A team of physicists from Ghent University—Interuniversity Microelectronics Center, Technical University of Denmark and Politecnico & Università di Bari, reports that it is possible to use quantum fluctuations to generate random numbers faster than standard methods. The post Using Quantum Fluctuations to Generate Random Numbers Faster appeared first on HPCwire.

Researchers Ludovico Lami (QuSoft and IoP, University of Amsterdam) and Mark M. Wilde (Cornell) have made significant progress in quantum computing by deriving a formula that predicts the effects of environmental noise. This is crucial for designing and building quantum computers capable of working in our imperfect world. The post How to Overcome Noise in […]

Currently there are many qubit types under development. One that’s received relatively little notice is the fluxonium qubit. It’s a less well-studied cousin of the transmon superconducting qubit being developed by IBM, Google, Rigetti and others. The post Will Fluxonium Qubits Join the Crowded Race for Effective Qubits? appeared first on HPCwire.

There is a need for new drugs. For example, many of the antibiotics that we have been using for a long time are becoming less effective. Chemists and pharmaceutical scientists are frantically searching for new active substances, especially those that can penetrate cell membranes, as these are the only ones that patients can take orally […]

Bert de Jong leads the Applied Computing for Scientific Discovery Group at Lawrence Berkeley National Laboratory. He also heads the Advancing Integrated Development Environments for Quantum Computing through Fundamental Research (AIDE-QC) project, a multi-institution effort in open-source computing, programming and simulation for Department of Energy’s Advanced Scientific Computing Research program, and has leadership roles in several other DOE-supported […]

An international team of researchers from Leibniz University Hannover (Germany), the University of Twente (Netherlands), and the start-up company QuiX Quantum has presented an entangled quantum light source fully integrated for the first time on a chip. The post Quantum Light Source Goes Fully On-Chip, Bringing Scalability to the Quantum Cloud appeared first on HPCwire.

Marvell Technology, Inc., a leader in data infrastructure semiconductor solutions, has demonstrated high-speed, ultra-high bandwidth silicon interconnects produced on Taiwan Semiconductor Manufacturing Company’s (TSMC) 3-nanometer (3nm) process. Marvell’s industry-first silicon building blocks in this node include 112G XSR SerDes (serializer/de-serializer), Long Reach SerDes, PCIe Gen 6 / CXL 3.0 SerDes, and a 240 Tbps parallel […]

Quantum computing holds the promise of greatly advancing computational capabilities, and programs like the QIS@Perlmutter project at Lawrence Berkeley National Laboratory (Berkeley Lab) are bringing scientists together to conduct the foundational research that will support a quantum future. Source: Keri Troutman, NERSC The post QIS Project Shows Novel Method for Privacy-Preserving Quantum ML appeared first on HPCwire.

The U.S Department of Energy’s (DOE) Argonne National Laboratory has built the Argonne Quantum Foundry as part of its mission to accelerate advances in quantum information science. The foundry is a national source of materials and data for quantum research that is unique in the Midwest. The post New Foundry to Accelerate Quantum Information Research at […]

Quantum Computing Inc. (QCI), a first-to-market full-stack photonic-based quantum computing and solutions company, today announced the expansion of its commercially available product line to include patented Quantum Random Number Generator (QRNG) technology, capable of generating non-repeatable number sequences. This series of quantum products generate truly random numbers of various probability densities and correlation properties to […]