A new study has uncovered important behavior in the flow of electric current through quantum superconductors, potentially advancing the development of future technologies like quantum computing.

Quandela, the European leader in photonic quantum computing, unveils its ambitions with the publication of its 2024-2030 technology roadmap. The company aims to achieve fault-tolerant quantum computing by 2030. To this end, Quandela intends to reach a major first milestone of achieving the first logical (error-free) qubits in 2025, before accelerating the scaling of quantum computing through quantum networking – connecting multiple quantum computers – by 2028.

Infleqtion, the world’s leading quantum information company, today announced it has been awarded a $1.15M grant by the Department of Energy (DOE) under the SBIR Phase IIB program. This grant marks the first DOE SBIR Phase IIB award given to software for quantum computing and will help advance Infleqtion’s work on Superstaq, the company’s software platform purpose-built to optimize quantum computing performance.

In work published in Science Advances, Hayato Goto from the RIKEN Center for Quantum Computing in Japan has proposed a new quantum error correction approach using what he calls “many-hypercube codes.” This approach, which turns out to have an elegant geometry, could help realize extremely efficient error corrections and contribute to highly parallel methods that will allow fault-tolerant quantum computing, the next stage in the evolution of quantum computers.

In work published in Science Advances, Hayato Goto from the RIKEN Center for Quantum Computing in Japan has proposed a new quantum error correction approach using what he calls “many-hypercube codes.” This approach, which turns out to have an elegant geometry, could help realize extremely efficient error corrections and contribute to highly parallel methods that will allow fault-tolerant quantum computing, the next stage in the evolution of quantum computers.

E4 Computer Engineering, a leading Italian company in the field of high-tech hardware and software solutions for Artificial Intelligence, High-Performance Computing (HPC), Quantum Computing (QC), Cloud Computing and Data Analytics, is among the founding members of the QuEra Quantum Alliance Partner Program.

QuEra Computing, the leader in neutral-atom quantum computing, and Quantum Intelligence Corp. (QIC), a South Korean pioneer in AI-driven drug development, have announced a strategic partnership. This collaboration is set to transform the way drugs are discovered and developed by harnessing QuEra's cutting-edge neutral atom-type quantum computers.

This research was propelled by Universal Quantum's vision to leverage the unique properties of trapped-ions, and enable them to be shuttled over long distances for two-qubit operations with minimal fidelity loss – contributing to refined connectivity and therefore facilitating scaling.

Researchers at MIT have recently signed a 4-year collaboration agreement with the Novo Nordisk Foundation Quantum Computing Programme (NQCP) at Niels Bohr Institute, University of Copenhagen, focused on accelerating quantum computing hardware research.

QC Design, a leader in quantum design automation software, has been selected for the prestigious Accelerator program by the European Innovation Council (EIC) to support the development of its design-automation software and architectures for quantum computing.