From Silicon To Software

Archive for the 'Quantum Computing' Category

 

A Year in Review: A Recap of Key Milestones and Moments in 2021

We’re looking back at 2021’s breakthroughs & milestones; explore key developments in EDA tools, SoC verification, connected vehicles, and life at Synopsys.

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Posted in 3D-ICs, Automotive, EDA, HPC, Inside Synopsys, IP, Prototyping, Quantum Computing, Verification

 

How Cryo-CMOS IP Turbo-Charges Quantum Computers

Cryogenic semiconductor IP (cryo-CMOS IP) is critical to scaling quantum computing solutions; learn how it enables co-location of qubits & control electronics.

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Posted in IP, Quantum Computing

 

Calculating the Unimaginable: Quantum Computing and Its Impact on Chip Design

We explain quantum computing: the role of chip design & photonics, development & deployment challenges, and quantum computing applications & solutions.

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Posted in EDA, Quantum Computing

 

Harnessing the Power of Women in Tech: a USA Today Feature

Women play vital roles in developing the tools that engineers around the world use to design smart chips and develop secure code for the amazing devices that are changing the way we work and play. USA Today recently featured three Synopsys engineers, who reflect on their experiences as women in tech and offer advice on carving out success in a male-dominated field.

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Posted in Application Security, Artificial Intelligence, Automotive, Cryptography, EDA, Healthcare, Internet of Things, IP, Machine Learning, Malware, Optical Design, Privacy, Quantum Computing, Robotics, Security, Superconducting Electronics, TCAD

 

Synopsys Awarded Multi-Year IARPA SuperTools Contract

On Wednesday, Synopsys announced a multi-year research and development contract with the U.S. Intelligence Advanced Research Projects Activity (IARPA) to advance EDA tool flows for Superconducting Electronics (SCE). Synopsys will collaborate with experts in the field of SCE as part of the IARPA SuperTools Program to develop a comprehensive set of tools that increase the scale, efficiency, and manufacturability of these designs. SCE has the potential to propel the electronics industry beyond CMOS, enabling a major leap in processing speeds and power efficiency.

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Posted in EDA, Quantum Computing, Superconducting Electronics, TCAD