Cadence Expands Physically Aware Synthesis in RTL Compiler, Improving Power, Performance and Area for Complex ChipsSAN JOSE, Calif., 20 Nov 2013
- New capabilities in RTL Compiler bring physical considerations earlier in the synthesis process for better quality of results
- Delivers up to 15 percent improvement in power, performance and area in new version of RTL Compiler
Cadence Design Systems, Inc. (NASDAQ: CDNS), a leader in global electronic design automation, today introduced the Encounter® RTL Compiler version 13.1, which includes a new suite of physically aware RTL synthesis capabilities that deliver up to 15 percent improvement in power, performance and area on today’s most complex advanced node chip designs that face timing or congestion challenges. These new capabilities are part of a production-ready physical synthesis engine that enables engineers to use physical aware techniques at the earliest phases of synthesis for better silicon results.
“While collaborating with Cadence on the development of several production designs, Fujitsu deployed RTL Compiler’s next-generation physically aware RTL synthesis technologies on a 1GHz, eight-CPU core design,” said Satoru Yamaguchi, president and chief executive officer of Fujitsu Semiconductor America. “We were able to improve timing and area by more than 10 percent, allowing us to shrink the chips for our customer while demonstrating the benefit of this new synthesis solution.”
As geometries shrink beyond 28nm, changes in interconnect characteristics make it much more difficult to achieve optimal timing and closure. The new RTL Compiler capabilities let design teams address these challenges earlier in the design process so they can achieve faster timing closure, while improving performance, power and area.
The new RTL synthesis capabilities include physically aware structuring, mapping, multi-bit cell inferencing and design for test that offer significant benefits for Cadence customers. Physically aware structuring and mapping can improve performance by more than 10 percent and area by more than 15 percent on complex SoCs by considering pin and register placement when deciding which micro-architectures to synthesize to, and how to balance them. Physically aware multi-bit cell inferencing can lower power by more than 10 percent by merging single registers into multi-bit registers that share a clock.
“Cadence has re-architected RTL Compiler to weave physical awareness into stages of RTL synthesis that were traditionally logic only, allowing engineers to leverage floorplan and placement data as early as possible in the flow to ensure correlation with the Encounter Digital Implementation System,” said Anirudh Devgan, senior vice president of the Digital and Signoff Group at Cadence. “Our investment continues in this area, with our customers citing benefits for timing, power, and area in a wide range of target applications and better out-of-box results reducing iterations.”
A more detailed description of the new RTL Compiler capabilities can be found at www.cadence.com/news/rtl
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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 services is available here