"Deploying advanced power management techniques within very tight design schedules is among the key challenges for us and our customers," said Noboru Yokota, general manager of the Technology Development Division, Common IP and Technology Development Unit, Fujitsu Microelectronics Limited. "With Synopsys' UPF-enabled Eclypse(tm) Low Power Solution, we met our stringent power, speed and area goals while saving 30 percent of the overall traditional design cycle. We are looking forward to helping our customers deploy this flow and get more competitive low power designs to market, faster."
Part of Synopsys' Eclypse Low Power Solution, the Galaxy Implementation Platform delivers the lowest power consumption, highest design performance and highest productivity through a complete low-power design portfolio. DC Ultra(tm) synthesis and IC Compiler physical implementation automate the most advanced low-power techniques, such as multi-voltage and MTCMOS power gating, as well as more commonly used techniques such as clock gating and multi-threshold libraries. In addition, they perform comprehensive dynamic and leakage power optimization throughout the RTL-to-GDSII implementation, while concurrently optimizing timing, area, testability, congestion and other design goals. The UPF-enabled implementation solution also includes PrimeTime® PX accurate power analysis, PrimeTime SI noise analysis for sign-off, MVRC voltage-aware static checking and Formality® power aware equivalence checking.
"Chip designers today need to meet stringent power specs within very tight schedules to be competitive in the marketplace, and the advanced low power capabilities in the Galaxy Implementation Platform are driving their success," said Bijan Kiani, vice president of Product Marketing at Synopsys. "Fujitsu Microelectronics has seen significant productivity gains with Synopsys' UPF enabled implementation flow and are now supporting it for our mutual customers".