Revolution in quantum computing: New HD-I/O system sets standards!

Revolution in quantum computing: New HD-I/O system sets standards!

Delft, Niederlande - In a spectacular progress for the world of quantum computing, Delft Circuits today presented his revolutionary high-density-input/output (HD-I/O) system. This groundbreaking product aims to master the challenges of the wiring density in quantum computers. With a capacity of 256 channels that can control up to 64 quibits per module, researchers enables researchers to focus on the development of complex quantum algorithms instead of dealing with the tedious hardware integration. "We solved the scaling problem in quantum computing," explains Daan Kuitenbrouwer from Delft Circuits. This novelty was presented at the APS Global Physics Summit 2025 and is intended to revolutionize the application in quantum research, such as ots.at reported.

fujitsu and tu delft bundle forces

At the same time, the collaboration of Fujitsu and the TU Delft is strengthened by founding the Fujitsu Advanced Computing Lab Delfft. This center will concentrate on the research and development of quantum computing technologies and is part of a global Initiative to promote innovative solutions in the quantum sector. "The strengthening of our cooperation with the TU Delft offers the opportunity to open up new possibilities in the field of quantum technologies," said Vivek Mahajan from Fujitsu. The partnership aims to promote the development of quantum computers with Diamond spin-qubits to develop systems that can scale over 1,000 quBits. Diamant quantum processor demonstrates how fujitsu.com describes in detail.

Both initiatives are crucial for the future of quantum computing and could help overcome the cliff of scalability in front of which the industry is currently facing. While the HD-I/O system addresses the challenges of the wiring density, the new research center focuses on basic research and development of innovative quantum algorithms and technologies that will open up new ways for industry.