It’s about all of us coming together to make Arizona and the entire Southwest Region, America’s first full, leading-edge, microelectronics cluster.” she said. “The success of the SWAP Hub is about more than a single DoD program. Sally Morton, executive vice president of ASU’s Knowledge Enterprise, noted that the Southwest is already one of the nation’s key centers of microelectronics activity. Representatives from ASU and member companies spoke about their respective areas of expertise. I attended the first partner SWAP Hub event in July to learn more about it, and to understand our members’ involvement. 3D InCites members Deca Technologies, Lam Research, Mercury Systems, Siemens EDA, and Cadence are among the partners. So far, the SWAP HUB comprises more than 60 leading corporate, startup, academic, and national lab partners from the semiconductor and defense sectors in Arizona, New Mexico, Colorado, and beyond. Partners are expected to match the funding. The purpose of the SWAP HUB is the development of AI hardware, 5G/6G, and commercial leap-ahead technologies for defense applications.Īlthough the proposal has yet to be approved, SWAP Hub program director, Zachary Holman, associate professor in the School of Electrical, Computer, and Energy Engineering at ASU, says the key to the group’s success so far is “implementing our vision even before the US Government decides to fund it.” ASU itself has earmarked $250K to fund four seed projects at $50K each. Spearheaded by the Ira Fulton School of Engineering at Arizona State University (ASU), the Southwest Advanced Prototyping Hub (SWAP) proposal was submitted in late July to the National Security Technology Accelerator as part of the Microelectronics Commons, a $1.63B Department of Defense (DoD) program funded by the 2022 CHIPS and Science Act. Let’s look at some of the recent initiatives at Arizona State University that will help fuel the industry and provide a skilled workforce to fill these positions, as well as those needed at TSMC’s facility. The job count at YES will be approximately 100 openings. The cleanroom will allow YES to collaborate with its customers to develop innovative processes and validate platform prototypes. The company expects this new facility will create 300 local jobs.Īnd YES recently held a ribbon-cutting ceremony for the YES Advanced Technology Center (YATC), which will include, 50,000 square feet of manufacturing space, a 10,000 square foot cleanroom in the first development phase that will be expanded to approximately 40,000 square feet in the future. Edwards provides vacuum and abatement systems that are essentially “clean air machines” and vital to removing nasty chemicals and gasses used in semiconductor manufacturing. It’s no wonder our member companies, Edwards and YES decided to open state-of-the-art facilities in Chandler, AZ this year.Įdward’s 200,000-square-foot facility will reportedly leverage the latest manufacturing and digital technologies for efficient and environmentally sustainable chip production. But now, in part due to the new infusion of funds expected from the CHIPS and Science Act, everyone – from academic and research institutions to equipment and materials suppliers, design tools, and technology providers – is getting involved. Everyone – from academic and research institutions to equipment and materials suppliers, design tool, and technology providers – is getting involved.Ĭompanies like Motorola, Intel, and Sandia National Lab made semiconductor manufacturing a mainstay industry in Arizona and New Mexico since the early days. I’m not just talking about TSMC’s gigafab, or Intel’s expansion, although these industry giants have a lot to do with what’s happening in Arizona right now. Is the Wild West becoming America’s center of microelectronics innovation? Based on the current wave of activity across the semiconductor supply chain, it’s starting to look that way.
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