Synplicity Enhances Industry's First Simulink-Based DSP Synthesis Solution.SUNNYVALE, Calif. -- Synplicity's Synplify 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 Software Bridges DSP Algorithm to FPGA (Field Programmable Gate Array) A type of gate array that is programmed in the field rather than in a semiconductor fab. Containing up to hundreds of thousands of gates, there are a variety of FPGA architectures on the market. Implementation; Performs DSP Synthesis and 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; Code Generation in Simulink Synplicity Inc. (Nasdaq:SYNP SYNP Synchronization Profile ), a leading supplier of software for the design and verification of semiconductors, today unveiled enhancements to its Synplify(R) DSP software, a premiere DSP synthesis solution for implementing DSP designs in FPGAs. The enhancements include new DSP synthesis optimizations for performance and area, additional Blockset functionality, including support for saturation / rounding, and a customizable DSP block library, allowing designers to quickly add custom DSP IP to their library. The Synplify DSP software provides users of the Simulink(R) design environment from The MathWorks with the industry's only technology-independent DSP synthesis path from Simulink to hardware, enabling designers to select their FPGA of choice for hardware implementation. Synplicity's Synplify DSP software optimizes Simulink designs by quickly producing circuits that can deliver faster performance and smaller area than alternative DSP implementation tools. "The Synplify DSP product is the only DSP synthesis solution available that truly separates the algorithm captured in Simulink from its actual implementation in hardware," said Jeff Garrison, director of marketing, Synplicity. "As such, DSP algorithm designers don't have to know details about the FPGA's architecture, such as clocks, latency, logical structure and storage, to effectively use the software. The tool allows DSP designers to focus on the development and verification of the algorithm and then automatically produce clean, highly optimized RTL code for implementation." "Synplicity provides the only DSP synthesis tool that takes advantage of Simulink Fixed Point, which gives users access to the full power of the Simulink design and analysis tools," said Ken Karnofsky, marketing director for signal processing See DSP. and communications products at The MathWorks. "By leveraging the fixed point data types, data is automatically propagated through the Synplify DSP block set in Simulink without the need for designers to insert gateways into their Simulink design." Enhancements to the Synplicity Blockset, such as saturation and rounding, enable more efficient specification and area optimized implementation for applications that require this behavior. The improved system-level optimizations, which include re-timing for performance and folding for area efficiency, help produce better performing designs such as those containing FFT (Fast Fourier Transform) A class of algorithms used in digital signal processing that break down complex signals into elementary components. FFT - Fast Fourier Transform blocks. Seamless Integration An addition of a new application, routine or device that works smoothly with the existing system. It implies that the new feature or program can be installed and used without problems. Contrast with "transparent," which implies that there is no discernible change after installation. with Industry Leading Synplify Pro Software and The MathWorks Simulink Environment Included in the Synplify DSP software is a set of functional blocks commonly used in DSP design, such as filtering (FIR, IIR IIR - Infinite Impulse Response ), transforms, math functions, CORDIC CORDIC Coordinate Rotation Digital Computer , signal operations, memories and control logic. These technology-independent blocks are built upon The MathWorks' fixed point data type and are tightly integrated into The MathWorks environment, allowing the algorithm designer to continue to use familiar Simulink capabilities such as discrete-time simulation, multi-rate management, fixed-point quantization (1) The division of a range of values into a single number, code or classification. For example, class A is 0 to 999, class B is 1000 to 9999 and class C is 10000 and above. (2) In analog to digital conversion, the assignment of a number to the amplitude of a wave. and scope debugging (programming) debugging - The process of attempting to determine the cause of the symptoms of malfunctions in a program or other system. These symptoms may be detected during testing or use by real users. . Two Levels of Optimization Yield Performance Synplify DSP has been optimized to work seamlessly with Synplicity's newest version of Synplify Pro software (version 8.0). Using Synplify DSP and Synplify Pro tools together provides DSP designers with two levels of optimization -- first the Synplify