Low-energy High-performance Computing Based on Superconducting Technology

Explore the cutting-edge world of superconducting computing in this comprehensive conference talk from the HyperComplex Seminar. Delve into the potential of superconducting technology as a promising candidate for post-CMOS computing, offering both high performance and energy efficiency. Learn about two distinct logic styles in superconducting computing: high-speed single-flux-quantum (SFQ) logic and energy-efficient adiabatic logic. Discover ongoing research on energy-efficient superconducting computing based on adiabatic quantum flux parametron (AQFP), and gain insights into new circuit technologies including EDA tools, reversible QFP, three-dimensional integration, and hybridization with CMOS memories. Explore additional applications of AQFP in readout circuits for superconducting sensor arrays and control and readout circuits for quantum bits. This talk provides a thorough overview of the current state of research in superconducting computing and its potential to meet the growing demand for energy-efficient computing technologies in AI, cryptocurrency, and other high-performance computing applications.

Noboyuki Yoshikawa: Low-energy High-performance Computing based on Superconducting Technology