HQS Quantum Simulations releases backend extending its library to support AQT’s trapped-ion quantum computers

The new code extends the open source quantum computing library qoqo and allows developers to run their quantum algorithms on AQT’s simulators. This is the first step on the way to granting access to the AQT quantum computers in the near future.

HQS Quantum Simulations and AQT, 03.08.2021. The steady development of quantum technologies is bringing their promise closer and closer to the market, as companies around the world aim to deliver their quantum enhanced solutions to the general public. In a bid to allow developers everywhere to participate and use quantum computers, HQS Quantum Simulations has announced the release of a library connecting its open source quantum computing library, qoqo, to AQT’s quantum simulators, with an intended complete support of their trapped-ion quantum computers in the future.

As the physical limits of conventional computing are starting to appear in many R&D labs around the world, quantum computing is considered to be the natural way forward for resource-intensive tasks that are currently pursued using high performance computing (HPC) clusters: physical, chemical, and manufacturing simulations are all expected to move on to quantum computing in the coming decades.

Yet, the path ahead is rife with obstacles, as experimental realizations of quantum bits, or qubits, the fundamental components of quantum computers, are notoriously difficult to achieve. The useful quantum properties of qubits are fragile and very easily lost when they are exposed even to the tiniest disturbances in their surroundings, leading to the phenomenon known by physicists as decoherence. Currently, various hardware approaches are pursued to realize inherently resilient qubits. Quantum computers based on trapped ion technology are promising in various respects: compared with other architectures, trapped ion quantum computers have a strong advantage when it comes to qubit connectivity, and gate fidelity. Ion traps have been central in the pioneering of several milestones in quantum information processing and they have become the platform on which the most complex quantum algorithms have been performed; the team at AQT has made several contributions to these outstanding achievements.

HQS Quantum Simulations has been developing qoqo, a quantum circuit representation library which empowers developers to build quantum circuits and run them on different backends. The latest addition comes with the connection of AQT’s technology to qoqo. Users are now able, without any modification to their existing circuits, to run them on AQT’s quantum simulators, both with and without noise. This marks a helpful technical accomplishment as a sound stepping stone for future implementation of AQT’s quantum hardware as a qoqo backend.

“Our partnership with AQT is valuable to us,” said HQS CEO Michael Marthaler. “Connecting qoqo to their hardware stack was always in our sights. Ion traps open huge opportunities when it comes to realizing practical quantum computing.”

About AQT

AQT is a quantum computer startup located in Innsbruck, building on decades of experimental and theoretical expertise in the field of quantum information processing. The goal of AQT is to get quantum technologies out of a laboratory environment and turn them into everyday products. The long-term goal is a quantum computer based on trapped ions that is installed in normal IT infrastructure and can be readily operated from any PC or laptop.

AQT Contact

Dr. Thomas Monz, Co-Founder / CEO

Email: thomas.monz@aqt.eu

Telephone: +43 512 507-52452

About HQS Quantum Simulations

Founded in 2017 by physicists with a background in theoretical quantum computing and decoherence, HQS Quantum Simulations develops software simulating quantum systems for conventional and quantum computers, with the mission to provide companies and researchers with the ability to effortlessly switch their simulation workflow to quantum computers once they are available.

For more information, contact press@quantumsimulations.de

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