SAN JOSE, Calif., July 27, 2009 (GLOBE NEWSWIRE) -- Magma(r) Design Automation Inc. (Nasdaq:LAVA), a provider of chip design software, today announced a new release of the Titan(tm) mixed-signal design platform which now includes the state-of-the art Titan Analog Simulation Environment (ASE) and Titan Schematic-Driven Layout (SDL) tools. Several productivity enhancements have also been made to the existing Titan Schematic Editor (SE), Titan Layout Editor (LE) and Titan Shape-Based Router (SBR). With the new capabilities and enhancements, Titan delivers first-time-right, predictable mixed-signal designs, shortening the design process by weeks without sacrificing performance.
Titan is the first truly unified, open platform that embeds digital standard-cell design into the analog circuit design flow. Seamless integration with Magma's Talus digital implementation, Titan ADX accelerator, FineSim simulation and Quartz physical verification tools provides greater automation and reduces iterations during both block-level design and top-level integration. To ease adoption, Titan natively supports OpenAccess and emerging industry standards such as the TSMC iPDK.
"Since we introduced Titan a little over a year ago we've diligently worked to deliver critical enhancements and to meet key milestones in the development of this unique platform," said Anirudh Devgan, general manager of Magma's Custom Design Business Unit. "Our efforts have paid off. Titan has been adopted by leading semiconductor companies, qualified by the world's largest foundry for an important new initiative and even nominated for innovation awards. With the addition of the recent enhancements and Titan ASE and Titan SDL, Magma's Titan is the fastest path to mixed-signal silicon."
Titan Platform: First-Time-Right, Predictable Mixed-Signal Design
Titan is the first full-chip mixed-signal design, analysis and verification platform. Unlike other design solutions, Titan tightly integrates mixed-signal implementation with digital implementation, circuit simulation and verification, providing comprehensive capabilities.
Titan SE, a complete and powerful schematic editor, facilitates quick schematic capture and editing, advanced search and replace, easy hierarchy traversal and design management. It has full support for buses and bundles, inherited connections and netlisting of various formats.
Titan ASE, a specification-driven, test-based analog simulation environment, empowers organized design verification across different operating conditions. Pass-fail indicators locate the failing cases and indicate final signoff with respect to the specifications. Features such as simulator-independent tests, device under text (DUT)-based test mapping help migrate the test benches across different versions of the design.
Titan SE, Titan ASE and Titan ADX capabilities are integrated to enable easy capture of the design along with the user constraints and fast verification of the optimized design with FineSim. The template-based design and organized characterization framework ease verification of the implementation generated by Titan ADX.
Titan SDL enables the creation of a connectivity-aware layout using any language pcells. Cross-probing, flyline displays during move and wiring, check and update of design data and opens and shorts locator functions minimize the physical verification loop by ensuring a layout-vs.-schematic (LVS)-correct layout. Pattern-based device module generation accelerates the analog layout placement. Titan SDL also allows one instance to be bound to many instances between the schematic and layout.
Titan LE provides a complete set of features to accomplish full-custom layout design in fewer clicks. Its high capacity and speed coupled with the embedded Talus digital implementation capabilities provides mixed-signal chip integration within a single environment. Titan LE also provides advanced features like live-DRC, automatic guard-ring creation, net tracing, pcell abutment and interactive wire creation that includes bus routing.
Titan SBR provides constraints such as shielding, differential pair routing, star and matched routing, enabling this shape-based router to achieve highly precise analog routing results. Titan SBR can run on both the Titan and Talus database.
The Titan platform is also integrated with the Quartz DRC and Quartz LVS physical verification tools. Design rule checking (DRC) can be performed on mixed-signal designs and also run in an incremental mode to speed DRC error fixing.
FineSim Pro works with Titan to enable full-chip SPICE-level simulation and post-layout simulation with extracted parasitics.
Availability
Magma's Titan mixed-signal design platform will be available in August 2009.
About Magma
Magma's electronic design automation (EDA) software is used to create complex, high-performance integrated circuits (ICs) for cellular telephones, electronic games, WiFi, MP3 players, DVD/digital video, networking, automotive electronics and other electronic applications. Magma products for IC implementation, analog/mixed-signal design, analysis, physical verification, circuit simulation and characterization are recognized as embodying the best in semiconductor technology, providing the world's top chip companies the "Fastest Path to Silicon."(tm) Magma maintains headquarters in San Jose, Calif., and offices throughout North America, Europe, Japan, Asia and India. Magma's stock trades on Nasdaq under the ticker symbol LAVA. Visit Magma Design Automation on the Web at www.magma-da.com.
Magma and Talus are registered trademarks and "Fastest Path to Silicon," FineSim, Quartz and Titan are trademarks of Magma Design Automation Inc. All other product and company names are trademarks and registered trademarks of their respective companies.
Forward-Looking Statements:
Except for the historical information contained herein, the matters set forth in this press release, including statements that Titan enables first-time right, predictable mixed-signal design and reduces the design cycle, and other statements about the features and benefits of Magma's software, 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 and its products' abilities to produce desired results. Further discussion of these and other potential risk factors may be found in Magma's public filings with the Securities and Exchange Commission (www.sec.gov). Magma undertakes no additional obligation to update these forward-looking statements.