CoWare's Latest Software Release Aligns Strategic Technologies into Cohesive, Platform-Driven ESL Design Environment; Solutions Combine Tools, IP, Methodology, and Services With SystemC Technology Backbone.MUNICH, Germany -- CoWare(R) Inc., the leading supplier of electronic system-level (ESL (1) An earlier family of client/server development tools for Windows and OS/2 from Ardent Software (formerly VMARK). It was originally developed by Easel Corporation, which was acquired by VMARK. ) design software and services, has aligned the strategic technologies it has developed and acquired into a new set of solutions for platform-driven ESL design. Platform-driven design is the major design trend in the electronics industry as system-on-chip (SoC) developers shift focus from individual products to product platforms that define a basic architecture used to derive multiple products over a period of time. With its native backbone of SystemC technology, CoWare has aligned its three product families into one product line that enables three key solutions for collaborative platform-driven ESL design: SoC platform capture and architecture exploration, custom processor design, and algorithm design Algorithm design is a specific method to create a mathematical process in solving problems. Applied algorithm design is Algorithm engineering. Algorithm design is identified and incorporated into many solution theories of operation research, such as dynamic . "Since its inception, CoWare has been leading the way to ESL design. A sequence of strategic technology acquisitions, the pioneering work in the definition of the industry-standard SystemC modeling language, and the integration of all these technologies has produced the industry's most comprehensive solution for platform-driven ESL design," said Alan Naumann, CoWare 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. . "CoWare customers are embracing the platform-driven ESL design approach because of the economic and business value it delivers and the impressive results they achieve." "Our Elemental Computing product consists of a unique set of processing elements, and a sophisticated interconnect capable of executing complex signal processing See DSP. and general purpose applications," stated Jaime Cummins, CEO, ElementCXI. "CoWare is leading the way with the critical set of ESL technologies and the vision to integrate them in a meaningful way for our product platform development. We look forward to rapidly deploying this solution to embedded application developers in the multimedia and automotive markets that we will serve with our first silicon." The Need for Product Platforms Multimedia convergence, especially in the consumer electronics markets, drives the need for increasingly complex product architectures. The ability to record and play back multiple video streams, high-quality audio, high-speed wireless communications, and a multitude of other applications drives the need for complex SoC designs with multiple busses, multiple processors, and a variety of complex peripherals. At the same time the software content of such devices has been growing exponentially. Semiconductor companies are being forced to change their product development strategies to successfully address the increasing market demands. Their focus has shifted from individual products to product platforms. A product platform defines a basic architecture that is used to derive multiple products over a period of time. A cell phone product platform, for example, may be under development for two to three years, and, once completed, it can be used to derive as many as 50 different products (cell phones) per year for yet another three or more years. Platform-Driven ESL Design The design of product platforms poses a new set of requirements on the design tools and methodologies being used. The traditional electronic design automation (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. ) design flow, from 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; to GDSII GDSII Graphic Design System II , is no longer sufficient to capture the platform architecture, explore and evaluate alternatives, and eventually help optimize it. The platform architecture must be captured at a higher level of abstraction The level of complexity by which a system is viewed. The higher the level, the less detail. The lower the level, the more detail. The highest level of abstraction is the single system itself. -- processors, buses, and peripherals need to be modeled in a manner that allows the execution of real software applications on the platform model so the architecture can be properly evaluated and explored. And, because platform-driven ESL design does this so well, this methodology is being adopted by many systems and semiconductor companies today. CoWare Product Offerings for Platform-Driven ESL Design CoWare technologies have been offering solutions to a number of design challenges, such as creating custom processors and processor models with LISATek(TM); defining and evaluating digital signal processing See DSP. Digital Signal Processing - (DSP) Computer manipulation of analog signals (commonly sound or image) which have been converted to digital form (sampled). algorithms with SPW SPW Signal Processing Workstation SPW Shelter in Place Warning SPW Spencer, IA, USA - Spencer Municipal Airport (Airport Code) SPW Special Purpose Weapon SPW Spokane Washington (border patrol sector) ; and modeling complex logic functions such as bus architectures and peripheral IP blocks using ConvergenSC(R). The combination of these technologies enables a new level of design aimed at the capture, evaluation, and optimization of the entire product platform. "Instead of choosing individual tools and technologies, our customers have been increasingly viewing CoWare as their primary ESL design solution vendor," said AK Kalekos, vice-president marketing and business development, CoWare. "In recognition of the trend to make a 'CoWare decision' for ESL design solutions, we have initiated a renaming of our individual product lines to reflect their use in a consistent and collaborative 'Platform-Driven ESL Design' environment." --CoWare Platform Architect (formerly ConvergenSC Platform Architect): Is the SystemC-based graphical environment for capturing the entire product platform and the dashboard for initiating the platform analysis functions. --CoWare Model Designer (formerly ConvergenSC Model Designer): Is the SystemC-based modeling and simulation environment for capturing complex IP blocks and verifying them. --CoWare Model Library (formerly ConvergenSC Model Library): Provides an extensive library of processor, bus and peripheral models that are commonly used in product platforms. --CoWare Processor Designer (formerly LISATek Processor Designer): Enables the creation of custom processors or programmable hardware accelerators and their models so they can be incorporated into product platforms. --CoWare Signal Processing Designer (formerly SPW): Enables the design and analysis of complex signal processing algorithms and exports these algorithm implementations as blocks that can be incorporated in product platforms. (See related announcement at http://www.CoWare.com/news/) Availability CoWare's platform-driven ESL design solutions are available today. For additional information about specific products, visit www.CoWare.com. For pricing information, contact the local CoWare sales representative. About CoWare CoWare is the leading supplier of electronic system-level (ESL) design software and services. CoWare offers a comprehensive set of platform-driven ESL products that enable SoC developers to "differentiate by design" through the creation of system IP including embedded processors, on-chip buses, and DSP (1) (Digital Signal Processor) A special-purpose CPU used for digital signal processing applications (see definition #2 below). It provides ultra-fast instruction sequences, such as shift and add, and multiply and add, which are commonly used in math-intensive algorithms; the architecture of optimized SoC platforms; and hardware/software co-design. The company's solutions are based on open industry standards including SystemC. CoWare's customers are major systems, semiconductor, and IP companies in the market where consumer electronics, computing, and communications converge. CoWare's corporate investors include ARM Ltd. (LSE LSE - Language Sensitive Editor :ARM); (Nasdaq:ARMHY), Cadence Design Systems (company) Cadence Design Systems - A company that sells electronic design automation software and services. http://cadence.com/. See also Verilog. (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) ), STMicroelectronics (NYSE NYSE See: New York Stock Exchange :STM (Scanning Tunneling Microscope) A microscope that can image down to the atomic level. An STM uses a piezoelectric tube with a tiny sharp tip at the end that is moved within nanometers of the object being sampled. ), and Sony Corporation (NYSE:SNE SNe Supernovae (astronomy) SNE Sony Corporation (stock symbol) SNE Syndicat National de l'edition (French Publisher's Association) SNE Society for Nutrition Education ). CoWare is headquartered in San Jose, Calif., and has offices around the world. For more information about CoWare and its products and services visit http://www.coware.com. ConvergenSC and CoWare are registered trademarks, and LISATek is a trademark of CoWare, Inc. All other trademarks are the property of their respective owners. |
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