Quantum Information Science
Quantum computing represents a paradigm shift in the types of problems we can solve. Getting it right requires deep understanding of the underlying theory. We’re exploring the fundamentals of quantum science, from entanglement and superposition to the development of novel quantum algorithms.
Our work
Simulating the universe’s most extreme environments with utility-scale quantum computation
ResearchRoland C. Farrell, Marc Illa, Anthony N. Ciavarella, Martin J. Savage, and Robert DavisQuantum working groups push for near-term use cases
ExplainerComputing with error-corrected quantum computers
ResearchGuanyu Zhu, Andrew Cross, Ben Brown, and Ryan MandelbaumLogical gates with magic state distillation
ResearchUpdating how we measure quantum quality and speed
ExplainerAndrew Wack and David McKayBuild utility-scale quantum applications with the updated Open Plan and IBM Quantum Credits
ReleaseMarco Facchini and Steffen Thoß- See more of our work on Quantum Information Science
Publications
- Ibrahim Shehzad
- Edwin Pednault
- et al.
- 2024
- QCE 2024
- Tanvi Gujarati
- Nam Nguyen
- et al.
- 2024
- ACS Fall 2024
- Ieva Liepuoniute
- Mario Motta
- et al.
- 2024
- ACS Fall 2024
- 2024
- QSim 2024
- Filippo Utro
- Aritra Bose
- et al.
- 2024
- ISMB 2024
- Alireza Seif
- Haoran Liao
- et al.
- 2024
- ISCA 2024