Quantum gate simulator
Project description
.. image:: MDR_Blueqat_color.png
=======
blueqat
=======
A quantum gate simulator
Version
=======
0.3.0
Build info
=======
.. image:: https://circleci.com/gh/mdrft/Blueqat.svg?style=svg
:target: https://circleci.com/gh/mdrft/Blueqat
Install
=======
::
git clone https://github.com/mdrft/blueqat
cd blueqat
pip3 install -e .
or ::
pip3 install blueqat
Circuit
=======
::
from blueqat import Circuit
import math
#number of qubit is not specified
c = Circuit()
#if you want to specified the number of qubit
c = Circuit(3) #3qubits
Method Chain
============
::
# write as chain
Circuit().h[0].x[0].z[0]
# write in separately
c = Circuit().h[0]
c.x[0].z[0]
Slice
=======
::
Circuit().z[1:3] # Zgate on 1,2
Circuit().x[:3] # Xgate on (0, 1, 2)
Circuit().h[:] # Hgate on all qubits
Circuit().x[1, 2] # 1qubit gate with comma
Rotation Gate
===============
::
Circuit().rz(math.pi / 4)[0]
Measurement
===============
::
Circuit().m[0]
Run()
=======
::
Circuit().h[0].cx[0,1].run()
last_result() Method
=======================
::
c = Circuit().h[0].cx[0,1].m[0]
c.run() # array([0.+0.j, 0.+0.j, 0.+0.j, 1.+0.j])
c.last_result() # (1, 0)
Hamiltonian
=======================
::
from blueqat.pauli import *
hamiltonian1 = (1.23 * Z[0] + 4.56 * X[1] * Z[2]) ** 2
hamiltonian2 = (2.46 * Y[0] + 5.55 * Z[1] * X[2] * X[1]) ** 2
hamiltonian = hamiltonian1 + hamiltonian2
print(hamiltonian)
simplify the hamiltonian
::
hamiltonian = hamiltonian.simplify()
print(hamiltonian)
VQE
=======
::
from blueqat import vqe
from blueqat.pauli import qubo_bit as q
hamiltonian = -3*q(0)-3*q(1)-3*q(2)-3*q(3)-3*q(4)+2*q(0)*q(1)+2*q(0)*q(2)+2*q(0)*q(3)+2*q(0)*q(4)+2*q(1)*q(2)+2*q(1)*q(3)+2*q(1)*q(4)+2*q(2)*q(3)+2*q(2)*q(4)+2*q(3)*q(4)
step = 2
result = vqe.Vqe(vqe.QaoaAnsatz(hamiltonian, step)).run()
print(result.most_common(12))
If you want to create an ising model hamiltonian use Z(x) instead of q(x) in the equation
::
hamiltonian = Z(0)-3*Z(1)+2*Z(0)*Z(1)+2*Z(0)*Z(2)
Blueqat to Qiskit
======================
::
qiskit.register(APItoken)
sampler = blueqat.vqe.get_qiskit_sampler(backend="backend name")
result = blueqat.vqe.Vqe(QaoaAnsatz(...), sampler=sampler).run(verbose=True)
Blueqat to QASM
======================
::
Circuit.to_qasm()
#OPENQASM 2.0;
#include "qelib1.inc";
#qreg q[1];
#creg c[1];
#h q[0];
Example
=======
2-qubit Grover
--------------
::
from blueqat import Circuit
c = Circuit().h[:2].cz[0,1].h[:].x[:].cz[0,1].x[:].h[:].m[:]
c.run()
print(c.last_result()) # => (1, 1)
Maxcut QAOA
-----------
::
from blueqat import vqe, pauli
edges = [(0, 1), (1, 2), (2, 3), (3, 0), (1, 3), (0, 2), (4, 0), (4, 3)]
ansatz = vqe.QaoaAnsatz(sum([pauli.Z(i) * pauli.Z(j) for i, j in edges]), 1)
result = vqe.Vqe(ansatz).run()
print(
""" {4}
/ \\
{0}---{3}
| x |
{1}---{2}""".format(*result.most_common()[0][0]))
Tutorial
========
日本語
https://github.com/mdrft/Blueqat/tree/master/tutorial_ja
Author
======
Takumi Kato (MDR),Yuichiro Minato(MDR)
Disclaimer
==========
Copyright 2018 The Blueqat Developers.
