Nanotechnology Now – Press Release: PASQAL announces quantum computing collaboration with NVIDIA

Home > Press > PASQAL announces quantum computing collaboration with NVIDIA

Abstract:
PASQAL today announced a collaboration with NVIDIA to build a Quantum Computing Center of Excellence, featuring a cluster of 10 NVIDIA DGX A100 systems with NVIDIA InfiniBand networking to enhance its portfolio of solutions.

PASQAL announces quantum computing collaboration with NVIDIA

Paris, France | Posted on December 10th, 2021

PASQAL, a member of the NVIDIA Inception program which nurtures cutting-edge startups, will offer powerful quantum computing tools, supercharged by NVIDIA accelerated computing, to its customers across the entire value chain. In addition to broadening the spectrum of applications available, this cluster provides added technical capabilities for PASQAL’s emulation system, which is based on its open-source library, Pulser. Pulser will be available via the cloud in early 2022.

Additionally, PASQAL will use the NVIDIA cuQuantum software development kit to further optimize the company’s development operations. NVIDIA cuQuantum consists of libraries and tools designed to accelerate quantum computing workflows. PASQAL’s developers will use cuQuantum to accelerate quantum circuit simulations based on state vector and tensor network methods by orders of magnitude.

“We are truly excited about this collaboration with NVIDIA. Our Quantum Computing Center of Excellence will enrich our emulation capabilities, and is also part of our commitment to offer end users the best possible tools across the entire value chain,” said Loïc Henriet, CTO of Pasqal.

“Quantum computing is helping researchers simulate complex phenomena for scientific discovery and address problems including optimization, drug discovery and machine learning,“ said Christophe Legrand, head of France Enterprise Computing at NVIDIA. “PASQAL’s Quantum Computing Center of Excellence, featuring NVIDIA DGX systems, will enable the simulation of tens of atomic qubits in 2D and 3D arrays to develop tools that will foster the development of industrial applications and can help advance scientific discovery.”

About PASQAL

PASQAL builds quantum computers from ordered neutral atoms in 2D and 3D arrays with the aim of bringing a practical quantum advantage to its customers on real-world problems, especially in quantum simulation and optimization. PASQAL was founded in 2019 by Georges-Olivier Reymond, Christophe Jurczak, Professor Dr. Alain Aspect, Dr. Antoine Browaeys and Dr. Thierry Lahaye. PASQAL is based in Palaiseau and Massy, on the Plateau de Saclay, south of Paris, France. PASQAL completed a Series A financing round in April 2021 (€25 million), co-led by Quantonation and the Defense Innovation Fund managed by Bpifrance on behalf of the Defense Innovation Agency (AID).

####

For more information, please click here

Contacts:
Mike Kilroy
HKA Marketing Communications

Office: 949-235-0259

Copyright © HKA Marketing Communications

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:

News and information

Collaborative project of quantum computer developers: New ATIQ project with funding from the German Federal Ministry of Education and Research has a total volume of EUR 44.5 million December 10th, 2021

New version of organic electronics for rational management of energy: Researchers of the UMA study the possibility of altering carbon to create chips with a higher capacity than those used nowadays made of electronic silicon December 10th, 2021

Resolving the puzzles of graphene superconductivity: Physicists publish a theoretical framework to explain the recent discovery of superconductivity in trilayer graphene December 10th, 2021

Development of a high-energy-resolution, LaB6 nanowire-based field emission gun: Electron source enables atomic resolution TEM observation December 10th, 2021

Possible Futures

New version of organic electronics for rational management of energy: Researchers of the UMA study the possibility of altering carbon to create chips with a higher capacity than those used nowadays made of electronic silicon December 10th, 2021

Resolving the puzzles of graphene superconductivity: Physicists publish a theoretical framework to explain the recent discovery of superconductivity in trilayer graphene December 10th, 2021

Development of a high-energy-resolution, LaB6 nanowire-based field emission gun: Electron source enables atomic resolution TEM observation December 10th, 2021

DeepMind simulates matter on the nanoscale with AI December 10th, 2021

Quantum Computing

Collaborative project of quantum computer developers: New ATIQ project with funding from the German Federal Ministry of Education and Research has a total volume of EUR 44.5 million December 10th, 2021

Optimized method to detect high-dimensional entanglement December 3rd, 2021

How ultracold, superdense atoms become invisible: A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is suppressed November 19th, 2021

Quantifying spin for future spintronics: Spin-momentum locking induced anisotropic magnetoresistance in monolayer WTe2 November 5th, 2021

Discoveries

New version of organic electronics for rational management of energy: Researchers of the UMA study the possibility of altering carbon to create chips with a higher capacity than those used nowadays made of electronic silicon December 10th, 2021

Resolving the puzzles of graphene superconductivity: Physicists publish a theoretical framework to explain the recent discovery of superconductivity in trilayer graphene December 10th, 2021

Development of a high-energy-resolution, LaB6 nanowire-based field emission gun: Electron source enables atomic resolution TEM observation December 10th, 2021

DeepMind simulates matter on the nanoscale with AI December 10th, 2021

Announcements

Development of a high-energy-resolution, LaB6 nanowire-based field emission gun: Electron source enables atomic resolution TEM observation December 10th, 2021

DeepMind simulates matter on the nanoscale with AI December 10th, 2021

Innovative silicon nanochip can reprogram biological tissue in living body December 10th, 2021

A new mechanism for generation of vesicles that transport molecules and vaccine nanoparticles into living cells December 10th, 2021

Alliances/Trade associations/Partnerships/Distributorships

Collaborative project of quantum computer developers: New ATIQ project with funding from the German Federal Ministry of Education and Research has a total volume of EUR 44.5 million December 10th, 2021

Fujitsu and Osaka University deepen collaborative research and development for fault-tolerant quantum computers October 1st, 2021

National 2D materials research center wins NSF funding: Boise State joins Penn State, Rice for Phase II expansion of ATOMIC center August 20th, 2021

The National Space Society Joins the Progressive Policy Institute in Supporting Rapid Development of Space Solar Power: Orbiting Solar Power Stations Would Help to Save the Environment August 20th, 2021

Research partnerships

Collaborative project of quantum computer developers: New ATIQ project with funding from the German Federal Ministry of Education and Research has a total volume of EUR 44.5 million December 10th, 2021

Innovative silicon nanochip can reprogram biological tissue in living body December 10th, 2021

Scientists develop promising vaccine method against recurrent UTI November 19th, 2021

Quantum brain sensors could be crucial in spotting dementia after University of Sussex scientists find they can track brain waves: Sensors introduce important new method to spot bio-marker for brain diseases • Accurate timings of when brain signals fire demonstrated for first tim November 19th, 2021