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OpenQASM

OpenQASM is an imperative programming language for describing quantum circuits. It is capable of describing universal quantum computing using the circuit model, measurement-based model, and near-term quantum computing experiments.

This repo contains the OpenQASM specification, examples, and tools for the OpenQASM intermediate representation.

OpenQASM is a Qiskit project.

‼️ Call for Applicants for TSC Secreatary! ‼️

We are searching for candidates for the role of TSC Secretary. The TSC will select a new Secretary during a TSC meeting in April, 2025. Candidates should familiarize themselves with the responsibilties of the role. If you are interested in presenting yourself as a candidate, please contact Jack Woehr, the current Secretary, at jack.woehr@procern.com before April, 2025.

Current version: 3.1

About this project

In this repository, you'll find all the documentation related to OpenQASM, some useful OpenQASM examples, and plugins for some text editors.

Language specs

The live language documentation specification.

Examples

An example of OpenQASM 3.0 source code is given below. Several more examples may be found in the examples folder.

/*
 * Repeat-until-success circuit for Rz(theta),
 * cos(theta-pi)=3/5, from Nielsen and Chuang, Chapter 4.
 */
OPENQASM 3;
include "stdgates.inc";

/*
 * Applies identity if out is 01, 10, or 11 and a Z-rotation by
 * theta + pi where cos(theta)=3/5 if out is 00.
 * The 00 outcome occurs with probability 5/8.
 */
def segment qubit[2] anc, qubit psi -> bit[2] {
  bit[2] b;
  reset anc;
  h anc;
  ccx anc[0], anc[1], psi;
  s psi;
  ccx anc[0], anc[1], psi;
  z psi;
  h anc;
  measure anc -> b;
  return b;
}

qubit input;
qubit[2] ancilla;
bit[2] flags = "11";
bit output;

reset input;
h input;

// braces are optional in this case
while(int(flags) != 0) {
  flags = segment ancilla, input;
}
rz(pi - arccos(3 / 5)) input;
h input;
output = measure input;  // should get zero

Citation format

For research papers, we encourage authors to reference.

  • [Version 3.0] Andrew W. Cross, Ali Javadi-Abhari, Thomas Alexander, Niel de Beaudrap, Lev S. Bishop, Steven Heidel, Colm A. Ryan, John Smolin, Jay M. Gambetta, Blake R. Johnson "OpenQASM 3: A broader and deeper quantum assembly language" [arxiv:2104.14722].
  • [Previous Version: 2.0] Andrew W. Cross, Lev S. Bishop, John A. Smolin, Jay M. Gambetta "Open Quantum Assembly Language" [arXiv:1707.03429].

Governance

The OpenQASM project has a process for accepting changes to the language and making decisions codified in its governance model.

License

This project is licensed under the Apache License 2.0 - see the LICENSE file for details.

Contributing

If you'd like to help please take a look to our contribution guidelines. This project adheres to a Code of Conduct. By participating, you are expected to uphold this code.

Release Notes

See the section on Release Notes contribution guidelines.

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Quantum assembly language for extended quantum circuits

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