Broadcom Uses Magma's RTL-to-GDSII System to Tape Out a 15-Million-Gate Design; Blast RTL's High-Capacity Synthesis Is Key to Reducing the Design Cycle and Achieving Timing Closure
SANTA CLARA, Calif.—(BUSINESS WIRE)—Oct. 13, 2003—
Magma(R) Design Automation Inc. (Nasdaq:LAVA), a
provider of chip design solutions, announced today that Broadcom(R)
Corporation (Nasdaq:BRCM), the leading provider of silicon solutions
enabling broadband communications, has taped out a 15-million-gate
design using Blast RTL(TM) and Blast Fusion(R). Magma's integrated
RTL-to-GDSII system was used to synthesize the largest and most
complex block of the design. Using just a single Blast RTL license,
performance goals were met and significantly faster total turnaround
time was achieved. Blast Fusion was used to implement the entire
design.
"Magma synthesis not only enabled us to achieve timing closure on
the most complex block, its Early Silicon Performance timing and gain
reports allowed us to identify and correct critical problems early,"
said Cheng-Feng Chang, engineering manager of Enterprise Switching at
Broadcom. "Magma's high-capacity synthesis and fast runtime coupled
with Blast Fusion's correct-by-construction physical implementation
flow allowed us to accelerate the design effort with great quality and
best returns on our EDA tools investments, significantly reducing our
product development cycle time."
"Traditional design flows are inadequate for the new generation of
ASICs and SoCs. Higher capacity, early performance predictability,
faster time to market and lower costs are the key requirements for
leading IC providers such as Broadcom," said Yatin Trivedi, director
of product marketing at Magma. "We're pleased that Broadcom design
teams worldwide continue to select Magma solutions for their advanced
deep submicron design challenges."
Blast RTL and Blast Fusion: Integrating High-Capacity Synthesis
and Advanced Place-and-Route Capabilities
Blast Create and Blast Fusion are key components of Magma's
integrated RTL-to-GDSII system. This system is based on the patented
FixedTiming(TM) methodology. This approach to synthesis and
place-and-route enables Magma's system to predict circuit performance
prior to detailed physical design. The system then uses a series of
design refinements during physical design to achieve a final timing
that is very close to the predicted performance. With predictable
timing results, iterations can be eliminated, time to market can be
significantly improved and a streamlined ASIC design hand-off can be
achieved.
Unlike conventional flows, the Magma system uses gain-based
synthesis. This approach provides an order of magnitude improvement in
capacity and run time over conventional logic synthesis systems.
Gain-based synthesis also ensures that each cell is sized according to
the actual wire load, resulting in a circuit structure that is
electrically well balanced and a layout that is more compact and uses
less power than a layout derived using conventional approaches.
In addition to providing advanced synthesis and place-and-route
technology, Magma's system is based on the industry's only unified
data model architecture. This architecture is a key enabler of Magma's
FixedTiming methodology and gain-based synthesis, as well as the
system's ability to deliver automated signal integrity avoidance,
detection and correction. Magma's single data model contains all the
logical and physical information about the design and is resident in
core memory during execution. In conventional synthesis and
place-and-route systems, each tool in the flow has its own unique data
model. Data is shared among tools through cumbersome file-based
interfaces or through the implementation of an API and common
database. Neither of these approaches can provide the inter-tool data
sharing and analysis performance that is required to support the
FixedTiming approach. In Magma's system, the various functional
elements such as the implementation engines for synthesis, placement
and routing, and the analysis software for timing, delay extraction
and signal integrity, all operate directly on the single data model
without relying on file interfaces or APIs. This tight integration
allows more accurate analysis of the design, and enables the system to
make rapid tradeoff decisions during the design process to optimize
for better chip performance, area and power.
Blast RTL, Blast Create and Blast Fusion utilize the same
libraries and fully support Verilog, VHDL, SDC and .lib, allowing
complete migration of existing designs and timing information and easy
adoption.
ESP Enables a Predictable Design Flow
The FixedTiming methodology, gain-based synthesis and unified data
model allow Magma system to provide a predictable design cycle. The
system generates ESP (Early Silicon Performance) reports with which
designers can determine the timing feasibility of their design and
analyze the design topology to ensure the constraints can be met. ESP
reports also enable an RTL designer to identify any missing
constraints and false or multi-cycle paths, and get feedback about the
overall feasibility of the architecture. The ESP report can identify
problems early, before handing off the design to the back-end team or
SoC vendor, facilitating less-time-consuming and less-expensive fixes.
About Magma Design Automation
Magma software is used to design fast, multimillion-gate
integrated circuits, providing "The Fastest Path from RTL to
Silicon"(TM), enabling chip designers to reduce the time required to
produce complex ICs. Magma's products for prototyping, synthesis, and
place & route provide a single executable for RTL-to-GDSII chip
design. The company's Blast Create(TM), Blast Fusion(R), Blast Fusion
APX(TM), Blast Plan(TM) and Blast Noise(R) products utilize Magma's
patented FixedTiming(R) methodology and single data model architecture
to reduce the timing-closure iterations often required between the
logic and physical processes in conventional IC design flows. Magma
also provides the PALACE(TM) and ArchEvaluator(TM) advanced physical
synthesis and architecture development tools for programmable logic
devices (PLDs). The company's stock trades on Nasdaq under the ticker
symbol LAVA. Visit Magma Design Automation on the Web at
www.magma-da.com.
Forward-Looking Statements:
Except for the historical information contained herein, the
matters set forth in this press release, including statements about
Broadcom's design teams continuing to select Magma solutions for their
advanced deep submicron design challenges and about the features and
benefits of Magma's system, are forward-looking statements within the
meaning of the "safe harbor" provisions of the Private Securities
Litigation Reform Act of 1995. These forward-looking statements are
subject to risks and uncertainties that could cause actual results to
differ materially including, but not limited to, Magma's ability to
keep pace with rapidly changing technology, its products' ability to
produce desired results and Broadcom's decision to continue using
Magma's software. Further discussion of these and other potential risk
factors may be found in Magma's Form 10-K for the year ended March 31,
2003 and filed with the Securities and Exchange Commission ("SEC") on
June 20, 2003, and from time to time in Magma's SEC reports. These
forward-looking statements speak only as of the date hereof. Magma
disclaims any obligation to update these forward-looking statements.
Magma, Blast Fusion, Blast Noise and FixedTiming are registered
trademarks, and ArchEvaluator, Blast Create, Blast Fusion APX, Blast
Plan, Blast Rail, "The Fastest Path from RTL to Silicon," and PALACE
are trademarks of Magma Design Automation. Broadcom(R) is a trademark
of Broadcom Corporation and/or its affiliates in the United States and
certain other countries. All other product and company names are
trademarks and registered trademarks of their respective companies.
Contact:
Magma Design Automation Inc.
Monica Marmie, 408-565-7689
monical@magma-da.com
