Cadence Introduces Genus Synthesis Solution, Delivering Up to 10X Improvement in RTL Design Productivity
Massively parallel architecture scales linearly beyond 10M instances while improving power, performance and area
SAN JOSE, Calif., June 3, 2015 /PRNewswire/ -- Cadence Design Systems, Inc. (NASDAQ: CDNS) today unveiled the Cadence® Genus(TM) Synthesis Solution, its next-generation register-transfer level (RTL) synthesis and physical synthesis engine, to address the productivity challenges faced by RTL designers. Genus Synthesis Solution incorporates a multi-level massively parallel architecture that delivers up to 5X faster synthesis turnaround times and scales linearly beyond 10M instances. In addition, the tool's new physically aware context-generation capability can reduce iterations between unit- and chip-level synthesis by 2X or more. This powerful combination enables up to 10X improvement in RTL design productivity.
Key Genus Synthesis Solution features and capabilities include:
-- Massively parallel architecture - The tool performs timing-driven
distributed synthesis of a design across multiple cores and machines.
All key steps in the synthesis flow leverage both multiple machines and
multiple CPU cores per machine.
-- Physically aware context generation - The complete timing and physical
context for any subset of a design can be extracted and used to drive
RTL unit-level synthesis with full consideration of chip-level timing
and placement, significantly reducing iterations between chip-level and
unit-level synthesis runs.
-- Unified global routing with Innovus(TM) Implementation System - Genus
Synthesis Solution and Cadence Innovus Implementation System, a
next-generation physical implementation solution, share an enhanced 4X
faster timing-driven global router that enables tight correlation of
both timing and wirelength to within 5 percent from synthesis to place
and route.
-- Global analytical architecture-level PPA optimization - The solution
incorporates a new datapath optimization engine that concurrently
considers many different datapath architectures across the whole design
and then leverages an analytical solver to pick the architectures that
achieve the globally optimal PPA. This engine delivers up to 20 percent
reduction in datapath area without any impact on performance.
"Processors for automotive and industrial markets are driving higher-levels of integration and complexity. This requires larger design partitions to deliver the efficiencies and time-to-market demanded by our customers," said Anthony Hill, Director of Processor Technology, Texas Instruments (TI). "The highly-scalable Genus Synthesis Solution from Cadence has enabled more than a 5x improvement in turnaround time, enabling us to realize production-quality timing-driven synthesis of up to three-million instance partitions in less than eight hours."
"With Genus Synthesis Solution, we see a significant opportunity to improve RTL design productivity and make more aggressive architecture-level optimizations to improve PPA," said Dr. Anirudh Devgan, senior vice president and general manager of the Digital & Signoff Group at Cadence. "Early customers are already deploying the solution in their RTL design flows and reporting significantly better turnaround times and throughput compared to competing solutions."
About Cadence
Cadence enables global electronic design innovation and plays an essential role in the creation of today's integrated circuits and electronics. Customers use Cadence software, hardware, IP and services to design and verify advanced semiconductors, consumer electronics, networking and telecommunications equipment, and computer systems. The company is headquartered in San Jose, Calif., with sales offices, design centers and research facilities around the world to serve the global electronics industry. More information about the company, its products and its services is available at http://www.cadence.com.