Berkeley Design Automation's PLL Noise Analyzer(TM) Accelerates Time-To-Volume; Precision Circuit Analysis(TM) Technology Enables Japan's Leading DRAM Supplier To Deliver High-Speed Memory Devices On Time.SANTA CLARA Santa Clara, city, Cuba Santa Clara (sän`tä klä`rä), city (1994 est. pop. 217,000), capital of Villa Clara prov., central Cuba. , Calif. -- Berkeley Design Automation Inc., a provider of innovative silicon analysis tools for analog/RF and mixed-signal applications, today announced the adoption and successful deployment of PLL PLL - phase-locked loop Noise Analyzer. Elpida Memory, Inc. was able to meet the high-performance, low-noise, and low-power specifications for the phase-locked loops (PLLs) in their advanced memory chips by using the fast and accurate noise analysis and diagnostic capabilities provided by Berkeley Design's Precision Circuit Analysis(TM) technology. "Elpida's advanced memory devices run at very high clock rates and must meet very tight noise specifications," said Yoshitaka Kinoshita, product development officer at Elpida. "The ability of PLL Noise Analyzer to provide fast and accurate transistor-level jitter A flicker or fluctuation in a transmission signal or display image. The term is used in several ways, but it always refers to some offset of time and space from the norm. For example, in a network transmission, jitter would be a bit arriving either ahead or behind a standard clock cycle analysis for the PLLs in our designs before tape-out enabled us to reduce the number of silicon prototype cycles and thereby accelerate our time to volume." DRAM products must meet high performance and low power specifications, while also providing high capacity. With traditional analog/RF analysis methodologies and tools, there is a gap between what the designers observe in simulation compared to the actual silicon measurements - this is called the analysis gap. This gap makes it necessary to produce multiple silicon prototypes to accurately characterize these designs, resulting in delayed time to volume and increased product development costs. Berkeley Design Automation has developed next generation circuit analysis technologies, called Precision Circuit Analysis (PCA (tool, programming) PCA - A dynamic analyser from DEC giving information on run-time performance and code use. ), to close the analysis gap by allowing designers to accurately characterize their designs before tape-out. PLL Noise Analyzer, the company's first product, is the industry's only tool that accurately characterizes the noise and jitter performance of nonlinear circuits, such as PLLs and VCOs, at the transistor level. Berkeley Design's proprietary Stochastic Nonlinear Engine(TM), a key component of the PCA technology and the foundation of PLL Noise Analyzer, provides fast and accurate analysis of the nonlinear, time-varying behavior of full PLL circuits at the transistor level. By supporting standard HSPICE and Spectre netlist and model formats, PLL Noise Analyzer can be easily adopted into existing verification flows. "We are excited that Elpida has chosen PLL Noise Analyzer to verify the noise performance of the PLLs in its most advanced memory devices," said Ravi Subramanian, president and 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. of Berkeley Design Automation. "Our Precision Circuit Analysis technology provides incredible speed and accuracy that allows companies such as Elpida to reduce silicon re-spins and get their chips to volume production on time." About Berkeley Design Automation Berkeley Design Automation Inc. was founded in 2003 to address the verification challenges in the design of next-generation high-performance analog/RF integrated circuits (ICs). Berkeley Design Automation is a venture-backed, private company funded by Woodside Fund and Bessemer Venture Partners Bessemer Venture Partners is a private venture capital firm with offices in Silicon Valley, New York, Massachusetts, China, and India. It has backed such companies as Ciena, Flarion, Parametric Technologies, Skype, Staples, VeriSign and Veritas. . The company's technology characterizes the nonlinear, time-varying behavior of complex analog and RF circuits, providing extremely accurate predictions that dramatically reduce the need for silicon re-spins. The company's first product, PLL Noise Analyzer, the industry's first noise analysis tool for phase-locked loops (PLLs), has already been adopted by semiconductor industry leaders. For more information, see http://www.berkeley-da.com. PLL Noise Analyzer, Stochastic Nonlinear Engine, and Precision Circuit Analysis are trademarks of Berkeley Design Automation, Inc. Berkeley Design is a registered trademark of Berkeley Design Automation, Inc. HSPICE is a registered trademark of Synopsys Inc. (NASDAQ NASDAQ in full National Association of Securities Dealers Automated Quotations U.S. market for over-the-counter securities. Established in 1971 by the National Association of Securities Dealers (NASD), NASDAQ is an automated quotation system that reports on :SNPS SNPS Space Nuclear Power System ). Spectre is a registered trademark of Cadence Design Systems (company) Cadence Design Systems - A company that sells electronic design automation software and services. http://cadence.com/. See also Verilog. Inc. (NASDAQ:CDNS CDNS Cadence Design Systems, Inc (stock symbol) CDNS Climatological Data National Summary CDNS Command Data Network System CDNS Customer and Data Network Services (Sprint) ). |
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