Quantum computing holds the promise of solving some of our planet's biggest challenges - in the areas of environment, agriculture, health, energy, climate, materials science, and more. For some of these problems
IBM Quantum is working to bring useful quantum computing to the world and make the world quantum safe.
充分实现量子计算的潜力需要汇聚我们的集体知识。Azure Quantum 云服务汇集了高级工具和功能、技能提升机会,以及当今量子硬件提供商的各种组合。在云中使用高性能计算 (HPC) 和量子计算机进行学习、试验和创新,同时准备利用 Microsoft 的量子计算机。 探索Azure Quantum 的交互式体验 ...
Quantum computing is a new type of computing that uses the principles of quantum physics to process information in a powerful way. Unlike regular computers, quantum machines use quantum bits (qubits), superposition, and spooky action at a distance to solve complex problems faster. With integrated ...
Azure Quantum training path: an interactive, free, hands-on learning path. In these modules, you learn about quantum computing and how to develop quantum solutions using Q# and the Azure Quantum Development Kit. Quantum Katas: a collection of self-paced Q# quantum programming tutorials. ...
they become amplified and larger, or they get smaller and disappear. Now, in the end, you might have to repeat your program to have a high probability of getting the right solution. It’s when superposition, entanglement, and interference all come together at...
Quantum computers mark a potential leap forward in computing capability for certain applications. For example, quantum computing promises substantial advantages for tasks such as simulation, optimization and integer factorization. If the technology delivers on that promise, it could have a significant impac...
Rigetti: Rigetti's systems are powered by superconducting qubit-based quantum processors. They offer fast gate times, low-latency conditional logic, and fast program execution times. For more information on the specifications of each provider, see the fullQuantum computing target list. ...
Entanglement is one of the most important resources in quantum computing, cryptography and sensing. However, entanglement is also fragile, and its potential advantages are hindered by decoherence effects in experiments. Here we experimentally realize entangled logical qubits with a bosonic quantum module ...
O. Martin and N. Sridhar for their help with simulations. We thank G. Bortoli and L. Laws for keeping our team organized. This research used resources from the Oak Ridge Leadership Computing Facility, which is a DOE Office of Science User Facility (supported by contract DE-AC05-00OR22725...