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Contests and their benchmarks have become an important driving force to push our EDA domain forward in different areas lately, such as ISPD, TAU, DAC contests. To encourage better research development on timely and practical EDA problems across all domains, a new international CAD Contest is held this year under the joint sponsorship of the IEEE CEDA and Ministry of Education (MOE) of Taiwan. Three...
Although power grid analysis has been an active research area for a number of years, increasing chip size has exposed new challenges in this traditional topic. The simulation of these large scale networks is becoming a dominant step in the design verification flow and it often requires the very largest computer available to the design team. To spur academic research in this vital verification step,...
The impact of considering design hierarchy during physical synthesis remains a fairly under-researched area. This is especially true for large-scale circuit placement. This is in large part due to the non-availability of realistic public designs with the design hierarchy information. Additionally, modern designs are fairly complex with numerous placement blockages, non-uniform wiring stacks, partial...
Placement is considered a fundamental physical design problem in electronic design automation. It has been around so long that it is commonly viewed as a solved problem. However, placement is not just another design automation problem; placement quality is at the heart of design quality in terms of timing closure, routability, area, power and most importantly, time-to-market. Small improvements in...
The traditional purpose of physical synthesis is to perform timing closure , i.e., to create a placed design that meets its timing specifications while also satisfying electrical, routability, and signal integrity constraints. In modern design flows, physical synthesis tools hardly ever achieve this goal in their first iteration. The design team must iterate by studying the output of the physical...
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