Verisity Jumpstarts Customer Productivity With Reusable Verification Components.Business Editors/High-Tech Writers MOUNTAIN VIEW, Calif.--(BUSINESS WIRE)--March 24, 2003 Company Expands Verification Component Portfolio With Seven Most Commonly Requested e Verification Components Verisity Ltd. (Nasdaq:VRST VRST Virtual Reality Software and Technology VRST Virtual Reality System Testing ), the leading supplier of essential technology and methodology for functional verification Functional verification, in electronic design automation, is the task of verifying that the logic design conforms to specification. In everyday terms, functional verification attempts to answer the question "Does this proposed design do what is intended?" This is a complex task, , is greatly expanding its offerings of e Verification Components (eVCs) in order to meet the increasing demand for reusable re·use tr.v. re·used, re·us·ing, re·us·es To use again, especially after salvaging or special treatment or processing. re·us verification components for standard interfaces. With the growth in the number and complexity of system-on-chip and system-level designs, verification reuse reuse - Using code developed for one application program in another application. Traditionally achieved using program libraries. Object-oriented programming offers reusability of code via its techniques of inheritance and genericity. has become a major focus for verification teams because of the benefits it provides -- dramatic productivity and product quality gains. To support its customers, Verisity is delivering seven new e Verification Components for the most popular protocols: PCI/PCI-X, PCI Express A high-speed peripheral interconnect from Intel introduced in 2002. Note that although sometimes abbreviated "PCX," PCI Express is not the same as "PCI-X" (see PCI-SIG and PCI-X for comparison). As a result of the confusion, "PCI-E" or "PCIe" is the accepted abbreviation. , Gigabit Ethernet An Ethernet standard that transmits at 1 Gbps. Used mostly to connect high-end workstations and servers as well as for network backbones, Gigabit Ethernet transmits full duplex from point to point using switches and half duplex in a shared environment (CSMA/CD) using a hub. , SPI-4, SONET, SDH (Synchronous Digital Hierarchy) The European counterpart to SONET. See SONET. SDH - Synchronous Digital Hierarchy and Fibre Channel. All Verisity eVCs comply with the e Reuse Methodology (eRM(TM)) guidelines guidelines, n.pl a set of standards, criteria, or specifications to be used or followed in the performance of certain tasks. ensuring that they will interoperate See interoperable. and behave consistently with any other eRM-compliant eVCs. Verisity pioneered verification reuse methodologies with the introduction of reusable verification components over two years ago. eVCs are reusable, plug-and-play verification environments for standard protocols and interfaces and are based on Verisity's high-level verification language, e, and the Specman Elite(R) testbench automation solution. They comprise a complete verification environment following a coverage-driven verification (CDV (1) (Compressed Digital Video) The compression of full-motion video for high-speed, economical transmission. (2) (CD Video) A small videodisc (5" diameter) that provides five minutes of video with digital sound plus an additional 20 minutes ) methodology and include constraint-driven test generation, data and assertion checking and functional coverage analysis. CDV is a proven methodology that provides predictable, scalable results and is critical to achieving first-pass silicon success. "eVCs have become a major part of our verification strategy," said Don Friedberg, director of design methodologies for Agere Systems Agere Systems Inc. was an integrated circuit components company based in Allentown, Pennsylvania, in the Lehigh Valley region of Pennsylvania, in the United States. Effective April 2, 2007, it was merged into LSI Corporation. . "They increase our productivity and are critical to achieving our goal of providing exceptional service with first-pass success to our customers." To take full advantage of a CDV methodology, Verisity recently delivered the comprehensive verification reuse methodology, eRM, which standardizes a method for encapsulating CDV methods for easy reuse. Today's announcement makes Verisity a broad-line eVC supplier. "In SoC, system and platform-based designs, standard interfaces abound," said Francine Ferguson, vice president of corporate and strategic marketing for Verisity. "This is why customers are requiring multiple eVCs per project. Verisity has chosen the most popular interfaces for its initial expansion and because they are eRM compliant, they are completely plug-and-play and allow users to implement true system-level verification." eVCs Critical to Success Today's complex chips, systems and SoCs commonly incorporate many different protocols, interfaces and processors. This surge in the number of protocols and interfaces per design has placed an extra burden on the verification team by requiring them to become experts in these standards in order to verify them within the context of their design. eVCs have become widely popular among verification engineers because in addition to increasing their productivity, they drastically reduce the need for protocol expertise by delivering a complete verification environment for standards. "Our designs encompass a multitude of standard interfaces and it's just not efficient for our verification engineers to develop new testbenches," said Ari Cohen cohen or kohen (Hebrew: “priest”) Jewish priest descended from Zadok (a descendant of Aaron), priest at the First Temple of Jerusalem. The biblical priesthood was hereditary and male. , vice president of Hardware Engineering and Operations for Silverback Systems. "eVCs have changed all this for us. By using eVCs, we're able to start verification much earlier and we are assured that we'll hit our corner cases because the eVCs have been proven before and were developed by engineers who have expertise in this area." eVCs provide numerous advantages to verification teams including a major increase in productivity and higher quality products. Engineers can create their verification environments in days instead of months, start simulation much earlier and complete verification faster. eVCs can be easily moved from module-level to chip-level verification efforts as well as from design project to project, thereby enhancing a verification reuse methodology. A variety of eVCs can be intermixed within a single verification environment. To ensure that all eVCs plug-and-play and behave consistently, Verisity created the e Reuse Methodology (eRM), which defines the standards for architecting, coding and packaging eVCs as well as advanced methodologies for easy generation and synchronization (1) See synchronous and synchronous transmission. (2) Ensuring that two sets of data are always the same. See data synchronization. (3) Keeping time-of-day clocks in two devices set to the same time. See NTP. of complex system-level sequences. Through eRM, the company is promoting best practices among eVC developers by providing comprehensive guidelines and best-known methods for eVC development. Visit http://www.verisity.com/products/evc.html for a complete listing of available eVCs. Pricing and Availability The PCI/PCI-X, PCI Express, Gigabit Ethernet, SPI-4, SONET, SDH and Fibre Channel eVCs will be available beginning in the second quarter of 2003. The list price for a single floating, annual time-based license is $10,000. About Verisity Verisity, Ltd. (Nasdaq:VRST) is the leading supplier of essential technology and methodology for the functional verification market. The company addresses customers' critical business issues with its market-leading software and intellectual property (IP) that effectively and efficiently verify the design of electronic systems and complex integrated circuits Integrated circuits Miniature electronic circuits produced within and upon a single semiconductor crystal, usually silicon. Integrated circuits range in complexity from simple logic circuits and amplifiers, about 1/20 in. (1. for the communications, computing, and consumer electronics global markets. Verisity's flagship verification solution, Specman Elite(TM), automates manual processes and detects critical flaws in hardware designs enabling delivery of the highest quality products and accelerating time to market. The company's strong market presence is driven by its proven technology, methodology, and solid strategic partnerships and programs. Verisity's customer list includes leading companies in all strategic technology sectors. Verisity is a global organization with offices throughout Asia, Europe, Israel, and North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. . Verisity's principal executive offices are located in Mountain View, Calif., with its principal research and development offices located in Rosh Ha'ain, Israel. For more information, visit www.verisity.com. Note to Editors: Verisity, Specman Elite, and eRM are either registered trademarks or trademarks of Verisity Design, Inc. 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/or other jurisdictions. All other trademarks are the property of their respective holders. |
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