Synplicity Unveils Synplify DSP For FPGA-Based DSP Design; System Level Optimizations Automate Extreme DSP Performance
SUNNYVALE, Calif.—(BUSINESS WIRE)—May 10, 2004—
Synplicity Inc. (Nasdaq:SYNP), a leading supplier of
software for the design and verification of semiconductors, today
introduced its new Synplify(R) DSP software, a premiere solution for
implementing DSP designs in FPGAs. With the Synplify DSP software,
users of the Simulink(R) design environment from The MathWorks can
automatically take designs specified at the algorithm level and
generate high-quality, synthesis-ready RTL code. By utilizing unique
system-level optimizations, the Synplify DSP software can produce
circuits that are up to 50 percent faster and 30 percent smaller than
solutions created by alternative tools for implementing DSP in
hardware.
"Until now, there has been no automated way to get a design
specified at the algorithm level, from tools such as The MathWorks'
Simulink, into high-quality RTL code," said Jeff Garrison, director of
marketing, Synplicity. "A common approach was to hand off the RTL
generation task to someone other than the DSP algorithm architect,
resulting in numerous iterations. This method is error prone and
extremely time consuming. With the Synplify DSP software, we're
leveraging the widely used floating-point and fixed-point data types
from The MathWorks to provide a single representation of the system
design in Simulink. The design is implemented from the fixed-point
model that has been verified in the Simulink environment. This removes
ambiguity that can occur when manually writing RTL."
"DSP designers are increasingly targeting FPGAs for implementation
of high-performance DSP designs," said Ken Karnofsky, marketing
director for DSP and communications products at The MathWorks.
"Synplicity has delivered sophisticated tools for users to generate
high-quality RTL code from Simulink that not only delivers impressive
QoR, but leverages the comprehensive DSP simulation and analysis
already built into Simulink."
Implementing DSP algorithms in hardware can result in an order of
magnitude performance increase over standard DSP processors and with
the growing demand for enhanced DSP performance for applications such
as video/image processing, wireless networking, HDTV, set-top boxes
and military and aerospace products, the rate of growth for
hardware-based DSPs continues to rise.
System-Level Optimizations and Increased Productivity
The new Synplify DSP software optimizes Simulink-based designs at
the system level prior to RTL generation, using algorithms such as
system-level re-timing that greatly improves performance of the DSP
implementation.
Automatic multi-channelization addresses the time-consuming issue
of deciding the optimum number of channels for a particular design.
With this patent-pending technique, the designer can perform a quick
"what-if" analysis on thread capacity by automatically generating a
multi-channel system from a single-channel specification, resulting in
a simplified and faster design process.
The new software also uses a unique folding algorithm that allows
the user to quickly trade off between performance and area. Because
DSP algorithms often consume large numbers of expensive hardware
functions such as multipliers, the Synplify DSP tool automatically
shares expensive resources within a performance budget. The
area/performance trade-off analysis is performed before the
implementation process, saving design iterations and large amounts of
circuit area.
In addition to generating high-quality RTL code, the Synplify DSP
software also produces a test bench that can save designers additional
time during the verification process. The generated RTL model can then
be verified in any HDL simulator using the stimulus from the Simulink
environment. The result is a single-source verification methodology
from system model to gates.
Seamless Integration with 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),
transforms, math functions, CORDIC, signal operations, memories and
control logic. These technology-independent blocks 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 and scope debugging. With the Synplify DSP toolbox, users
can automatically create high-quality RTL code and a test bench from
Simulink specification.
Pricing and Availability
Pricing for the Synplify DSP software starts at $29,000 (U.S.) for
a one-year, time-based license. Beta software is available now with
production expected in June 2004. 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 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 and Verilog) and run
on popular platforms. Synplicity employs over 270 people in its 20
facilities worldwide. Synplicity is headquartered in Sunnyvale,
California. For more information visit http://www.synplicity.com.
Forward-Looking Statements
This press release contains forward-looking statements including,
but not limited to, statements regarding the 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 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. Although Synplicity believes that the expectations reflected in
the forward-looking statements are reasonable, Synplicity cannot
guarantee the future 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.
Contact:
Synplicity, Inc.
Jeff Garrison, 408/215-6000 (Reader)
jeff@synplicity.com
or
Porter Novelli
Steve Gabriel, 408/369-1500 (Press)
steve.gabriel@porternovelli.com
