ParityQC gets funding for molecular simulation with Quantum Computing called “QuantiCoM Q2H”.

The German Aerospace Center (DLR) has contracted ParityQC to develop new methods for molecular simulation on quantum computers. The project, QuantiCoM Q2H, is part of DLR’s QuantiCoM initiative, aiming to advance materials science and engineering through quantum computing. Over three years, ParityQC will create quantum computing algorithms for atomistic simulations, starting with hydrogen and water molecules. The project could lead to more accurate simulations of chemical systems, impacting various industries, including drug discovery, energy, manufacturing, construction, automotive, electronics, and aerospace. ParityQC, a spinoff of the University of Innsbruck, is the world’s only quantum architecture company.

Quantum Computing in Molecular Simulation

ParityQC, a quantum architecture company, has been contracted by the German Aerospace Center (DLR) to develop new methods of molecular simulation using quantum computers. This project is part of DLR’s QuantiCoM initiative, which aims to advance materials science and engineering through quantum computing. The project, named QuantiCoM Q2H, will last for three years, concluding in 2026.

The goal of QuantiCoM Q2H is to explore and demonstrate how quantum computing can enhance current methods of chemical modelling in scientific and industrial contexts. This could potentially expedite development processes and lead to new breakthroughs. By the end of the project, ParityQC is expected to deliver executable quantum algorithms that will facilitate the use of quantum hardware for molecular simulations.

QuantiCoM Q2H is a sub-project of DLR’s larger QuantiCoM initiative. This initiative aims to develop advanced simulation methods in materials science and engineering using quantum computing. Quantum computing is anticipated to enable significantly faster developments in this field, leading to new breakthroughs and inventions that have not been possible due to the limitations of today’s high-performance computers.

Main Activities of QuantiCoM Q2H

The project will begin with the creation of novel quantum computing algorithms to perform atomistic simulations on current quantum computers, using two of the simplest molecules found in nature, hydrogen and water. This will include new approaches to calculate the energies of electrons in water and hydrogen molecules, as well as methods to account for the vibrations of the nuclei.

Physicists from ParityQC will then compare the calculations made with quantum computing algorithms with those made with classical high-performance computing algorithms. This comparison aims to demonstrate a possible quantum advantage. Finally, they will estimate the potential impact of the new algorithms for the modelling of larger molecules, beyond just hydrogen and water.

Molecular Modelling on Quantum Computers and its Fields of Application

With quantum computing, researchers could potentially simulate and understand the behaviour of molecules at a level of detail and accuracy that is currently unachievable with classical computers. This could have significant implications for various industrial sectors.

One obvious field of application would be chemistry and drug discovery, where it could accelerate the simulation and analysis of molecular interactions for drug development. Additionally, the energy industry could benefit from the design of more efficient materials for energy storage, conversion, and transmission. Improved modelling of materials could also aid the manufacturing, construction, automotive and electronics industries.

In the field of aerospace, where DLR operates, improved molecular modelling can lead to the production of lighter, stronger, and more durable materials for aircraft and spacecraft. This could potentially reduce costs and increase efficiency and performance.

About ParityQC

ParityQC was founded in January 2020 as a spinoff of the University of Innsbruck. In a few years, it has become a significant player in the quantum computing industry. As a quantum architecture company, ParityQC develops blueprints and an operating system for quantum computers based on the patented ParityQC Architecture. The company collaborates with hardware partners worldwide to jointly build highly scalable quantum computers and is involved in several joint projects in Europe aimed at the advancement of quantum computing. The company is based in Austria and Germany.

“ParityQC has been appointed by the German Aerospace Center (DLR) to develop new methods of molecular simulation on quantum computers. The project is part of the ambitious initiative of DLR QuantiCoM, which has the goal of advancing materials science and engineering through quantum computing.”

“Quantum computing is expected to enable drastically more rapid developments in this field, leading to new breakthroughs and inventions that have not been possible so far due to the limits of today’s high-performance computers.”

“Starting from two of the simplest molecules found in nature, hydrogen and water, ParityQC will create novel quantum computing algorithms to perform atomistic simulations on current quantum computers.”

“With quantum computing, researchers could manage to simulate and understand the behaviour of molecules at a level of detail and accuracy that is currently impossible to achieve with classical computers.”

“The appointment for the initiative comes at a time of impressive growth for ParityQC. The company was founded in January 2020 as a spinoff of the University of Innsbruck and in the span of a few years has become an important player in the quantum computing industry.”

Summary

The German Aerospace Center has commissioned the development of new quantum computing methods for molecular simulation, with the aim of advancing materials science and engineering. The project, set to conclude in 2026, will explore how quantum computing can enhance chemical modelling in scientific and industrial settings, potentially leading to faster development processes and new breakthroughs.

• The German Aerospace Center (DLR) has awarded a contract to ParityQC to develop new methods of molecular simulation on quantum computers.
• The project, named QuantiCoM Q2H, is part of DLR’s larger initiative, QuantiCoM (Quantum Computing for Materials Science and Engineering), aimed at advancing materials science and engineering through quantum computing.
• The goal of QuantiCoM Q2H is to investigate and demonstrate how quantum computing could improve current methods of chemical modelling in scientific and industrial contexts, potentially speeding up development processes and leading to new breakthroughs.
• ParityQC will create quantum computing algorithms to perform atomistic simulations on current quantum computers, starting with hydrogen and water molecules.
• The project will last three years, ending in 2026, and aims to deliver executable quantum algorithms for molecular simulations.
• Quantum computing could enable more rapid developments in materials science, leading to new inventions that have not been possible due to the limits of today’s high-performance computers.
• The methods and algorithms developed could lead to more accurate simulations of chemical systems in the future, with potential applications in various industrial sectors including chemistry, drug discovery, energy, manufacturing, construction, automotive, electronics, and aerospace.