Quantum Computing Simulator
A python library to simulate quantum programs and circuits.
Table of Contents
Getting Started
Prerequisites
This library is self contained, and optionally uses matplotlib for plotting graphs.
Installing
This library can be installed from pypi using pip:
$ pip install quantumcomputingsim
To make sure everything installed properly, import the main and only module in python:
from quantum import *
Usage
Go through example.ipynb for a comprehensive guide on using this library
Sample workflow:
entangler = qprogram(
nqbits = 2,
name = "Entangler"
)
entangler.addgates(0, [HGATE, CNOT0])
entangler.compile()
Compiler result:
Compiling Entangler...
Entangler
q0(0) ⮕ -----[ h ]--⌈ c0 c0 ⌉-------
q1(0) ⮕ ------------⌊ c0 c0 ⌋-------
Compilation of Entangler complete!
and to run the program:
entangler.run(graph = True)
and view bloch spheres for qubits:
plotbloch(HGATE * [0, 1])