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
Melting magnets with utility-scale quantum simulation: Researchers explore condensed-matter physics phenomena
ResearchEdward H. Chen and Robert DavisExploring the potential for quantum advantage in mathematical optimization
ResearchStefan Woerner, Ryan Mandelbaum, and Robert DavisThe 2024 IBM Research annual letter
Deep DiveSriram Raghavan, Mukesh Khare, and Jay GambettaUsing dynamic circuits to efficiently implement quantum states with long-range entanglement
ResearchSimone Cantori, Marcel Pfaffhauser, Elisa Bäumer, Fabio Scafirimuto, and Robert DavisA year of simplifying quantum software development tools with Qiskit
Technical noteBlake Johnson, Ismael Faro, Sanket Panda, Abby Mitchell, and Robert DavisHow to test a quantum computer chip
ResearchMike Murphy- 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.
