industry news
Subscribe Now

MunEDA WiCkeD Supports TSMC AMS Reference Flow 2.0 for 28nm

HSINCHU, Taiwan, June 3, 2011 – MunEDA, developer of the industry’s broadest family of advanced circuit analysis, modeling and optimization solutions, today announced that TSMC has included MunEDA’s WiCkeDTM circuit analysis environment in TSMC AMS Reference Flow 2.0, one of the critical components in TSMC 28nm design infrastructure. WiCkeD covers a wide range of essential tasks in interactive and automatic specification-drivencustom circuit design with statistical circuit analysis. Using MunEDA WiCkeD with TSMC process technologies helps designers improve the robustness of circuit designs against parametric process variation, achieve performance, power and area requirements, and improve efficiency to reduce design time.

“MunEDA’s WiCkeD software has been validated for our AMS Reference Flow 2.0,” said Suk Lee, director of Design Infrastructure Marketing at TSMC. “WiCkeD’s sensitivity and worst-case analysis methodologies deliver good benefits to designers using TSMC 28nm processtechnology. We are happy to collaborate with MunEDA on statistical circuit analysis.”

“We are proud that TSMC has incorporated MunEDA WiCkeD as a part of the TSMC AMS Reference Flow 2.0,” stated Michael Pronath, MunEDA vice president of Products & Solutions. “Our collaborations with TSMC and our mutual customers show that specification-driven design and statistical design are important for design success in advanced process technologies.”

Circuit designers use MunEDA’s WiCkeD circuit analysis and sizing environment to balance specs, area, power, reliability and robustness. WiCkeD can automate manual circuit design tasks in IP porting and cell migration to maximize designers’ efficiency. It helps them overcome challenges of analog/mixed-signal (AMS) circuit design in sub-100nm technologies posed by lower core voltages, less headroom, more on-chip variation and other effects that can affect the performance, power, and yield of critical circuits.

MunEDA WiCkeD is in industrial use by leading semiconductor companies worldwide, in the areas of mobile communication, medical, memories, automotive and consumer electronics. Key application areas include low-power AMS/RF circuit design, high-speed digital I/O, and memory.

About MunEDA

MunEDA will demonstrate its WiCkeD circuit analysis and sizing environment at the Design Automation Conference, Booth #1725, in San Diego, Calif., June 5-10, 2011.

MunEDA develops and licenses EDA tools and solutions that analyze, model, optimize and verify the performance, robustness and yield of analog, mixed-signal and digital circuits. Leading semiconductor companies rely on MunEDA´s comprehensive WiCkeD™ tool suite – the industry’s broadest family of advanced circuit analysis solutions – to reduce circuit design time and achieve maximum yield in their communications, computer, memory, automotive and consumer electronics designs. Founded in 2001, MunEDA is headquartered in Munich, Germany, with offices in Sunnyvale, California, USA (MunEDA Inc.), and leading EDA distributors in the U.S., Japan, Korea, Taiwan, Singapore, Malaysia, Scandinavia, and other countries worldwide. For more information, please visit MunEDA at www.muneda.com.

Leave a Reply

featured blogs
Dec 19, 2024
Explore Concurrent Multiprotocol and examine the distinctions between CMP single channel, CMP with concurrent listening, and CMP with BLE Dynamic Multiprotocol....
Dec 20, 2024
Do you think the proton is formed from three quarks? Think again. It may be made from five, two of which are heavier than the proton itself!...

featured video

Introducing FPGAi – Innovations Unlocked by AI-enabled FPGAs

Sponsored by Intel

Altera Innovators Day presentation by Ilya Ganusov showing the advantages of FPGAs for implementing AI-based Systems. See additional videos on AI and other Altera Innovators Day in Altera’s YouTube channel playlists.

Learn more about FPGAs for Artificial Intelligence here

featured chalk talk

Mounted Robotics End of Arm Tools
In this episode of Chalk Talk, Rajan Sharma and Rafael Marengo from Analog Devices and Amelia Dalton chat about the challenges associated with motor control, industrial vision and real-time connectivity for industrial robotic designs. They also investigate the variety of solutions Analog Devices offers for mounted robotics designs and the role that Gigabit Multimedia Link (GMSL) plays in these applications.
Dec 2, 2024
17,559 views