CoWare and ACE Expand Strategic Alliance to Drive Custom Processor Design; Multi-year Agreement Integrates ACE's C-Compiler Technology with CoWare's Processor Design Tool.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. -- CoWare(R) Inc., the leading supplier of system-level 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. ) software and services and ACE Associated Compiler Experts bv, the world leader in products and services for professional compiler development, announced a multi-year strategic alliance in which CoWare continues to deliver ACE's C-Compiler technology deeply integrated into the CoWare LISATek processor design tool suite. In addition, CoWare and ACE will closely cooperate on future technologies to address multi-processor system design. "Establishing close partnerships with providers of leading-edge technologies, while continuing to strengthen our core competencies, is an integral part of CoWare's strategy," said Alan Naumann, 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 CoWare. "Over the last several years, our processor design customers have confirmed that ACE has the strongest technology for C-Compiler development, which they enjoy as part of our LISATek tool suite." "CoWare is the leading pioneer in the custom processor design market," said Martijn de Lange, Chairman of the Board, ACE Associated Compiler Experts bv. "We are pleased to continue and expand our successful relationship as it will broaden the impact of our technology as part of a new design paradigm Design paradigms are models, archetypes, or quintessential examples of designed solutions to problems. The term "Design paradigm" is used within the design professions, including architecture, industrial design and engineering design, to indicate an archetypal solution. ." Custom Processors: Meeting Power, Performance & Cost Goals As complex multi-media processing in consumer devices is becoming main stream, many design teams are facing the limitations of their off-the-shelf application processors. Resorting to hardwired implementation is a major risk given competitive pressures for flexibility. The addition of multiple, general purpose processors does not meet power, performance and cost requirements. The CoWare LISATek solution allows the design of custom processors by specifying the optimum instruction set, profiling the application on the automatically-generated processor model and finally generating the synthesizable 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; from the same processor model. However, only the automated generation of the corresponding optimum C-Compiler provides a full custom processor design flow, since writing pure assembly code is not productive. The CoWare tools increase the productivity of processor design teams by a factor of 5-10X, bringing the design time down from years to months. C-Compiler Design: Expert Knowledge on Designers' Desktop Compiler design is a complex task with a long learning curve, typically limited to very few experts in semiconductor houses. With the CoSy Express technology embedded into the LISATek tool chain, this expertise is packaged for design teams that can only afford to build up basic compiler knowledge. Using the structured LISATek approach, it is possible to specify the semantics of the processor instructions and to let CoSy Express generate an optimizing compiler. No specific knowledge of the advanced compiler framework or the optimization functions is required to produce the initial validating compiler. Together with the selection of the instruction set and the optimization of the C-application code, the designer of custom processor can use the C-Compiler technology to generate an implementation which fulfills the power, cost and flexibility requirements. CoSy For Higher Optimization and Advanced Compilation Techniques When custom processors are used for a wider range of applications or by a wide range of different customers, processor design teams have to deliver the best tailored optimizing compiler available. Using the compiler data base generated by CoWare LISATek, design teams can now apply the full range of the ACE CoSy technology to further optimize the C-Compiler performance, typically resulting in significantly better performance. CoWare and ACE are delivering an open flow from LISATek into CoSy, thus preserving the investment into the initial C-Compiler design. MPSoC -- Multiple Custom Processors While solving today's design problems, CoWare and ACE have started a multi-year technology cooperation, which allows for efficient implementation of applications on multiple, heterogeneous multi-processor architectures. CoWare will leverage its entire 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 tool suite 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) for application design, LISATek for custom processor design and ConvergenSC for platform design, while ACE will utilize the CoSy compiler development framework to deliver high-performance compiler generation solutions for a broad range of processors. Pricing and Availability CoWare LISATek product family is available today. For pricing and more information on LISATek and CoWare's other products, visit www.CoWare.com. About ACE ACE Associated Compiler Experts bv (a wholly owned subsidiary Wholly Owned Subsidiary A subsidiary whose parent company owns 100% of its common stock. Notes: In other words, the parent company owns the company outright and there are no minority owners. of ACE Associated Computer Experts, Amsterdam, The Netherlands) is the world leader in compiler development tools. Its open CoSy compiler development system gives compiler developers the ability to achieve a similar leading edge position in the construction of better and faster optimizing compilers for architectures ranging from 4-bit DSPs to 256-bit VLIW (Very Long Instruction Word) A CPU architecture that reads a group of instructions and executes them at the same time. For example, the group (word) might contain four instructions, and the compiler ensures that those four instructions are not dependent on each processors. CoSy accommodates a wide range of programming languages including C, C++, DSP-C, Embedded C, Fortran and Java. For more information on ACE and its products and services for professional compiler development, visit www.ace.nl. About CoWare CoWare is the leading supplier of system-level electronic design automation (EDA) software tools and services. CoWare offers a comprehensive set of electronic system-level (ESL) tools 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. (NYSE NYSE See: New York Stock Exchange :CDN (Content Delivery Network) A system of distributed content on a large intranet or the public Internet in which copies of content are replicated and cached throughout the network. ), ST Microelectronics (NYSE: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 www.CoWare.com. ConvergenSC is a trademark and CoWare is a registered trademark of CoWare, Inc. CoSy is an international trademark of ACE Associated Computer Experts bv. All other trademarks are the property of their respective owners. |
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