Related papers: Multi-target quantum compilation algorithm

Multi-target quantum compilation algorithm

URL: http://arxiv.org/abs/2407.01010v1
Date: Mon, 1 Jul 2024 06:47:24 GMT
Title: Multi-target quantum compilation algorithm
Authors: Vu Tuan Hai, Nguyen Tan Viet, Jesus Urbaneja, Nguyen Vu Linh, Lan Nguyen Tran, Le Bin Ho,
Abstract summary: In quantum computing, quantum compilation involves transforming information from a target unitary into a trainable unitary represented by a quantum circuit. We develop a multi-target quantum compilation algorithm to enhance the performance and flexibility of simulating multiple quantum systems.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: In quantum computing, quantum compilation involves transforming information from a target unitary into a trainable unitary represented by a quantum circuit. Traditional quantum compilation optimizes circuits for a single target. However, many quantum systems require simultaneous optimization of multiple targets, such as simulating systems with varying parameters and preparing multi-component quantum states. To address this, we develop a multi-target quantum compilation algorithm to enhance the performance and flexibility of simulating multiple quantum systems. Through our benchmarks and case studies, we demonstrate the algorithm's effectiveness, highlighting the significance of multi-target optimization in the advancement of quantum computing. This work establishes the groundwork for further development, implementation, and evaluation of multi-target quantum compilation algorithms.

Related papers

Distributed Quantum Simulation [13.11934294941432]
We propose communication-efficient distributed quantum simulation protocols. Our protocols are shown to be optimal by deriving a lower bound on the quantum communication complexity. Our work paves the way for achieving a practical quantum advantage by scalable quantum simulation.
arXiv Detail & Related papers (2024-11-05T07:48:40Z)
Quantum Subroutine for Variance Estimation: Algorithmic Design and Applications [80.04533958880862]
Quantum computing sets the foundation for new ways of designing algorithms. New challenges arise concerning which field quantum speedup can be achieved. Looking for the design of quantum subroutines that are more efficient than their classical counterpart poses solid pillars to new powerful quantum algorithms.
arXiv Detail & Related papers (2024-02-26T09:32:07Z)
Dynamic quantum circuit compilation [11.550577505893367]
Recent advancements in quantum hardware have introduced mid-circuit measurements and resets, enabling the reuse of measured qubits. We present a systematic study of dynamic quantum circuit compilation, a process that transforms static quantum circuits into their dynamic equivalents.
arXiv Detail & Related papers (2023-10-17T06:26:30Z)
Near-Term Distributed Quantum Computation using Mean-Field Corrections and Auxiliary Qubits [77.04894470683776]
We propose near-term distributed quantum computing that involve limited information transfer and conservative entanglement production. We build upon these concepts to produce an approximate circuit-cutting technique for the fragmented pre-training of variational quantum algorithms.
arXiv Detail & Related papers (2023-09-11T18:00:00Z)
On-the-fly Tailoring towards a Rational Ansatz Design for Digital Quantum Simulations [0.0]
It is imperative to develop low depth quantum circuits that are physically realizable in quantum devices. We develop a disentangled ansatz construction protocol that can dynamically tailor an optimal ansatz. The construction of the ansatz may potentially be performed in parallel quantum architecture through energy sorting and operator commutativity prescreening.
arXiv Detail & Related papers (2023-02-07T11:22:01Z)
Decomposition of Matrix Product States into Shallow Quantum Circuits [62.5210028594015]
tensor network (TN) algorithms can be mapped to parametrized quantum circuits (PQCs) We propose a new protocol for approximating TN states using realistic quantum circuits. Our results reveal one particular protocol, involving sequential growth and optimization of the quantum circuit, to outperform all other methods.
arXiv Detail & Related papers (2022-09-01T17:08:41Z)
Quantum Neural Architecture Search with Quantum Circuits Metric and Bayesian Optimization [2.20200533591633]
We propose a new quantum gates distance that characterizes the gates' action over every quantum state. Our approach significantly outperforms the benchmark on three empirical quantum machine learning problems.
arXiv Detail & Related papers (2022-06-28T16:23:24Z)
Efficient criteria of quantumness for a large system of qubits [58.720142291102135]
We discuss the dimensionless combinations of basic parameters of large, partially quantum coherent systems. Based on analytical and numerical calculations, we suggest one such number for a system of qubits undergoing adiabatic evolution.
arXiv Detail & Related papers (2021-08-30T23:50:05Z)
Fast Swapping in a Quantum Multiplier Modelled as a Queuing Network [64.1951227380212]
We propose that quantum circuits can be modeled as queuing networks. Our method is scalable and has the potential speed and precision necessary for large scale quantum circuit compilation.
arXiv Detail & Related papers (2021-06-26T10:55:52Z)
Variational Quantum Optimization with Multi-Basis Encodings [62.72309460291971]
We introduce a new variational quantum algorithm that benefits from two innovations: multi-basis graph complexity and nonlinear activation functions. Our results in increased optimization performance, two increase in effective landscapes and a reduction in measurement progress.
arXiv Detail & Related papers (2021-06-24T20:16:02Z)
Distributed Quantum Computing with QMPI [11.71212583708166]
We introduce an extension of the Message Passing Interface (MPI) to enable high-performance implementations of distributed quantum algorithms. In addition to a prototype implementation of quantum MPI, we present a performance model for distributed quantum computing, SENDQ.
arXiv Detail & Related papers (2021-05-03T18:30:43Z)

This list is automatically generated from the titles and abstracts of the papers in this site.