=======
blueqat
=======
A quantum gate simulator
Version
=======
0.3.0
Build info
=======
.. image:: https://circleci.com/gh/mdrft/Blueqat.svg?style=svg
:target: https://circleci.com/gh/mdrft/Blueqat
Install
=======
::
git clone https://github.com/mdrft/blueqat
cd blueqat
pip3 install -e .
or ::
pip3 install blueqat
Circuit
=======
::
from blueqat import Circuit
import math
#number of qubit is not specified
c = Circuit()
#if you want to specified the number of qubit
c = Circuit(3) #3qubits
Method Chain
============
::
# write as chain
Circuit().h[0].x[0].z[0]
# write in separately
c = Circuit().h[0]
c.x[0].z[0]
Slice
=======
::
Circuit().z[1:3] # Zgate on 1,2
Circuit().x[:3] # Xgate on (0, 1, 2)
Circuit().h[:] # Hgate on all qubits
Circuit().x[1, 2] # 1qubit gate with comma
Rotation Gate
===============
::
Circuit().rz(math.pi / 4)[0]
Measurement
===============
::
Circuit().m[0]
Run()
=======
::
Circuit().h[0].cx[0,1].run()
last_result() Method
=======================
::
c = Circuit().h[0].cx[0,1].m[0]
c.run() # array([0.+0.j, 0.+0.j, 0.+0.j, 1.+0.j])
c.last_result() # (1, 0)
Hamiltonian
=======================
::
from blueqat.pauli import *
hamiltonian1 = (1.23 * Z[0] + 4.56 * X[1] * Z[2]) ** 2
hamiltonian2 = (2.46 * Y[0] + 5.55 * Z[1] * X[2] * X[1]) ** 2
hamiltonian = hamiltonian1 + hamiltonian2
print(hamiltonian)
simplify the hamiltonian
::
hamiltonian = hamiltonian.simplify()
print(hamiltonian)
VQE
=======
::
from blueqat import vqe
from blueqat.pauli import qubo_bit as q
hamiltonian = -3*q(0)-3*q(1)-3*q(2)-3*q(3)-3*q(4)+2*q(0)*q(1)+2*q(0)*q(2)+2*q(0)*q(3)+2*q(0)*q(4)+2*q(1)*q(2)+2*q(1)*q(3)+2*q(1)*q(4)+2*q(2)*q(3)+2*q(2)*q(4)+2*q(3)*q(4)
step = 2
result = vqe.Vqe(vqe.QaoaAnsatz(hamiltonian, step)).run()
print(result.most_common(12))
If you want to create an ising model hamiltonian use Z(x) instead of q(x) in the equation
::
hamiltonian = Z(0)-3*Z(1)+2*Z(0)*Z(1)+2*Z(0)*Z(2)
Blueqat to Qiskit
======================
::
qiskit.register(APItoken)
sampler = blueqat.vqe.get_qiskit_sampler(backend="backend name")
result = blueqat.vqe.Vqe(QaoaAnsatz(...), sampler=sampler).run(verbose=True)
Blueqat to QASM
======================
::
Circuit.to_qasm()
#OPENQASM 2.0;
#include "qelib1.inc";
#qreg q[1];
#creg c[1];
#h q[0];
Example
=======
2-qubit Grover
--------------
::
from blueqat import Circuit
c = Circuit().h[:2].cz[0,1].h[:].x[:].cz[0,1].x[:].h[:].m[:]
c.run()
print(c.last_result()) # => (1, 1)
Maxcut QAOA
-----------
::
from blueqat import vqe, pauli
edges = [(0, 1), (1, 2), (2, 3), (3, 0), (1, 3), (0, 2), (4, 0), (4, 3)]
ansatz = vqe.QaoaAnsatz(sum([pauli.Z(i) * pauli.Z(j) for i, j in edges]), 1)
result = vqe.Vqe(ansatz).run()
print(
""" {4}
/ \\
{0}---{3}
| x |
{1}---{2}""".format(*result.most_common()[0][0]))
Tutorial
========
日本語
https://github.com/mdrft/Blueqat/tree/master/tutorial_ja
Author
======
Takumi Kato (MDR),Yuichiro Minato(MDR)
Disclaimer
==========
Copyright 2018 The Blueqat Developers.
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
blueqat-0.3.0.tar.gz
(13.1 kB
view hashes)