SAN JOSE, USA: InPA Systems, Inc. has been formed to develop and market FPGA-based rapid prototyping technology that allows users to employ the company’s patent pending Active Debug including full visibility technology to better detect hardware faults and reduce the FPGA P&R iterations associated with the debug cycle for next-generation complex SoCs.
InPA’s Active Debug technology allows users unprecedented visibility and control of the verification and validation process when integrating software and hardware onto SoC designs, a major technological leap in reducing today’s highly iterative process of “blind” or passive probing required when using current prototyping debug methods.
“We use FPGA prototypes extensively for our SoC design projects as it has become an essential hardware verification and software application validation tool,” said Dr. Gene Chuang, SoC Technical Director, Wireless Broadband Technology Division of ITRI in Taiwan.
Chuang continued: “While FPGA prototypes are popular, they are also difficult to use. We are excited to see that the InPA Systems Active Debug including full visibility technology will make our FPGA prototype verification environment even more powerful and easy to use and look forward to using their product when it’s released.”
InPA Systems was founded in October 2007 by two longtime EDA entrepreneurs: noted logic emulation authority Thomas Huang, who is chairman and CTO; and verification expert Michael Chang, who is president and CEO.
Huang and Chang have founded a number of startups and bring a wealth of expertise in logic emulation, rapid prototyping and verification to InPA. They hold ten patents in the areas of logic emulation and equivalence checking.
InPA Systems is privately funded and has recruited a board of key advisors with vast and noteworthy academic, EDA and IC design industry credentials and expertise. Along with Huang and Chang, outside advisors are: Bernie Aronson, former CEO or president of companies such as Kilopass, Synplicity and Epic; Michel Courtoy, former CEO at Certess; Sean Torsney, former VP of marketing and sales at Verplex and currently VP marketing and sales at VisualOn; and Kazuyuki Kawauchi, who held senior management positions at Fujitsu Semiconductor in Japan and at Fujitsu Microelectronics America, and is currently president of D2S KK.
InPA Systems is entering into one of the fastest growing EDA segments--rapid prototyping. According to InPA estimates, the rapid prototype sub-segment of the EDA market has had a CAGR of better than 20 percent over the last five years and is poised to grow even faster over the next couple of years.
InPA believes that more new technology and attention will be focused on this sub-segment in the near future, making FPGA prototypes even more popular.
Technology differentiation
The key to InPA Systems’ next generation rapid prototyping debug product is its Active Debug including full visibility technology. For the first time, users gain control when running the design, at speed, in the validation process, allowing them to capture complex scenarios in the FPGAs and analyze system faults with full signal visibility.
Current passive debug technology requires a highly iterative and mostly, blind process that requires the user to continually guess where system faults might be located on the SoC. The primary benefit of Active Debug including full visibility technology is that it compresses the time it takes to integrate hardware and software and to debug SoC designs.
“It’s become obvious to most all SoC design teams that FPGA-based prototype boards are invaluable when verifying the hardware and validating software applications in system,” said Mike Dini, CEO of The Dini Group.
“What’s been missing is the ability to efficiently debug a multi-FPGA system. We champion InPA Systems’ efforts to bring their Active Debug including full visibility technology to market to vastly improve the way our multi-FPGA systems are debugged.”
Tuesday, August 17, 2010
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.