DSQM envisions revolutionizing the computing landscape by creating a comprehensive superconducting electronic platform that seamlessly integrates quantum computing with classical applications.
Our mission is to deliver faster, more energy-efficient devices, addressing the demands of high- performance computing (HPC) in various industries. By leveraging cutting-edge superconducting technology, DSQM aims to push the boundaries of computational power and efficiency, making complex calculations and data processing tasks more accessible and sustainable. Our innovative solutions are designed to meet the growing challenges of HPC, enabling breakthroughs in fields like artificial intelligence, cryptography, and beyond.
DSQM
MISSION
DSQM’s mission is to pioneer the next paradigm of computation by developing advanced superconducting electronics.
DSQM’s mission is to pioneer the next paradigm of computation by developing advanced superconducting electronics. We aim to create sophisticated devices like GPUs and CPUs, harnessing the unique properties of superconductors for unparalleled performance and energy efficiency. Our focus is on integrating quantum and classical technologies, providing scalable solutions that redefine the capabilities of modern computing. By driving innovation in superconducting electronics, DSQM seeks to enable groundbreaking applications in various fields, from artificial intelligence to scientific research, ensuring that the future of computation is faster, more efficient, and more powerful.
PARTNERS
Based in Pisa, DSQM is a pioneering spin-off from the Italian National Research Council (CNR) and Scuola Normale Superiore. We specialize in superconducting electronics, offering comprehensive services including fabrication, cryogenic measurement capabilities, and device design. Our expertise extends to cryogenics electronics, enabling advanced research and applications. Through collaboration with leading academic institutions, DSQM is at the forefront of innovation, providing cutting-edge solutions for both quantum computing and classical high-performance computing applications. Our mission is to transform the future of computation with energy-efficient, high-performance technologies.
