Nvidia launches quantum pc facilities with CUDA-Q platform


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Nvidia introduced at present it’s going to speed up quantum computing efforts at nationwide supercomputing facilities around the globe with the open-source Nvidia CUDA-Q platform.

Supercomputing websites in Germany, Japan and Poland will use the platform to energy the quantum processing models (QPUs) inside their Nvidia-accelerated high-performance computing techniques. Nvidia additionally introduced that 9 new supercomputers worldwide are utilizing Nvidia Grace Hopper Superchips to hurry scientific analysis and discovery. Mixed, the techniques ship 200 exaflops, or 200 quintillion calculations per second, of energy-efficient AI processing energy.

QPUs are the brains of quantum computer systems that use the conduct of particles like electrons or photons to calculate in another way than conventional processors, with the potential to make sure forms of calculations sooner.

Germany’s Jülich Supercomputing Centre (JSC) at Forschungszentrum Jülich (FZJ) is putting in a QPU constructed by IQM Quantum Computer systems as a complement to its Jupiter supercomputer, powered by the Nvidia GH200 Grace Hopper Superchip.

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The ABCI-Q supercomputer, situated on the Nationwide Institute of Superior Industrial Science and Know-how (AIST) in Japan, is designed to advance the nation’s quantum computing initiative. Powered by the Nvidia Hopper structure, the system will add a QPU from QuEra.

Poland’s Poznan Supercomputing and Networking Heart (PSNC) has not too long ago put in two photonic QPUs, constructed by ORCA Computing, linked to a brand new supercomputer partition accelerated by Nvidia Hopper.

“Helpful quantum computing might be enabled by the tight integration of quantum with GPU supercomputing,” mentioned Tim Costa, director of quantum and HPC at Nvidia, in a press release. “Nvidia’s quantum computing platform equips pioneers comparable to AIST, JSC and PSNC to push the boundaries of scientific discovery and advance the state-of-the-art in quantum-integrated supercomputing.”

The QPU built-in with ABCI-Q will allow researchers at AIST to research quantum functions in AI, vitality and biology, using Rubidium atoms managed by laser mild as qubits to carry out calculations. These are the identical kind of atoms utilized in precision atomic clocks. Every atom is an identical, offering a promising methodology of attaining a large-scale, high-fidelity quantum processor.

“Japan’s researchers will make progress towards sensible quantum computing functions with the ABCI-Q quantum-classical accelerated supercomputer,” mentioned Masahiro Horibe, deputy director of G-QuAT/AIST, in a press release. “Nvidia helps these pioneers push the boundaries of quantum computing analysis.”

PSNC’s QPUs will allow researchers to discover biology, chemistry and machine studying with two PT-1 quantum photonics techniques. The techniques use single photons, or packets of sunshine, at telecom frequencies as qubits. This permits for a distributed, scalable and modular quantum structure utilizing customary, off-the-shelf telecom parts.

“Our collaboration with ORCA and Nvidia has allowed us to create a novel setting and construct a brand new quantum-classical hybrid system at PSNC,” mentioned Krzysztof Kurowski, CTO and deputy director of PSNC, in a press release. “The open, simple integration and programming of a number of QPUs and GPUs effectively managed by user-centric companies is essential for builders and customers. This shut collaboration paves the way in which for a brand new technology of quantum-accelerated supercomputers for a lot of revolutionary software areas, not tomorrow, however at present.”

The QPU built-in with Jupiter will allow JSC researchers to develop quantum functions for chemical simulations and optimization issues in addition to reveal how classical supercomputers might be accelerated by quantum computer systems. It’s constructed with superconducting qubits, or digital resonant circuits,
that may be manufactured to behave as synthetic atoms at low temperatures.

“Quantum computing is being introduced nearer by hybrid quantum-classical accelerated supercomputing,” mentioned Kristel Michielsen, head of the quantum info processing group at JSC, in a press release. “By way of our ongoing collaboration with Nvidia, JSC’s researchers will advance the fields of quantum computing in addition to chemistry and materials science.”

CUDA-Q is an open-source and QPU-agnostic quantum-classical accelerated supercomputing platform. It’s utilized by nearly all of the businesses deploying QPUs and delivers best-in-class efficiency.

Nvidia’s Grace Hopper Superchip assaults local weather change

Nvidia Grace Hopper Superchip
Grace Hopper chip

Concerning the Nvidia Grace Hopper Superchips within the 9 supercomputing facilities, Nvidia mentioned the transfer will pace scientific analysis and discovery.

New Grace Hopper-based supercomputers coming on-line embody EXA1-HE, in France, from CEA and Eviden; Helios at Tutorial Pc Centre Cyfronet, in Poland, and Alps on the Swiss Nationwide Supercomputing Centre from Hewlett-Packard Enterprise (HPE); Jupiter on the Jülich Supercomputing Centre in Germany; DeltaAI on the Nationwide Heart for Supercomputing Functions on the College of Illinois Urbana-Champaign; and Miyabi at Japan’s Joint Heart for Superior Excessive Efficiency Computing — established between the Heart for Computational Sciences on the College of Tsukuba and the Data Know-how Heart on the College of Tokyo.

CEA, the French Various Energies and Atomic Vitality Fee, and Eviden, an Atos Group firm, in April introduced the supply of the EXA1-HE supercomputer, primarily based on Eviden’s BullSequana XH3000 know-how. The BullSequana XH3000 structure presents a brand new, patented warm-water cooling
system, whereas the EXA1-HE is supplied with 477 compute nodes primarily based on Grace Hopper.

“AI is accelerating analysis into local weather change, dashing drug discovery and resulting in breakthroughs in dozens of different fields,” mentioned Ian Buck, vp of hyperscale and HPC at Nvidia, in a press release. “Nvidia Grace Hopper-powered techniques have gotten a vital a part of HPC for his or her capability to remodel industries whereas driving higher vitality effectivity.”

As well as, Isambard-AI and Isambard 3 from the College of Bristol within the U.Okay. and techniques on the Los Alamos Nationwide Laboratory and the Texas Superior Computing Heart within the U.S. be part of a rising wave of Nvidia Arm-based supercomputers utilizing Grace CPU Superchips and the Grace Hopper platform.

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The drive to assemble new, extra environment friendly AI-based supercomputers is accelerating as nations around the globe acknowledge the strategic and cultural significance of sovereign AI — investing in domestically owned and hosted information, infrastructure and workforces to foster innovation.

Bringing collectively the Arm-based Nvidia Grace CPU and Hopper GPU architectures utilizing Nvidia NVLink-C2C interconnect know-how, GH200 serves because the engine behind scientific supercomputing facilities throughout the globe. Many facilities are planning to go from system set up to actual science in months
as a substitute of years.

Isambard-AI part one consists of a HPE Cray Supercomputing EX2500 with 168 Nvidia GH200 Superchips, making it probably the most environment friendly supercomputers ever constructed. When the remaining 5,280 Nvidia Grace Hopper Superchips arrive on the College of Bristol’s Nationwide Composites Centre this summer season, it’s going to improve efficiency by about 32 instances.

“Isambard-AI positions the U.Okay. as a worldwide chief in AI, and can assist foster open science innovation each domestically and internationally,” mentioned Simon McIntosh-Smith, professor on the College of Bristol, in a press release. “Working with Nvidia, we delivered part one of many mission in file time, and when accomplished this summer season will see a large leap in efficiency to advance information analytics, drug discovery, local weather analysis and lots of extra areas.”

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