components. FFT - Fast Fourier Transform ) algorithm. Adaptive signal processing algorithms are even more math-intensive and must quickly compute new system parameters based on multiple high-speed data streams. "DSPs, FPGAs and desktop processors are clearly not meeting all the needs of today's high-performance adaptive signal processing applications. Intrinsity is utilizing its patented design technology, Fast14(TM) Technology, to create very high performance processors that will help our customers accelerate the wide-spread adoption of these applications," stated Paul Nixon, CEO (1) (Chief Executive Officer) The highest individual in command of an organization. Typically the president of the company, the CEO reports to the Chairman of the Board. , president and co-founder of Intrinsity. "Our FastMATH(TM) Adaptive Signal Processor(TM) product can provide the computational speed of ASICs, while delivering the well-proven cost and time-to-market benefits of industry-standard RISC RISC in full Reduced Instruction Set Computing Computer architecture that uses a limited number of instructions. RISC became popular in microprocessors in the 1980s. microprocessors." Adaptive signal processing systems typically consist of arrays of changing data that require complex processing to deliver real-time performance in response to changing conditions. Broadly-defined examples include picking signals out of background noise, canceling out interference from multiple sources and dynamically altering systems to respond to inputs from sensors or data streams. A large number of well-established adaptive signal processing algorithms already demand either higher computation rates or lower-cost implementations - or both. The FastMATH(TM) Adaptive Signal Processor(TM) product has integrated on one piece of silicon three key components designed to meet these challenging conditions: -- 2 GHz Matrix and Parallel Vector Math Unit - Provides exceptional parallel data computational performance on the commonly-used matrix and vector math data types found in adaptive algorithms. -- 2 GHz MIPS32(TM)Processing Core - Provides the ease of programming and flexibility to address changing algorithms and standards. -- High-Speed I/O - Allows complex, adaptive algorithms to be partitioned cost-effectively across multiple FastMATH(TM) processors by providing dual RapidIO(TM) ports. For the first time, these elements are combined to form an Adaptive Signal Processor(TM) chip capable of delivering unprecedented programmable performance in real-time signal processing applications. This technology is especially valuable to designers of wireless systems as they innovate new ways to extend the capacity of cell towers in wireless systems: "As more users crowd the usable radio spectrum and demand higher data rates, more complex processing is required to make efficient use of this limited resource," stated Dr. Jim Gunn, Forward Concepts Senior Consultant. "By accelerating adaptive signal processing algorithms with their multi-GHz FastMATH(TM) processor, Intrinsity offers technology that can enable wireless systems to make more efficient use of the limited bandwidth available for each cell site." Multi-user detection (MUD) is an example of an emerging solution to cell site capacity limitations. "Intrinsity's FastMATH processor provides a compelling, highly scalable solution to the intensive math computational needs of the MUD algorithms," said Barry Isenstein, VP & General Manager of Mercury Computer Systems' Wireless Communications wireless communications System using radio-frequency, infrared, microwave, or other types of electromagnetic or acoustic waves in place of wires, cables, or fibre optics to transmit signals or data. Group. Intrinsity also announced today the 2 GHz FastMIPS(TM) high-performance MIPS-based(TM) embedded processor. Delivered from a standard 0.13-micron foundry process and scaleable to 4 GHz, the FastMIPS(TM) product benefits from Intrinsity's Fast14(TM) Technology to allow multi-GHz performance without exotic manufacturing techniques. Targeted at high-performance embedded applications, the FastMIPS(TM) product also includes dual-RapidIO(TM) ports to enable balanced system performance. Intrinsity is a MIPS architectural licensee, and the FastMATH(TM) and FastMIPS(TM) processors are based on the MIPS32 ISA (1) (Instruction Set Architecture) See instruction set. (2) (Interactive Services Association) See Internet Alliance. (3) (Internet Security and Acceleration) See .NET. . The selection of the MIPS architecture MIPS (originally an acronym for Microprocessor without Interlocked Pipeline Stages) is a RISC microprocessor architecture developed by MIPS Technologies. By the late 1990s it was estimated that one in three RISC chips produced were MIPS-based designs. makes designs easy-to-implement, allowing customers to use best-of-breed design tools from suppliers such as Corelis, Green Hills Software, HelloSoft, OSE OSE - Open Systems Environment Systems and WindRiver. "We are excited to announce that Green Hills' award-winning Multi software development environment will support Intrinsity's embedded solutions," said Craig Franklin, Green Hills Software's Vice President of Advanced Products, Inc. "We recognize that the FastMIPS and FastMATH processors provide industry-leading performance for both wireline and wireless applications. Customers developing software for these processors will benefit from the rich feature-set and debug To correct a problem in hardware or software. Debugging software means locating the errors in the source code (the program logic). Debugging hardware means finding errors in the circuit design (logical circuits) or in the physical interconnections of the circuits. capabilities of Multi, the number one development tools environment for MIPS-compatible processors." "We are pleased that Intrinsity has chosen the MIPS architecture as a key facet of its development strategy," said John Bourgoin, chairman and CEO of MIPS Technologies (MIPS Technologies, Inc., Mountain View, CA, www.mips.com) Founded in 1984 as MIPS Computer Systems Inc., the company merged with SGI in 1992 and spun off as an independent entity once again in 2000. . "Intrinsity's and MIPS' licensing agreement will open up new markets and increase the number of growth opportunities for both companies." Intrinsity will begin sampling its FastMATH and FastMIPS processors in 4Q 2002. Additional details will be disclosed at the Embedded Processor Forum that begins on April 29, 2002. Complete product specifications are available with the completion of a non-disclosure agreement A non-disclosure agreement (NDA), also called a confidential disclosure agreement (CDA), confidentiality agreement or secrecy agreement, is a legal contract between at least two parties that outlines confidential materials or knowledge the parties . About Intrinsity: Intrinsity, Inc. is a fabless semiconductor company enabling the creation of more powerful, real-time and intelligent embedded systems Embedded systems Computer systems that cannot be programmed by the user because they are preprogrammed for a specific task and are buried within the equipment they serve. . Founded in May 1997 with headquarters in Austin, Texas, and offices in Boston and Tokyo, Intrinsity has more than 80 employees with more than nine centuries of cumulative processor design experience. For more information about the company visit its Web site at www.intrinsity.com. About MIPS Technologies MIPS Technologies, Inc. is a leading provider of industry-standard processor architectures and cores for digital consumer and network applications. The company drives the broadest architectural alliance that is delivering 32- and 64-bit embedded RISC solutions. The company licenses its intellectual property to semiconductor companies, 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. developers and system OEMs. MIPS Technologies and its licensees offer the widest range of robust, scalable processors in standard, custom, semi-custom and application-specific products. The company is based in Mountain View, Calif., and can be reached at 650/567-5000 or www.mips.com. INTRINSITY, FAST14 and FASTMATH are trademarks of Intrinsity, Inc. MIPS is a registered trademark and MIPS32, MIPS-based and FASTMIPS are trademarks of MIPS Technologies, Inc. RAPIDIO is a trademark of RapidIO Trade Association. All other trademarks are for reference purposes only and are the property of their respective owners. |
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