SCIENCE

Xilinx has announced the acquisition of high level synthesis leader AutoESL Design Technologies.

Expanding Xilinx’s technology foundation and product portfolio to include high level synthesis will enable the company to deliver the benefits of programmable platforms to a broader base of companies where system architects and hardware designers are accustomed to designing at a higher level of abstraction in C, C++ and System C.

It will also enable Xilinx to address growing customer demand for tools that support electronic system-level (ESL) design methodologies for today’s complex designs targeted in field-programmable gate arrays (FPGAs).

AutoESL’s flagship high level synthesis tool, AutoPilot, has been adopted by leading semiconductor and systems companies to enhance productivity and speed time-to-market for video, wireless, and high performance computing applications, of whom more than 25 are Xilinx customers and Alliance Program members. With today’s announcement, Xilinx intends to increase designer productivity and innovation with its 6 series and 7 series FPGAs and new Extensible Processing Platform.

“Xilinx has incubated high-level synthesis technology for many years,” said Vin Ratford, senior vice president of worldwide marketing at Xilinx. “In 2006, we launched our ESL initiative with a goal to help the industry improve quality of results, simplify and abstract design flows, establish interoperability and improve embedded processing flows.

“Recently, we commissioned an independent study to evaluate high-level synthesis tool offerings. Based upon benchmarks conducted by BDTI as well as Xilinx Research Labs, it was clear that AutoPilot’s quality of results matched or exceeded hand-coded RTL for data path-intensive and DSP designs. We’re delighted to welcome the AutoESL team to Xilinx. Together, I have every confidence we’ll deliver on the promise of FPGA-based electronic system-level design.”

Xilinx did not disclose terms of the acquisition. The majority of AutoESL employees currently located at the company’s headquarters in Cupertino, California and Beijing, China, will become Xilinx employees. “Historically, demanding applications implemented in handwritten RTL code on an FPGA typically achieved relatively good quality of results but poor productivity, while applications implemented on DSP processors provided good productivity but relatively poor quality of results,” according to Jeff Bier, founder and president of BDTI (Berkeley Design Technology, Inc.) in Xcell Journal magazine (second quarter 2010). “Development time has been a key impediment for many system designers trading off the use of a programmable DSP processor vs. an FPGA. Our evaluation indicates that this new approach involving high-level synthesis tools largely eliminates this barrier for applications, such as the BDTI Optical Flow Workload.”

BDTI created the BDTI High-Level Synthesis Tool Certification Program to provide objective, credible data and analysis to enable potential users of high-level synthesis tools for FPGAs to quickly understand the capabilities and limitations of these tools. For more information, see BDTI AutoPilot benchmark results and BDTI High-level Synthesis white paper.