NVIDIA has launched the CUDA-Q™ platform at nationwide supercomputing facilities worldwide, together with websites in Germany, Japan, and Poland. These facilities will combine the platform into their supercomputing programs to energy quantum processing models (QPUs). As an example, Germany’s Jülich Supercomputing Centre (JSC) will deploy a QPU from IQM Quantum Computer systems alongside the JUPITER supercomputer, enhanced by the NVIDIA GH200 Grace Hopper™ Superchip. In Japan, the ABCI-Q supercomputer on the National Institute of Advanced Industrial Science and Technology (AIST) will incorporate a QPU from QuEra, powered by NVIDIA’s Hopper™ structure. In the meantime, Poland’s Poznan Supercomputing and Networking Center (PSNC) will set up two photonic QPUs from ORCA Computing, linked to a brand new supercomputer partition accelerated by NVIDIA Hopper.

These collaborations will drive analysis into quantum functions corresponding to AI, vitality, and biology. AIST’s analysis entails Rubidium atoms managed by laser mild as qubits, enabling large-scale, high-fidelity quantum processing. PSNC’s quantum photonics programs use single photons at telecom frequencies as qubits, offering a distributed, scalable, and modular quantum structure.

By way of these partnerships, NVIDIA facilitates the mixing of quantum computer systems with supercomputers, enabling quantum computing with AI to deal with challenges like noisy qubits and develop environment friendly algorithms. The CUDA-Q platform, an open-source and QPU-agnostic quantum-classical accelerated supercomputing platform, underpins these advancements.

For additional particulars, you may entry the unique press launch offered by NVIDIA here.

Might 13, 2024