Quantum State Passing Interfaces for Distributed Quantum Computing

Abreu, Bruno; Núñez-Corrales, Santiago

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https://hdl.handle.net/2142/121170 Copy

Description

Title

Quantum State Passing Interfaces for Distributed Quantum Computing

Author(s)

• Abreu, Bruno
• Núñez-Corrales, Santiago

Issue Date

2023-07

Keyword(s)

• quantum computing
• distributed computing

Abstract

Quantum computing technologies are rapidly evolving into a highly heterogeneous ecosystem of quantum devices and their interconnection networks. Concurrently, searching for real-world applications that display quantum advantage demands capabilities beyond any current single technology. In this position paper, we highlight the importance and the timeliness of a unified, community-wide effort to conceptualize and implement abstract, standardized frameworks for distribution of quantum computing across hybrid networks as a fundamental step towards practical and advantageous quantum computing, maximizing return on investment in the NISQ-era and beyond. These frameworks will ultimately encapsulate many details of such heterogeneous systems, keeping them transparent to quantum application developers while exposing them to quantum architecture and network researchers.

Publisher

U.S. Department of Energy, Office of Advanced Scientific Computing Research

Series/Report Name or Number

2023 Basic Research Needs in Quantum Computing and Networking Workshop

Type of Resource

text

Language

en

Sponsor(s)/Grant Number(s)

NSF Award #2016136

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