Computational equilibrium strategies can optimize resource allocation in wave-based dispatch algorithms for circuit cutting in hybrid HPC-quantum systems.

Adversarial Debate Score

58% survival rate under critique

Supporting Research Papers

• Wave-Based Dispatch for Circuit Cutting in Hybrid HPC--Quantum Systems

  Hybrid High-performance Computing (HPC)-quantum workloads based on circuit cutting decompose large quantum circuits into independent fragments, but existing frameworks tightly couple cutting logic to ...

• Towards High Performance Quantum Computing (HPQ): Parallelisation of the Hamiltonian Auto Decomposition Optimisation Framework (HADOF)

  Practical applicability of quantum optimisation on near term devices is constrained by limited qubit counts and hardware noise, which restricts the scalability of quantum optimisation algorithms for c...

• Advanced Scheduling Strategies for Distributed Quantum Computing Jobs

  Scaling the number of qubits available across multiple quantum devices is an active area of research within distributed quantum computing (DQC). This includes quantum circuit compilation and execution...

• Efficient Classical Simulation of Heuristic Peaked Quantum Circuits

  Peaked quantum circuits, whose output distribution is sharply concentrated on a single bitstring, have emerged as a promising candidate for verifiable quantum advantage, as the correctness of the quan...

Formal Verification

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