English

Optimized compiler for Distributed Quantum Computing

Quantum Physics 2023-01-16 v1 Emerging Technologies
Authors: Daniele Cuomo , Marcello Caleffi , Kevin Krsulich , Filippo Tramonto , Gabriele Agliardi , Enrico Prati , Angela Sara Cacciapuoti
View on arXiv PDF DOI

Abstract

Practical distributed quantum computing requires the development of efficient compilers, able to make quantum circuits compatible with some given hardware constraints. This problem is known to be tough, even for local computing. Here, we address it on distributed architectures. As generally assumed in this scenario, telegates represent the fundamental remote (inter-processor) operations. Each telegate consists of several tasks: i) entanglement generation and distribution, ii) local operations, and iii) classical communications. Entanglement generations and distribution is an expensive resource, as it is time-consuming and fault-prone. To mitigate its impact, we model an optimization problem that combines running-time minimization with the usage of that resource. Specifically, we provide a parametric ILP formulation, where the parameter denotes a time horizon (or time availability); the objective function count the number of used resources. To minimize the time, a binary search solves the subject ILP by iterating over the parameter. Ultimately, to enhance the solution space, we extend the formulation, by introducing a predicate that manipulates the circuit given in input and parallelizes telegates' tasks.

Keywords

quantum networks quantum circuit compilation quantum computing

Cite

@article{arxiv.2112.14139,
  title  = {Optimized compiler for Distributed Quantum Computing},
  author = {Daniele Cuomo and Marcello Caleffi and Kevin Krsulich and Filippo Tramonto and Gabriele Agliardi and Enrico Prati and Angela Sara Cacciapuoti},
  journal= {arXiv preprint arXiv:2112.14139},
  year   = {2023}
}

Related papers

View all related →
Quantum Physics · Physics
Architectures and circuits for distributed quantum computing
Daniele Cuomo
2023-07-18
Quantum Physics · Physics
Distributed Quantum Computation with Minimum Circuit Execution Time over Quantum Networks
Ranjani G Sundaram, Himanshu Gupta, C. R. Ramakrishnan
2024-05-14
Quantum Physics · Physics
Compiler Design for Distributed Quantum Computing
Davide Ferrari, Angela Sara Cacciapuoti, Michele Amoretti, Marcello Caleffi
2021-06-22
Quantum Physics · Physics
Towards Distributed Quantum Computing by Qubit and Gate Graph Partitioning Techniques
Marc Grau Davis, Joaquin Chung, Dirk Englund, Rajkumar Kettimuthu
2023-10-09
Quantum Physics · Physics
Distributed Quantum Circuit Optimisation: Evaluating Global and Local encodings
Maria Gragera Garces, Majid Haghparast
2026-05-12
Quantum Physics · Physics
Optimized Compilation for Distributed Quantum Computing
Michele Bandini, Davide Ferrari, Stefano Carretta, Michele Amoretti
2026-03-02
Quantum Physics · Physics
A Modular Quantum Compilation Framework for Distributed Quantum Computing
Davide Ferrari, Stefano Carretta, Michele Amoretti
2023-10-03
Quantum Physics · Physics
Efficient Gate Reordering for Distributed Quantum Compiling in Data Centers
Riccardo Mengoni, Walter Nadalin, Mathys Rennela, Jimmy Rotureau +4
2025-12-12
Quantum Physics · Physics
Time-Aware Qubit Assignment and Circuit Optimization for Distributed Quantum Computing
Leo Sünkel, Jonas Stein, Maximilian Zorn, Thomas Gabor +1
2026-01-26
Quantum Physics · Physics
Distributed Scheduling of Quantum Circuits with Noise and Time Optimization
Debasmita Bhoumik, Ritajit Majumdar, Amit Saha, Susmita Sur-Kolay
2025-07-03
Quantum Physics · Physics
Quantum Compiler Optimizations
Jeffrey Booth
2012-06-18
Emerging Technologies · Computer Science
Distribution of Quantum Circuits Over General Quantum Networks
Ranjani G Sundaram, Himanshu Gupta, C. R. Ramakrishnan
2022-06-15
Quantum Physics · Physics
Compiler for Distributed Quantum Computing: a Reinforcement Learning Approach
Panagiotis Promponas, Akrit Mudvari, Luca Della Chiesa, Paul Polakos +2
2024-04-29
Data Structures and Algorithms · Computer Science
A Quantum Constraint Generation Framework for Binary Linear Programs
András Czégel, Boglárka G. -Tóth
2026-02-13
Quantum Physics · Physics
Fast simulation of quantum algorithms using circuit optimization
Gian Giacomo Guerreschi
2022-05-04
Quantum Physics · Physics
Quantum Algorithms and Simulation for Parallel and Distributed Quantum Computing
Rhea Parekh, Andrea Ricciardi, Ahmed Darwish, Stephen DiAdamo
2022-04-08
Quantum Physics · Physics
Entanglement-Efficient Distribution of Quantum Circuits over Large-Scale Quantum Networks
Felix Burt, Kuan-Cheng Chen, Kin K. Leung
2026-01-21
Distributed, Parallel, and Cluster Computing · Computer Science
DQC$^2$O: Distributed Quantum Computing for Collaborative Optimization in Future Networks
Napat Ngoenriang, Minrui Xu, Jiawen Kang, Dusit Niyato +3
2022-10-07
Quantum Physics · Physics
Optimizing Entanglement Distribution Protocols: Maximizing Classical Information in Quantum Networks
Ethan Sanchez Hidalgo, Diego Zafra Bono, Guillermo Encinas Lago, J. Xavier Salvat Lozano +2
2026-04-01
Systems and Control · Computer Science
Quantization Design for Distributed Optimization
Ye Pu, Melanie N. Zeilinger, Colin N. Jones
2015-04-10
Quantum Physics · Physics
CollComm: Enabling Efficient Collective Quantum Communication Based on EPR buffering
Anbang Wu, Yufei Ding, Ang Li
2022-08-31
Quantum Physics · Physics
Distributed Quantum Computing Utilizing Multiple Codes on Imperfect Hardware
Shota Nagayama
2017-04-11
Optimization and Control · Mathematics
Distributed Mixed-Integer Linear Programming via Cut Generation and Constraint Exchange
Andrea Testa, Alessandro Rucco, Giuseppe Notarstefano
2019-06-05
Quantum Physics · Physics
Optimized Quantum Circuit Partitioning Across Multiple Quantum Processors
Eneet Kaur, Hassan Shapourian, Jiapeng Zhao, Michael Kilzer +2
2025-01-28
Networking and Internet Architecture · Computer Science
Entanglement Rate Optimization in Heterogeneous Quantum Communication Networks
Mahdi Chehimi, Walid Saad
2021-06-01