Parallel Quantum Computing Simulations via Quantum Accelerator Platform Virtualization

Autor: Claudino, Daniel, Lyakh, Dmitry I., McCaskey, Alexander J.
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: Quantum circuit execution is the central task in quantum computation. Due to inherent quantum-mechanical constraints, quantum computing workflows often involve a considerable number of independent measurements over a large set of slightly different quantum circuits. Here we discuss a simple model for parallelizing simulation of such quantum circuit executions that is based on introducing a large array of virtual quantum processing units, mapped to classical HPC nodes, as a parallel quantum computing platform. Implemented within the XACC framework, the model can readily take advantage of its backend-agnostic features, enabling parallel quantum circuit execution over any target backend supported by XACC. We illustrate the performance of this approach by demonstrating strong scaling in two pertinent domain science problems, namely in computing the gradients for the multi-contracted variational quantum eigensolver and in data-driven quantum circuit learning, where we vary the number of qubits and the number of circuit layers. The latter (classical) simulation leverages the cuQuantum SDK library to run efficiently on GPU-accelerated HPC platforms.
Comment: 11 pages, 8 figures. Accepted to the Special Collection on Advances in Quantum Computing: Methods, Algorithms, and Systems in Future Generation Computer Systems
Databáze: arXiv