0-In Announces New Products Based on Breakthrough Formal Verification Algorithms.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)--Jan. 27, 2003 Enhanced Assertion-Based Verification Suite Enables Systematic Method for Eliminating Bugs in IC Designs Today 0-In Design Automation, the Assertion-Based Verification Company, announced a suite of new products based on powerful new formal verification
In the context of hardware and software systems, formal verification technologies that increase performance by more than 100X over the previous version. V2.0 of the 0-In 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 ) Suite combines simulation with static formal and dynamic formal verification to provide a broad solution for fast and thorough 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, of complex ASICs and System-on-Chip (SoC) devices. Advanced Technology Finds Tough Bugs Before Silicon The 0-In ABV Suite provides development teams the power to answer two key questions about the verification process: 1. Does the design meet the target specification? 2. Have all the bugs been eliminated before tape-out? 0-In's ABV products answer these questions by enabling assertions to check all aspects of the design's behavior and to catch bugs at the earliest possible point in the verification process. 0-In's V2.0 ABV Suite includes two new formal verification products as well as enhancements to 0-In's dynamic formal verification technology that finds tough, corner-case bugs usually not found until chips are in the lab. The combined power of 0-In's products enables development teams to find bugs missed by every other verification method. "Finding all bugs prior to tape-out is critical for competing in today's aggressive market environment," 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. . "V2.0 brings to market breakthrough formal verification algorithms that find the toughest bugs in complex designs before tape out. The power of these new algorithms leaves no place for bugs to hide, allowing design teams to meet aggressive time-to-market requirements." New Products and Technology 0-In's V2.0 ABV Suite includes two new products, 0-In Checklist and 0-In Confirm, as well as new features and technology for all existing 0-In products. 0-In Checklist uses static netlist-analysis technology to rapidly and automatically find many common syntactic and semantic RTL (Register Transfer Level) A high-level hardware description language (HDL) for defining digital circuits. The circuits are described as a collection of registers, Boolean equations, control logic such as "if-then-else" statements as well as complex event sequences; coding errors, including simulation-to-synthesis mismatch errors, clock domain crossing A clock domain crossing (CDC), or simply clock crossing, is when a signal crosses from one clock domain into another. If a signal does not assert long enough and is not registered, it may appear asynchronous on the incoming clock boundary. errors, and others. 0-In Checklist is fast and easy to use, requiring no simulation and producing essentially no false error reports. Indeterminate assertions may be promoted to simulation and formal verification. 0-In Confirm finds deep RTL design bugs that are missed by all other verification methods. In particular, 0-In Confirm targets corner-case or worry-case assertions with deep counterexample coun·ter·ex·am·ple n. An example that refutes or disproves a hypothesis, proposition, or theorem. Noun 1. counterexample - refutation by example (DCE (1) (Distributed Computing Environment) Software from The Open Group that allows applications to be built across heterogeneous platforms in a network. DCE includes security, directory naming, time synchronization, file sharing, RPCs and multithreading services. ) technology, a breakthrough exhaustive formal verification algorithm that is capable of finding bugs hundreds of cycles away from any selected simulation state. 0-In Confirm also can be used to verify that late-stage bug fixes are correct. In V2.0, 0-In Search incorporates new algorithms that intelligently analyze and prioritize simulation cycles, increasing speed by 100X over previous releases and enabling users to apply dynamic formal verification across their entire regression suite. Simulation tests guide the formal algorithms to deep states, avoiding computational limitations. Dynamic formal verification technology then uses exhaustive formal algorithms to find bugs that simulation misses. 0-In Check includes the CheckerWare library, a rich library of over 70 Verilog assertion checkers that work in both simulation and formal verification and are testbench- and simulator-independent. V2.0 adds support for Accellera assertion standards, improves simulation performance and incorporates new coverage metrics for assertions. The 0-In V2.0 ABV Suite provides value to designers and verification engineers throughout the entire development cycle, delivering a comprehensive assertion-based verification methodology that works from block-level through system-level verification, including regression testing In software development, testing a program that has been modified in order to ensure that additional bugs have not been introduced. When a program is enhanced, testing is often done only on the new features. , simulation acceleration, and hardware emulation Hardware emulation is the process of imitating the behavior of one or more pieces of hardware (typically a system under design) with another piece of hardware, typically a special purpose emulation system. The goal is normally debugging of the system being designed. . 0-In products are all simulator- and testbench-independent, making them applicable throughout the verification process. "Our new products are designed to address the customer's specific verification goals at each phase of the design cycle, no matter which vendor's tools are being used at each phase," noted Dr. Girczyc. 0-In supports Accellera assertion standards and 0-In products are interoperable with a wide range of tools from other EDA (1) (Electronic Design Automation) Using the computer to design, lay out, verify and simulate the performance of electronic circuits on a chip or printed circuit board. vendors. Customers ABV products from 0-In have been in production usage for nearly three years, which has generated feedback from numerous tape-outs and provided the impetus for V2 enhancements. 0-In's ABV tools are used today by leading design teams at AMD (Advanced Micro Devices, Inc., Sunnyvale, CA, www.amd.com) A major manufacturer of semiconductor devices including x86-compatible CPUs, embedded processors, flash memories, programmable logic devices and networking chips. , Cisco Systems, Fujitsu, Hewlett Packard, LSI LSI: see integrated circuit. (Large Scale Integration) Between 3,000 and 100,000 transistors on a chip. See SSI, MSI, VLSI and ULSI. Logic, National Semiconductor, Nortel Networks, Sun Microsystems, and many other system and semiconductor suppliers. "We've used 0-In products to catch design issues early and to improve the quality of our RTL," said Jonathan Sun, EDA Technologies Manager at Sun Microsystems, Inc., "V2.0 will enable us to further leverage the benefits of static and dynamic formal verification tools in our assertion-based verification flow." "0-In tools are effective at finding tough, corner-case bugs that otherwise would go undetected," said Gordon Mortensen, Director of Engineering for the Internet Appliance Group at National Semiconductor. "On a recent SoC project, 0-In Search identified bugs that had a high probability of otherwise making it into silicon. We definitely had increased confidence after using the 0-In tools. That confidence was confirmed when the chip was fabricated and tested in the lab - we have not found any bugs in modules verified with 0-In." Packaging, pricing, and availability V2.0 of the 0-In ABV Suite products is available now. North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. list prices for one-year time-based licenses are: -- 0-In Checklist -- $30K -- 0-In Check -- $15K -- 0-In Search -- $50K -- 0-In Confirm -- $75K 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. Note to Editors: A testimonial sheet of quotes from partners is available upon request. |
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