Industry Background
Quantum chemical simulation that can be applied to material synthesis and biopharmaceuticals is one of the areas where quantum advantages may be achieved at the application level in the near future. The computational complexity of chemical simulation in classical calculations is very high. As the number of electron orbitals increases exponentially, classical computers cannot accurately calculate it. Quantum computers can use the computational complexity of the order of polynomials to simulate macromolecules. Efficient quantum chemical simulation will play an important role in the fields of biopharmaceuticals, new materials & energy, and chemical engineering.
Application Outlook
Biology
1.Assess the binding of gene regulatory proteins to the genome.
2.Prediction of protein structure.
Medicine
1.Help discover genetic diseases.
2.Accelerate drug development and discover more efficient drugs.
Chemical Industry
1.Simulation of carbon dioxide catalysis process.
2.Simulation of methane catalytic process.
Materials/Energy
1.High-voltage direct current insulation material simulation.
2.Lithium battery material simulation.
Cooperation Cases
Origin Quantum collaborated with BIOX-Vision (an OQIA partner) and developed a series of colloidal gold test kits for the specific recognition of virus, including the coronavirus (COVID-19) antigen rapid test kit and the antigen-antibody mixed test kit.
Origin Quantum Established Quantum Computing Application Ecological Alliance in Biochemistry
Origin Quantum and Dymatic Chemicals jointly sponsored the Quantum Computing Empowering Industries Forum and the inauguration ceremony of the Quantum Computing Application Ecological Alliance in Biochemistry.
Quantum Chemistry Application ChemiQ
ChemiQ, the Origin quantum computing chemistry software, leverages the inherent advantages of
quantum simulation and runs on real quantum computers or simulators to build molecular models
and quickly visualize the electronic structure of molecules.