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The U.S. National Quantum Initiative Act (NQIA) is now four years old and the second World Quantum Day 4.14.23 is on Friday. Yes, it was chosen because the date 4.14 is a rounding of Plancks constant which is so foundational in quantum mechanics. While WQD activities are only loosely coordinated and lean heavily towards educational outreach, there are a few reports being issued to commemorate the day and demonstrate value.

WQD describes itself as, an initiative from quantum scientists from 65+ countries. It is a decentralized and bottom-up initiative, inviting all scientists, engineers, educators, communicators, entrepreneurs, technologists, historians, philosophers, artists, museologists, producers, etc., and their organisations, to develop their own activities, such as outreach talks, exhibitions, lab tours, panel discussions, interviews, artistic creations, etc., to celebrate the World Quantum Day around the World.

Its tough to get a bead on WQD activities because they are so diverse and self-directing. That said, at least one of the five National Quantum Information Sciences (NQIS) Centers created by the NQIA the Quantum System Accelerator (QSA) based at Lawrence Berkeley National Laboratories posted an article recapping its progress to date, following closely on the heels of a formal QSA Impact Report issued in March.

Both the article and report provide glimpse into the scope of activities being undertaken by the NQIS centers. QSA is highlighting five of its efforts. Here are three:

Other NQIS centers have periodically released similar kinds of reports and the WQD activities perhaps present a good moment to check out what the centers are up to. Listed below are brief descriptions of the NQIS centers, excerpted from DoE web site:

Q-NEXT Next Generation Quantum Science and Engineering

Director:David AwschalomLead Institution:Argonne National Laboratory

Q-NEXT will create a focused, connected ecosystem to deliver quantum interconnects, to establish national foundries, and to demonstrate communication links, networks of sensors, and simulation testbeds. In addition to enabling scientific innovation, Q-NEXT will build a quantum-smart workforce, create quantum standards by building a National Quantum Devices Database, and provide pathways to the practical commercialization of quantum technology by embedding industry in all aspects of its operations and incentivizing start-ups.

C2QA Co-design Center for Quantum Advantage

Director:Andrew HouckLead Institution:Brookhaven National Laboratory

C2QA aims to overcome the limitations of todays noisy intermediate scale quantum (NISQ) computer systems to achieve quantum advantage for scientific computations in high-energy, nuclear, chemical and condensed matter physics. The integrated five-year goal of C2QA is to deliver a factor of 10 improvement in each of software optimization, underlying materials and device properties, and quantum error correction, and to ensure these improvements combine to provide a factor of 1,000 improvement in appropriate computation metrics.

SQMS Superconducting Quantum Materials and Systems Center

Director:Anna GrassellinoLead Institution:Fermi National Accelerator Laboratory

The primary mission of SQMS is to achieve transformational advances in the major crosscutting challenge of understanding and eliminating the decoherence mechanisms in superconducting 2D and 3D devices, with the goal of enabling construction and deployment of superior quantum systems for computing and sensing. In addition to the scientific advances, SQMS will target tangible deliverables in the form of unique foundry capabilities and quantum testbeds for materials, physics, algorithms, and simulations that could broadly serve the national QIS ecosystem.

QSA Quantum Systems Accelerator

Director: Rick MullerLead Institution: Sandia National Laboratories

QSA aims to co-design the algorithms, quantum devices, and engineering solutions needed to deliver certified quantum advantage in scientific applications. QSAs multi-disciplinary team will pair advanced quantum prototypesbased on neutral atoms, trapped ions, and superconducting circuitswith algorithms specifically constructed for imperfect hardware to demonstrate optimal applications for each platform in scientific computing, materials science, and fundamental physics. The QSA will deliver a series of prototypes to broadly explore the quantum technology trade-space, laying the basic science foundation to accelerate the maturation of commercial technologies.

QSC The Quantum Science Center

Director:Travis HumbleLead Institution:Oak Ridge National Laboratory

QSC is dedicated to overcoming key roadblocks in quantum state resilience, controllability, and ultimately scalability of quantum technologies. This goal will be achieved through integration of the discovery, design, and demonstration of revolutionary topological quantum materials, algorithms, and sensors, catalyzing development of disruptive technologies. In addition to the scientific goals, integral to the activities of the QSC are development of the next generation of QIS workforce by creating a rich environment for professional development and close coordination with industry to transition new QIS applications to the private sector.

See the article here:

World Quantum Day A Chance to Look in on NQIS Centers - HPCwire