DSP software's system level re-timing and folding is done in a technology independent way followed by the Synplify Pro software's technology specific optimizations to give a highly optimized DSP design in the chosen FPGA. Customized DSP IP Synplicity's unique capability to create custom DSP IP using a base Blockset within the Synplify DSP software has been added. By building customized IP with Synplicity's Blockset, users can take full advantage of the system-level optimization engine within Synplify DSP. Optimizations such as re-timing, folding and multi-channelization allow area-speed tradeoffs to be performed automatically. With the Synplify DSP toolbox See toolkit and toolbar. , users can generate high-quality RTL code and a test bench from Simulink specification. Pricing and Availability Pricing for the Synplify DSP software starts at $19,000 (U.S.) for a one-year, time-based license as an add-on to the Synplify Pro software. For more information on the Synplify DSP software, visit Synplicity at http://www.synplicity.com or contact your local Synplicity representative. About Synplicity Synplicity(R) Inc. (Nasdaq: SYNP) is a leading supplier of innovative synthesis, verification and physical implementation software solutions that enable the rapid and effective design and verification of semiconductors. Synplicity's high-quality, high-performance tools significantly reduce costs and time-to-market for FPGA, structured/platform 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 cell-based/COT ASIC designers. The company's underlying Behavior Extracting Synthesis Technology(R) (BEST(TM)), which is embedded in its logical, physical and verification tools, and has led to Synplicity's top position in FPGA synthesis, now provides the same fast runtimes and quality of results to ASIC and COT customers. The company's fast, easy-to-use products support industry standard design languages (VHDL (VHSIC Hardware Description Language) A hardware description language (HDL) used to design electronic systems at the component, board and system level. VHDL allows models to be developed at a very high level of abstraction. and Verilog) and run on popular platforms. Synplicity employs over 280 people in its 20 facilities worldwide. Synplicity is headquartered in Sunnyvale, California Sunnyvale ([sʌniveil]) is a city in Santa Clara County, California, United States. It is one of the major cities that make up the Silicon Valley. As of the 2000 census, the city population was 131,760. . For more information visit http://www.synplicity.com. Forward-Looking Statements forward-looking statement A projected financial statement based on management expectations. A forward-looking statement involves risks with regard to the accuracy of assumptions underlying the projections. This press release contains forward-looking statements including, but not limited to, statements regarding the function, performance and achievements of Synplicity's Synplify DSP software. In some cases, you will be able to identify forward-looking statements by terminology such as "may," "will," "should," "expects," "believes" or the negative of these terms or other comparable terminology. These statements are only predictions and involve known and unknown risks, uncertainties and other factors that may cause the actual achievements or performance of the Synplify DSP software to differ materially from the forward-looking statements, including the performance and quality of our software products relative to other comparable software, latent defects, design flaws or other problems with the Synplify DSP software and the growth and changing technical requirements in the programmable semiconductor market. For additional information and considerations regarding the risks faced by Synplicity, see its annual report on Form 10-K Form 10-K A report required by the SEC from exchange-listed companies that provides for annual disclosure of certain financial information. Form 10-K See 10-K. for the year ended December 31, 2003 as filed with the Securities and Exchange Commission, as well as other periodic reports filed with the SEC from time to time, including its quarterly reports on Form 10-Q Form 10-Q See 10-Q. . Although Synplicity believes that the expectations reflected in the forward-looking statements are reasonable, Synplicity cannot guarantee the future functions, performance or achievements of its software. In addition, neither Synplicity nor any other person assumes responsibility for the accuracy or completeness of these forward-looking statements. Synplicity disclaims any obligation to update information contained in any forward-looking statement. Synplicity, Synplify and Behavior Extracting Synthesis Technology are registered trademarks of Synplicity Inc. BEST is a trademark of Synplicity Inc. All other names mentioned herein are the trademarks or registered trademarks of their owners. |
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