Simulating molecules, chemical reactions and material properties is extremely difficult but the precise modeling enables for example the design of new drugs and new materials. Today’s supercomputers can perform very simple simulations and quantum computers are not better yet.
Quantum simulators based on the laws of quantum physics already performe simulations beyond what is classically possible today. The acceleration of this process occurs at hardware and software level. Promising hardware platforms base on ultra-cold atoms in optical lattices, trapped ions, arrays of superconducting qubits or of quantum dots and photons. Software platforms, based on the simulated quantum cirquits, quantum and quantum-inspired algorithms as well as quantum machine learning methods provide a framework for extremely fast and high precision simulations on both classical and quantum computers.
No matter if near or long term, quantum simulation will open up the possibility of innovating several application domains.
▪ Product design (Molecule, Fluid and Aero-dynamics, Chemical reactions)
▪ Scenario (Risk, Pricing, Market)
▪ Optimization (Routing, Supply Chain, Portfolio)
▪ AI (Prediction, Classification)
▪ Medical and Healthcare
▪ Chemistry & Energy
▪ Health care and Life Science
▪ Manufacturing & Logistics
▪ Transport & Aerospace
▪ Physics & Cosmology
▪ Banking & Insurance
|QBN〉Meetings on Quantum Simulation
The QBN Meetings on Quantum Simulation deal with hard- and software quantum simulators as well as the applications of quantum simulators and universal quantum computers.
Upcoming QBN Meetings on Quantum Simulation
- 10.03.2021 | 1st QBN Meeting on Quantum Simulation @ online