What’s Next in Quantum is quantum-centric
supercomputing
A key factor in classical supercomputing is the intersection of communication and computation. The same holds true for quantum. Quantum-centric supercomputing utilizes a modular architecture to enable scaling. It combines quantum communication and computation to increase system capacity, and uses a hybrid cloud middleware to seamlessly integrate quantum and classical workflows. To realize this next wave in quantum we are building a new system called Quantum System Two. See our quantum development roadmap
Program real quantum systems
IBM offers cloud access to the most advanced quantum computers available. Learn, develop, and run programs with our quantum applications and systems.
Our work
Progress toward bringing quantum education to 40,000 students in Japan, Korea, and the United States
NewsKifumi Numata, Boseong Kim, Yuri Kobayashi, and Robert DavisIBM and Université de Sherbrooke announce two quantum research chairs
Q & AAlexandre ChoquetteAI and quantum computing: How IBM showed up at SXSW 2025
NewsMike MurphyGrowing the global quantum ecosystem
ExplainerDaiju Nakano, Kouichi Semba (University of Tokyo), and Jerry ChowHow real researchers are using Qiskit circuit functions to accelerate their experiments
ExplainerSuhare Nur, Sanket Panda, Francisco Martin, SheshaShayee Raghunathan, and Robert DavisThe next evolution of IBM Quantum Platform: How to prepare for the transition
NewsJulianna Roberts, Leron Gil, Kayla Lee, Fran Cabrera, Sean Dague, and Robert Davis- See more of our work on Quantum
Qiskit: Open-Source Quantum Development
Qiskit is an open-source SDK for working with quantum computers at the level of pulses, circuits, and application modules.