Startup Substrate is building next-generation semiconductor fabs using advanced X-ray lithography. This goes beyond extreme ultraviolet 13.5 nanometer wavelengths down to 0.01 nanometers. At the core ...

Welcome to Tech In Depth, our daily newsletter about the business of tech from Bloomberg’s journalists around the world. Today, Ed Ludlow and Ian King report on the skepticism that has greeted startup ...

An extremely ambitious startup called Substrate Inc. said today it has raised an initial $100 million to fund its mission to disrupt the global semiconductor industry and reinvent chipmaking. The ...

A secretive American startup has emerged with aspirations to challenge two titans of the semiconductor industry: ASML Holding NV and Taiwan Semiconductor Manufacturing Co. The company, Substrate, has ...

SAN FRANCISCO, Oct 28 (Reuters) - Substrate, a small U.S. startup, said on Tuesday that it had developed a chipmaking tool capable of competing with the most advanced lithography equipment made by ...

SAN FRANCISCO (Reuters) -Substrate, a small U.S. startup, said on Tuesday that it had developed a chipmaking tool capable of competing with the most advanced lithography equipment made by Dutch firm ...

Substrate, a small San Francisco startup is making waves in the global semiconductor industry, a business widely believed too complex to break into. With its proprietary technology, Substrate emerges ...

Substrate, a San Francisco company, is trying to take on powerhouses like the Dutch company ASML. Substrate, a San Francisco company, is trying to take on powerhouses like the Dutch company ASML.

Silicides — alloys of silicon and metals long used in microelectronics — are now being explored again for quantum hardware. But their use faces a critical challenge: achieving phase purity, since some ...

As a package substrate, the benefits of glass are substantial. It’s extremely flat with lower thermal expansion than organic substrates, which simplifies lithography. And that’s just for starters.

Artificial intelligence learns to recognize subtle biochemical features of γ-secretase substrates. Screening potential transmembrane proteins identifies 250 substrates, including 160 novel ones. These ...