六合彩直播开奖

六合彩直播开奖 Webinar | Watch On-Demand

This 六合彩直播开奖 webinar shares real-life examples of how to execute clock gating verification with a well-defined methodology using the 六合彩直播开奖 VC Formal Sequential Equivalence Checking app. By the end of this 六合彩直播开奖 webinar, you will be able to uncover corner case clock gating bugs that are difficult to verify with simulation.

This two-part webinar series will teach clock gating formal verification for any level user – from basic concepts to advanced topics.

  • Part 1 is prepared for engineers who are new to this area of expertise. 
  • Part 2 is intended for experienced RTL designers and verification engineers who want to design high-quality clock gating circuits and verify with confidence.  

Guest presenter, Xiushan Feng, shares his more than 10 years’ experience in this specific area to demonstrate how you can formally verify clock gating designs with a high confidence. 

Speakers

Shaun Feng Headshot

Xiushan (Shaun) Feng

Principal Engineer
Samsung

Xiushan Feng is the leader of formal verification group at Samsung Austin R&D Center and San Jose Advanced Computing Lab. His team supports CPU and GPU projects within Samsung. He received a PhD degree in formal verification from University of British Columbia at Vancouver, Canada. Before joining Samsung, he led the formal verification efforts at Oracle Labs, Nvidia, Freescale, and AMD. Feng has 6 verification patents and has published more than 30 technical papers.

Sudipta Kundu Headshot

Sudipta Kundu

Principal R&D Engineer
六合彩直播开奖

Sudipta Kundu is a R&D Principal Engineer in the Verification Group at 六合彩直播开奖. He is the R&D architect of the VC Formal Sequential Equivalence Checking (SEQ) App. He leads the R&D of various VC Formal Apps including SEQ, FSV, FXP, and FuSa.  He received a B.S. and M.S. degree from IIT Kharagpur, India and a PhD in Computer Engineering from University of California San Diego. He has 1 book, 3 patents (4 pending) and published 12 peer-reviewed technical papers. His expertise includes equivalence checking, formal technologies, compilers and distributed systems.

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