Ansys Debuts RedHawk Version 2014 for Power Noise and Reliability Sign-off Platform for FinFET-Based Designs - 8NEWS - WRIC | News Where You Live

Ansys Debuts RedHawk Version 2014 for Power Noise and Reliability Sign-off Platform for FinFET-Based Designs

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SOURCE ANSYS, Inc.

New release delivers performance, capacity and coverage for next generation of low-power, high-performance designs

PITTSBURGH, May 6, 2014 /PRNewswire/ -- ANSYS, Inc. (NASDAQ: ANSS) today introduced 2014 version of RedHawk, the industry-standard power noise and reliability sign-off platform ready for FinFET-based designs. The new release delivers greater performance, capacity and coverage, as well as sign-off accuracy to address the challenges faced by the increasing complexity of FinFET-based designs.

To meet the demands of lower power consumption and higher operating performance in today's mobile, computing, consumer and automotive electronics, integrated circuit (IC) designers are adopting FinFET technology – a three-dimensional transistor architecture in which the elevated channel is wrapped by a gate electrode. While FinFET brings many benefits, these designs experience smaller noise and reliability margins, which require tighter control over analysis accuracy.

Capacity and Performance
To meet sign-off quality, system-on-chip (SoC) dynamic voltage drop analysis requires a flat modeling framework to accurately predict the current flow inside tightly coupled elements across chip, package and the printed circuit board (PCB). Due to the global nature of power delivery network, a more traditional hierarchical approach cannot deliver the accuracy needed for sign-off. RedHawk version 2014 offers Distributed Machine Processing (DMP) capabilities that deliver on average three times improvement in memory footprint, enabling the simulation of more than 100 million instances or over 2 billion nodes, while maintaining flat simulation accuracy. DMP's proprietary architecture takes advantage of the increased processing power and memory capacity available in a private machine cluster to simulate each module within the context of the entire chip, including package and PCB elements.

Along with DMP, this release employs software architecture changes and flow optimizations to deliver two to three times runtime improvements over its previous release, which was already the fastest power integrity solution in the market. The combination of DMP and architecture improvements bring capacity and performance required for today's ultra large designs, especially those fabricated using FinFET technologies, without compromising sign-off accuracy.

Chip-Package Co-Analysis
With the increasing size of SoC, along with variations in the switching current and parasitic profile across the chip, the connection between SoC and package needs to be as granular as possible to deliver quality sign-off. RedHawk version 2014 introduces RedHawk-CPA, the industry's first integrated chip-package co-simulation and co-analysis solution. This new option maps the package to the die layout, through pin-to-pin physical connectivity – seamlessly merging a fully distributed package parasitic network with an on-die power delivery network. By incorporating both chip and package layouts in the same simulation environment, RedHawk-CPA provides immediate feedback on the quality of the package design, as well as the impact of package parasitic on the chip's performance.

Foundry-Certified Reliability
FinFET-based designs introduce tighter electromigration (EM) limits and a new class of EM rules, as well as greater thermal impact on EM reliability. RedHawk version 2014 is foundry certified for IR-drop and EM analysis for the latest process technology. It supports advanced EM rules that consider current flow direction, metal topology and via types for both power and signal nets. In addition, this release enables thermal-aware EM analysis by providing chip thermal model (CTM) that accurately captures the thermal distribution that is critical for FinFET devices with greater self-heating issues.

"Over the past decade, RedHawk has been the industry standard for power integrity and sign-off by the world's top 20 semiconductor companies," said Aveek Sarkar, vice president of product engineering and support from ANSYS. "As the industry adopts new FinFET technology, our customers face increasing challenges in meeting their power, performance and price targets. The release of RedHawk version 2014 demonstrates our commitment in continuing to deliver innovative technologies to meet our customers' next-generation low-power, high-performance design requirements."

The ANSYS portfolio of product offerings will be showcased at the Design Automation Conference (DAC) June 2-6 in exhibit booth #1413.

About ANSYS, Inc.
ANSYS brings clarity and insight to customers' most complex design challenges through fast, accurate and reliable engineering simulation. Our technology enables organizations ? no matter their industry ? to predict with confidence that their products will thrive in the real world. Customers trust our software to help ensure product integrity and drive business success through innovation. Founded in 1970, ANSYS employs more than 2,600 professionals, many of them expert in engineering fields such as finite element analysis, computational fluid dynamics, electronics and electromagnetics, and design optimization. Headquartered south of Pittsburgh, U.S.A., ANSYS has more than 75 strategic sales locations throughout the world with a network of channel partners in 40+ countries. Visit www.ansys.com for more information.

ANSYS also has a strong presence on the major social channels. To join the simulation conversation, please visit: www.ansys.com/Social@ANSYS 

ANSYS and any and all ANSYS, Inc. brand, product, service and feature names, logos and slogans are registered trademarks or trademarks of ANSYS, Inc. or its subsidiaries in the United States or other countries. All other brand, product, service and feature names or trademarks are the property of their respective owners.

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Contact

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Yukari Ohno



408.457.2000



yukari.ohno@ansys.com






Tom Smithyman



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annette.arribas@ansys.com

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