Lockheed Martin & IBM combine quantum computing with classical HPC in new research
Research
Javier Robledo-Moreno, Gavin Jones, Roberto Lo Nardo, and Robert Davis
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
New Quantum Optimization Benchmarking Library invites researchers to put algorithms to the test
ResearchChrista Zoufal, Stefan Woerner, and Robert DavisKeio University explores utility-scale quantum reservoir computing with Mitsubishi Chemical
ResearchDaniella Garcia Almeida and Robert DavisMelting 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 DavisUsing dynamic circuits to efficiently implement quantum states with long-range entanglement
ResearchSimone Cantori, Marcel Pfaffhauser, Elisa Bäumer, Fabio Scafirimuto, and Robert Davis- See more of our work on Quantum Information Science
Publications
RF Hardware for Large-Scale Superconducting Quantum Computing
- 2025
- IMS 2025
A 5.6-100K, 128ppm/K Cryo-CMOS Current Reference
- Subhajit Ray
- David Frank
- et al.
- 2025
- VLSI Technology and Circuits 2025
How quantum computing can enhance biomarker discovery
- Frederik F. Flöther
- Daniel Blankenberg
- et al.
- 2025
- Patterns
Benchmarking the performance of quantum computing software for quantum circuit creation, manipulation and compilation
- Paul Nation
- Abdullah Ash Saki
- et al.
- 2025
- Nat. Comput. Sci.
Solving lattice gauge theories using the quantum Krylov algorithm and qubitisation
- Lewis Anderson
- Martin Kiffner
- et al.
- 2025
- Quantum
Sample-based quantum diagonalization for electronic structure on quantum-centric supercomputers
- Mario Motta
- 2025
- ACS Spring 2025