quantum2

Crates.ioquantum2
lib.rsquantum2
version0.1.3
sourcesrc
created_at2019-10-24 05:07:55.086732
updated_at2019-10-24 05:07:55.086732
descriptionAdvanced Rust quantum computer simulator, forked from "quantum".
homepagehttps://github.com/ijt/quantum2/
repositoryhttps://github.com/ijt/quantum2.git
max_upload_size
id175115
size58,438
Issac Trotts (ijt)

documentation

https://docs.rs/quantum2

README

quantum Build Status License

Advanced Rust quantum computer simulator.

Motivation

Quantum is a quantum computer simulator written with the following design goals in mind:

  1. Utility: we can simulate a 5-qubit register, enough to run interesting algorithms.

  2. Efficiency: we implement all important operations from scratch using primitives

  3. Educational Value: the documentation is a prose description of how to implement a quantum computer in Rust.

  4. Correctness: it's entirely written in safe Rust with well-defined states.

A good place to start reading the theory behind this is the Wikipedia article, and you can follow the documentation for our implementations of gates, kets, common operations, and quantum registers.

Usage

# Cargo.toml

[dependencies]
quantum2 = "0.1.3"

// main.rs

use computer::QuantumComputer;
use algorithms::deutsch;
use gates;

fn main() {
	// Let's do something simple of a 3-qubit system.
	let mut c1 = QuantumComputer::new(3);
	c1.initialize(5);
	c1.apply(gates::identity(3));
	c1.collapse();
	assert_eq!(5, c1.value());

	// Now let's perform a coin flip using the Hadamard transform.
	let mut c2 = QuantumComputer::new(1);
	c2.initialize(0);
	c2.apply(gates::hadamard(1));
	c2.collapse();
	let result = if 1 == c2.value() { "heads" } else { "tails" };
	println!("coin flip: {}", result);

	// Finally let's determine whether f: {0, 1} -> {0, 1} is constant
	// or balanced using Deutsch's algorithm.
	// (see http://physics.stackexchange.com/q/3400)
	let mut c3 = QuantumComputer::new(2);
	c3.initialize(1);
	c3.apply(gates::hadamard(2));
	c3.apply(deutsch::deutsch_gate(f));
	c3.apply(gates::hadamard(2));
	c3.collapse();
	let result = if 1 == c3.value() { "constant" } else { "balanced" };
	println!("f is: {}", result);
}

Gates

We provide the following quantum gates:

  • Identity
  • Hadamard
  • Pauli-X
  • Pauli-Y
  • Pauli-Z
  • Phase Shifts
  • Swap
  • Sqrt(Swap)
  • Controlled Not
  • General Controlled-U
  • Controlled-X
  • Controlled-Y
  • Controlled-Z
  • Toffoli
  • Fredkin
  • Quantum Fourier Transform

Contributing

  • Create or take ownership of an issue
  • Fork development branch
  • Write code and tests
  • rust test
  • Commit with a reasonable message and push
  • Submit a pull request
Commit count: 52

cargo fmt