Concept

Synopsys

Résumé
Synopsys is an American electronic design automation (EDA) company headquartered in Sunnyvale, California, that focuses on silicon design and verification, silicon intellectual property and software security and quality. Synopsys supplies tools and services to the semiconductor design and manufacturing industry. Products include tools for logic synthesis and physical design of integrated circuits, simulators for development, and debugging environments that assist in the design of the logic for chips and computer systems. , the company is a component of both the Nasdaq-100 and S&P 500 indices. Synopsys was founded by Aart de Geus, David Gregory and Bill Krieger in 1986 in Research Triangle Park, North Carolina. The company was initially established as Optimal Solutions with a charter to develop and market logic synthesis technology developed by the team at General Electric's Advanced Computer-Aided Engineering Group. The company changed its name to Synopsys and shifted to Mountain View, California in 1987. It became a public company through an initial public offering in February 1992. The company built a supercomputer using commodity Linux servers and off-the-shelf hardware in 2006 to develop and run EDA applications with intense computational requirements. With LINPACK benchmark results topping 3.7 teraflops, the supercomputer made it to the TOP500 list, ranked 242nd most powerful at the time. In 2017, Synopsys established a $100 million strategic investment fund for the Chinese market. In 2018, according to the Center for Security and Emerging Technology, Synopsys partnered with the People's Liberation Army National Defence University to provide field-programmable gate array design training. Synopsys also sells EDA software to companies under the control of Chinese regional governments. The company launched a cloud-based artificial intelligence (AI) software tool for chip design in early 2020. The AI approach, which uses reinforcement learning, allows the tool to automatically decide how best to place and route blocks of circuitry on a chip.
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