MIPS Technologies Expands TSMC-Optimized Hard Core Offerings With Availability of the MIPS64 5Kc Core.Business Editors/High Tech Writers SAN JOSE San Jose, city, United States San Jose (sănəzā`, săn hōzā`), city (1990 pop. 782,248), seat of Santa Clara co., W central Calif.; founded 1777, inc. 1850. , Calif. and TAIPEI, Taiwan--(BUSINESS WIRE)--Feb. 6, 2002 Silicon-Tested 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) Cores Offer More Performance, Lower Power Consumption and Smaller Die Size Than Competitive Cores 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. , Inc., (Nasdaq: MIPS, MIPSB), a leading provider of industry-standard processor architectures and cores for digital consumer and network applications, and Taiwan Semiconductor Manufacturing Company Ltd. (NYSE NYSE See: New York Stock Exchange : TSM TSM Tivoli Storage Manager TSM Transportation System Management TSM Taiwan Semiconductor Manufacturing (stock symbol) TSM Taiwan Semiconductor Manufacturing Co. Ltd. ), the world's largest dedicated semiconductor foundry, announced the availability of the MIPS64(TM) 5Kc(TM) hard core. The new 64-bit hard core is in addition to the line of 32-bit hard cores already offered by MIPS Technologies for manufacture at TSMC TSMC Taiwan Semiconductor Manufacturing Company, Ltd TSMC Taiwan Semiconductor Manufacturing Corporation TSMC Traffic Systems Management Center TSMC Toll Station Management Controller TSMC Transportation Supply Maintenance Command TSMC Technical Services Manager Code . Compared to other foundry hard cores, MIPS(R) hard cores offer unparalleled performance for end systems needing higher throughput, lower power consumption and smaller die size in a cost-effective 0.18 micron micron: see micrometer. One micrometer, which is one millionth of a meter or approximately 1/25,000 of an inch. The tiny elements that make up a transistor on a chip are measured in micrometers and nanometers. See process technology. industry-standard process. This announcement coincides with the opening of MIPS Technologies' new sales and marketing office in Taiwan. The event, held in Taipei, was attended by senior executives of MIPS Technologies, TSMC and an array of Taiwan government representatives and executives from new regional partners and distributors (see companion announcement). MIPS hard cores enable today's semiconductor companies to use a cost-effective industry-standard foundry process with minimum integration cost and reduced risk to deliver robust, high-performance SOC designs that create higher system value for their customers. Semiconductor manufacturers and system OEMs trying to meet the demands of high-growth markets such as consumer electronics and communications require high-performance, low-power processors for feature-rich products, and also face enormous competitive pressures to shorten (audio, compression) Shorten - A form of lossless audio compression. product design cycles and minimize development cost. A MIPS foundry hard core, which can be dropped into an SOC or 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. design, allows them to get to market faster, lower development costs and reduce risk. Compared to other foundry hard cores, MIPS hard cores offer unparalleled performance for creating cost-effective systems that need higher throughput, lower power consumption and smaller die size. For example, the 5Kc hard core in a 0.18-micron process offers 25 percent more performance than its nearest competitor in a more costly 0.15-micron process. Other available MIPS hard cores include the MIPS32 4Kc(TM) and 4Km(TM) cores; all are currently ported to TSMC's 0.18 micron core CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. logic process. The 4Kc hard core delivers 18 percent more performance than its nearest competitor in a 60-percent smaller die area, resulting in lower silicon cost. Leveraging the higher performance of the 4Kc core results in 25 percent lower power consumption. "At process geometries of 0.18 micron and below, the historical tradeoff of size versus performance changes dramatically, making these 64-bit processor cores very attractive for a range of SOC applications," said Genda Hu, vice president of marketing at TSMC. "The MIPS64 5Kc core's high-performance attributes, added to the compact MIPS32 4K family of hard cores, are a superb combination of software-compatible, ready-to-use cores for SOC development." "These foundry hard cores offer tremendous value with the most competitive performance metrics Performance metrics are measures of an organizations activities and performance. Performance metrics should support a range of stakeholder needs from customers, shareholders to employees [1]. in the SOC market today," said Kevin Meyer, vice president of marketing at MIPS Technologies. "In the current economic climate, competitive companies are driven to develop feature-rich products on high performance and scalable platforms. Now, those companies can do so using industry standard processor cores that enable higher-value products and, therefore, higher profit margins." SOC designer who have used 32-bit cores from MIPS competitors, can now take advantage of The MIPS64 5Kc, with its 64-bit technology, without paying a penalty in die size or power consumption. Features of the 5Kc hard core include: -- A full 64-bit, 6-stage pipeline. -- 64K instruction cache, 64K data cache. -- A 32 dual-entry TLB memory management unit. -- A fast multiply/divide unit with single-cycle MAC instructions. -- 32 64-bit general-purpose registers. -- Gated clocks for reduced power consumption. -- Using the TSMC 0.18-micron CL018G process, the die size of the 5Kc, including caches, is less than 20 mm2. -- Power consumption is less than 3.1 mW/MHz and typical speed(1) is 310MHz, delivering 435 DMIPS performance. The MIPS32 4K family of cores provides a high-performance, low-power, 32-bit processor platform in a range of price/performance options. Features of the 4Kc hard core include: -- A full 32-bit, 5-stage pipeline. -- 16K instruction cache, 16K data cache. -- A 16 dual-entry TLB TLB - Translation Look-aside Buffer memory management unit. -- A fast multiply/divide unit with single-cycle MAC instructions. -- 32 general-purpose registers. -- Gated clocks for reduced power consumption. -- Using TSMC's 0.18-micron CL018G process, the die size of the 4Kc, including the caches, is less than 7 mm2. -- Power consumption is less than 2 mW/MHz and typical speed(1) is 263MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. , delivering 342 DMIPS DMIPS Dhrystone MIPS (Million Instructions Per Second) performance. The MIPS32 4Km hard core has been designed to provide optimum performance at an affordable price. Features of the 4Km hard core include: -- A full 32-bit, 5-stage pipeline. -- 8K instruction cache, 8K data cache. -- A fixed address translation memory management unit. -- A fast multiply/divide unit with single-cycle MAC instructions. -- 32 general-purpose registers. -- Gated clocks for reduced power consumption. -- Using the TSMC 0.18-micron CL018G process, the die size of the 4Km, including caches, is less than 4.7 mm2. -- Power consumption is less than 1.7 mW/MHz and typical speed(1) is 263MHz, delivering 342 DMIPS performance. (1) Typical speed condition: TT process corner, 25(Degree)C Tj, Norminal Vdd without clock uncertainty Pricing and Availability These TSMC-optimized foundry 32- and 64-bit hard cores are available for licensing today from MIPS Technologies for license fees as low as $250,000. 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 Inserted into. See embedded system. 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. solutions. The company licenses its intellectual property to semiconductor companies, ASIC 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 +1 (650) 567-5000 or www.mips.com. Note to Editors: MIPS(R) is a registered trademark in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. and other countries, and MIPS-based(TM), MIPS32(TM), 4Kc(TM), 4Km(TM), MIPS64(TM) and 5Kc(TM) are trademarks of MIPS Technologies, Inc. All other trademarks referred to herein are the property of their respective owners. |
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