Analog and RF design teams face increasingly difficult mixed-signal verification challenges. Complex blocks such as fractional-N PLLs, frequency synthesizers, and transmit and receive chains increasingly include complex digital logic. Nanometer CMOS ICs such as system-on-chips (SoCs), wireless transceivers, power ICs, and data converters have a rich mix of digital logic and high-performance analog/RF circuitry. Design teams want to verify their analog/RF circuitry with true SPICE accuracy together with their digital logic using their standard Verilog simulator. Doing so has become impractical or impossible with traditional SPICE due to their limited performance and capacity. Instead design teams have had to use analog/mixed-signal behavioral or digital fastSPICE simulators that sacrifice critical accuracy, thereby putting their whole project at risk. Analog FastSPICE Co-Simulation provides design teams an unprecedented combination of true SPICE accuracy, 5x-10x higher performance, and 5x-10x higher capacity – all using an industry standard flow.
"Verifying analog/RF mixed-signal complex blocks and full circuits is critical to delivering high-quality silicon on time,” said Tirdad Sowlati, senior director of RFIC design engineering at Skyworks Solutions, Inc. "We have been using Analog FastSPICE Co-Simulation to verify our power control loop and our full-chip transceiver. It is easy to use and delivers true SPICE accurate results 5x-10x faster with far higher capacity than traditional SPICE-based mixed-signal solutions.”
Analog FastSPICE Co-Simulation uses a standard Cadence® Analog Design Environment based flow, includes mixed-analog/digital debugging, and integrates with industry leading Verilog simulators including Cadence NC-Verilog®, Cadence Verilog-XL, and Mentor Graphics® ModelSim®. The Analog FastSPICE circuit simulator uses standard Cadence Spectre® and Synopsys® HSPICE® netlists and models and delivers identical results to traditional “golden” SPICE simulators 5x-10x faster and with 5x-10x higher capacity. The results are foundry certified down to 45nm. The capability is available immediately.
Berkeley Design Automation tools include Analog FastSPICE™ circuit simulation, Noise Analysis Option™ device noise analyzer, RF FastSPICE™ periodic analyzer, and PLL Noise Analyzer™ stochastic nonlinear engine. The company guarantees identical waveforms to the leading "golden" SPICE simulators down to noise floor (typically 0.1% or less) while delivering 5x-10x higher performance and 5x-10x higher capacity. It achieves this by using advanced algorithms and numerical analysis techniques to rapidly solve the full-circuit matrix and the original device equations without any shortcuts that could compromise accuracy.
Design teams from top-10 semiconductor companies to leading startups use Berkeley Design Automation tools to solve big analog/RF verification problems. Typical applications include characterizing complex blocks (e.g., PLLs, ADCs, DC:DC converters, PHYs, Tx/Rx chains) and running performance simulation of full circuits (e.g., wireless transceivers, wireline transceivers, high-speed I/O macros, memories, microcontrollers, data converters, and power converters).
"Most of our nearly 50 leading-edge customers have faced tremendous challenges in analog/RF mixed-signal verification," said Ravi Subramanian, president and CEO of Berkeley Design Automation. "With Analog FastSPICE Co-Simulation, we are proud to deliver another industry first that is already proven on some of the industry’s most complex production circuits. This capability will help our customers continue delivering superior products to market significantly faster.”
About Berkeley Design Automation
Berkeley Design Automation, Inc. is the recognized leader in advanced analog/RF verification. Its Precision Circuit Analysis technology combines the accuracy, performance, and capacity needed to verify GHz designs in nanometer-scale silicon. Berkeley Design Automation has received numerous awards including EDN Magazine's 2006 Innovation of the Year, the 2006 Red Herring 100 North America, and the 2007 Red Herring Global 100 Finalist. Founded in 2003, the company is funded by Woodside Fund, Bessemer Venture Partners, Matsushita Electric Industrial Co. Ltd., and NTT Corporation. For more information, see http://www.berkeley-da.com.
Analog FastSPICE, Noise Analysis Option, RF FastSPICE, PLL Noise Analyzer, WaveCrave, and Precision Circuit Analysis are trademarks and Berkeley Design is a registered trademark of Berkeley Design Automation, Inc. Synopsys and HSPICE are registered trademarks of Synopsys Inc. (NASDAQ:SNPS). Cadence, Spectre, NC-Verilog, and Verilog are registered trademarks of Cadence Design Systems Inc. (NASDAQ:CDNS). Mentor and ModelSim are registered trademarks of Mentor Graphics Corporation (NASDAQ: MENT). Any other trademarks or trade names mentioned are the property of their respective owners.
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