Littleton, MA (PRWEB) May 19, 2011
CLK Design Automation Inc., the leader in high accuracy timing solutions for nanometer digital IC design, today announced that Matthew Raggett has joined its executive team as Vice President Field Operations and Business Development. Mr. Raggett will be responsible for strengthening the company’s worldwide sales and support capabilities, and to drive new business relationships in the industry.
“I am truly excited to have Matthew join our team," said Isadore Katz, President and CEO of CLK Design Automation. "Matthew is a proven leader in the EDA industry. His wealth of experience in taking start-ups to the next level will be essential for CLK as we continue to grow and expand.”
“CLK is delivering the kinds of innovative solutions that are essential for 40 and 28 nanometer IC design,” Mr. Raggett said. “These products are proving themselves in production, and this is an excellent opportunity to grow great technology into a great company.”
Prior to joining CLK, Matthew most recently was Chairman of Javelin Design Automation. Prior to that, he was President and CEO of Analog Design Automation, which was acquired by Synopsys in 2004, and was VP Field Operations at Insilicon which was also acquired by Synopsys. Matthew held executive positions at Cadence, National Semiconductor and Fairchild Semiconductor.
About CLK Design Automation
CLK DA is helping leading edge semiconductor companies implement solutions to their most pressing timing and manufacturing challenges in 40nm and 28nm. CLK DA’s high accuracy timing technology - the FX model, Amber engine, and FX Variance Solver - delivers full chip capacity, SPICE accuracy, and unprecedented performance: variance analysis 1 million times faster than Monte Carlo SPICE; path delay and crosstalk analysis 10,000x faster than SPICE. CLK DA has applied this capability to create:
AOCV FX: full library AOCV tables in days compared with weeks and months.
Path FX: full chip SPICE accurate delay analysis for critical path timing, and block timing characterization.
Variance FX: full chip SPICE accurate variance analysis for critical paths: 1million times faster than Monte Carlo SPICE.
Signal FX: SPICE accurate crosstalk analysis 10,000x faster than SPICE.
Silicon Debug: helping identify manufacturing variation sensitive critical paths and cells.
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