0-In Delivers EDA Industry's First PCI Express Verification IP for Simulation, Formal Verification and Hardware Acceleration and Emulation.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.--(BUSINESS WIRE)--April 2, 2003 Today 0-In Design Automation, The Assertion-Based Verification Company, announced the availability of the newest CheckerWare monitor. The CheckerWare Monitor for PCI Express(TM) technology is the first verification intellectual property (IP) model that can be used in simulation, formal verification and hardware acceleration and emulation to validate conformance with the PCI Express (formerly 3GIO GIO Giovedì (Italian: Thursday) GIO Government Information Office GIO Geographic Information Officer GIO General Insurance Ombudservice GIO Government Information Online GIO Government Insurance Office ) standard. 0-In continues to increase the verification productivity for integrated circuit (IC) design teams by developing monitors for the latest protocol and interface standards. 0-In CheckerWare monitors are part of a complete assertion-based verification (ABV ABV Above ABV Alcohol By Volume ABV Abuja, Nigeria (airport code) ABV Assault Breacher Vehicle ABV Accredited Business Valuation specialist ABV Auxiliary Building Ventilation ABV Annual Buy Value ABV Air Bleed Valve ) interoperability strategy that already supports Verilog and Accellera's PSL/Sugar standards. All 0-In monitors reduce the effort required to develop a verification environment by providing formal tool support, testbench and simulator independence, and support for all tools in existing verification environments. Engineers can increase their design verification productivity by using 0-In's CheckerWare monitors and avoiding the need to develop 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. their own protocol monitors. "The increasing complexity of emerging protocol standards and the rigorous testing requirements of today's systems-on-chip require re-usable verification IP to reduce verification effort and costs," said Emil Girczyc, 0-In 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. . "0-In is delivering the verification IP and tools necessary for customers to implement a comprehensive ABV environment. To insure accuracy and robustness, all 0-In CheckerWare Monitors are validated through collaboration with leading customers during the development and testing process." CheckerWare monitors test that the designs conform to interface standards and are interoperable with other products that support the same standards. Using CheckerWare monitors, designers can reduce their verification effort and speed the completion of their verification tasks. CheckerWare Monitor for PCI Express 0-In's PCI Express Monitor is an easy-to-use interface monitor for verifying the PCI Express protocol on IP and system-on-chip (SoC) designs. During simulation and hardware acceleration and emulation, the PCI Express monitor warns users of any protocol violations, generating structural coverage and transaction statistics that can be analyzed in 0-In's assertion-based verification environment. This monitor also provides targets and constraints that guide formal verification tools, including the 0-In Search dynamic formal verification and 0-In Confirm static formal verification tools, to ensure that the protocol is exhaustively verified. Availability The latest CheckerWare interface monitors - including PCI (1) (Payment Card Industry) See PCI DSS. (2) (Peripheral Component Interconnect) The most widely used I/O bus (peripheral bus). , PCI-X (PCI eXtended) An enhanced PCI bus technology originally developed by IBM, HP and Compaq that is backward compatible with existing PCI cards. PCI and 32-bit PCI-X slots are physically the same, and PCI cards can plug into PCI-X slots. (TM), AMBA AMBA Area Metropolitana de Buenos Aires (Spanish) AMBA Advanced Microcontroller Bus Architecture AMBA American Mold Builders Association AMBA American Mustang and Burro Association AMBA Association of Master of Business Administration , AGP (Accelerated Graphics Port) A high-speed 32-bit port from Intel for attaching a display adapter to a PC. It provides a direct connection between the card and memory, and only one AGP slot is on the motherboard. , SPI-4.2, POS-PHY, UTOPIA, PCI Express, HyperTransport(TM), InfiniBand(TM), RapidIO(TM), SDRAM (Synchronous DRAM) A type of dynamic RAM (DRAM) memory chip that has been widely used since the late 1990s. SDRAM chips eliminated wait states by dividing the chip into two cell blocks and interleaving data between them. and DDR SDRAM - are available now to design and verification teams. About PCI Express(TM) PCI Express(TM) technology is a state-of-the-art serial interconnect specification from the PCI-SIG that offers a rich feature set to address multiple usage models in the computing and communications industries. Its 0.8V and 2.5GHz signaling rate supports configurations consisting of 1, 2, 4, 8, 12, 16 and 32 lanes which can yield up to 16 Giga Bytes per second of bandwidth. Future frequency increases promise to scale total bandwidth to the limits of copper. The PCI Express technology retains the conventional PCI usage model and software interfaces to facilitate a smooth development migration from existing PCI based designs. Investment preservation is maintained through backwards compatibility to existing PCI software as well as headroom for performance scalability in both interconnect width and frequency as required. About 0-In 0-In Design Automation, Inc. (pronounced "zero-in") develops and supports functional verification products that help verify multi-million gate application-specific integrated circuit (hardware) Application-Specific Integrated Circuit - (ASIC) An integrated circuit designed to perform a particular function by defining the interconnection of a set of basic circuit building blocks drawn from a library provided by the circuit manufacturer. (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. ) and system-on-chip (SoC) designs. The company delivers a comprehensive assertion-based verification (ABV) solution that provides value throughout the design and verification cycle - from the block level to the chip and system level. Twelve of the 15 largest electronics companies have adopted 0-In tools and methodologies in their integrated circuit (IC) design verification flows. 0-In was founded in 1996 and is based in San Jose, Calif. For more information, see http://www.0-in.com. 0-In(R) and CheckerWare(R) are registered trademarks of 0-In Design Automation, Inc. PCI-SIG, PCI Express, and PCI-X are trademarks of PCI-SIG. All other trademarks mentioned are the property of their respective owners. |
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