Because evolution is unitary.
Research with Unitary Fund
Unitary Fund believes that research is important for quantum open source. We focus not only on our own research interests, but also building tools to enable others, like those in our microgrant program. Check out some of the many research projects we've been involved in or supported below!Unitary Labs research with Mitiq, QuTiP and long-term projects
The Unitary Fund research GitHub repo has source code for a selection of our research projects.- Zero noise extrapolation on logical qubits by scaling the error correction code distance, notebooks
- Exact and approximate simulation of large quantum circuits on a single GPU, source code
- Testing platform-independent quantum error mitigation on noisy quantum computers, source code
- Automated quantum error mitigation based on probabilistic error reduction, source code
- Error mitigation increases the effective quantum volume of quantum computers, source code
- Mitiq: A software package for error mitigation on noisy quantum computers, source code
- Digital zero noise extrapolation for quantum error mitigation
- Extending quantum probabilistic error cancellation by noise scaling
- Pulse-level noisy quantum circuits with QuTiP
- Pulser: An open-source package for the design of pulse sequences in programmable neutral-atom arrays
- VAQEM: A Variational Approach to Quantum Error Mitigation
- Reducing the impact of time-correlated noise on zero-noise extrapolation
Other Unitary Fund staff research
- Arkhipov's theorem, graph minors, and linear system nonlocal games
- Symmetries and conserved quantities of boundary time crystals in generalized spin models
- Exceptional Point and Cross-Relaxation Effect in a Hybrid Quantum System
- Estimating the gradient and higher-order derivatives on quantum hardware
- Diagnosing quantum chaos with out-of-time-ordered-correlator quasiprobability in the kicked-top model
Microgrant-supported research
- Lattice Surgery Compiler (LSC): A High Performance Compiler for Very Large Scale Surface Code Computations
- A Programming Language For Quantum Oracle Construction
- qLEET: Visualizing Loss Landscapes, Expressibility, Entangling Power and Training Trajectories for Parameterized Quantum Circuits
- Quantum Games and Interactive Tools for Quantum Technologies Outreach and Education: A Review and Experiences from the Field
- An Extension of Combinatorial Contextuality for Cognitive Protocols
- Virtual Lab by Quantum Flytrap: Interactive simulation of quantum mechanics
- toqito -- Theory of quantum information toolkit: A Python package for studying quantum information
- Optimizing Quantum Variational Circuits with Deep Reinforcement Learning
- Loschmidt echo approach to Krylov-subspace approximation error estimation
- K-GRAPE: A Krylov Subspace approach for the efficient control of quantum many-body dynamics
- Optimal Layout Synthesis for Quantum Computing
- Optimality Study of Existing Quantum Computing Layout Synthesis Tools
- QuNetSim: A Software Framework for Quantum Networks
- Evaluating probabilistic programming languages for simulating quantum correlations
- Robust data encodings for quantum classifiers
- PyZX: Large Scale Automated Diagrammatic Reasoning
- Reducing T-count with the ZX-calculus
- Scaling of variational quantum circuit depth for condensed matter systems