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High-performance Qiskit features backed by Julia. A Python front end to algorithms using Pauli and Fermionic operators implemented in Julia.

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qiskit_alt

qiskit_alt

This Python package uses a backend written in Julia to implement high performance features for standard Qiskit. This package is a proof of concept with little high-level code.

Installing and managing Julia and its packages is automated. So you don't need to learn anything about Julia to get started.

Table of contents

Installation and Configuration Notes

Basic

  • qiskit_alt is available on pypi
shell> pip install qiskit_alt
  • Complete installation by running
import qiskit_alt
qiskit_alt.project.ensure_init()

See julia_project for more options.

  • If no Julia executable is found, jill.py will be used to download and install it. It is not necessary to add the installation path or symlink path to your search PATH to use julia from qiskit_alt. Before offering to install Julia, qiskit_alt will search for julia as described here.

  • The Julia packages are installed the first time you run qiskit_alt.project.ensure_init() from Python. If this fails, see the log file qiskit_alt.log. You can open a bug report in the qiskit_alt repo

  • Check that the installation is not completely broken by running benchmark scripts, with the string "alt" in the name:

python ./bench/run_all_bench.py

Note that the folder bench is not included when you install via pip install qiskit_alt. But it can be downloaded here.

More installation details

  • qiskit_alt depends on pyjulia and/or juliacall for communication between Julia and Python.

  • pyjulia and juliacall are two packages for communication between Python and Julia. You only need to import one of them. But, you won't import them directly.

  • When you initialize with qiskit_alt.project.ensure_init() the default communication package is chosen. You can also choose explicitly with qiskit_alt.project.ensure_init(calljulia="pyjulia") or qiskit_alt.project.ensure_init(calljulia="juliacall")

  • The installation is interactive. How to do a non-interactive installation with environment variables is described below.

  • You may allow qiskit_alt to download and install Julia for you, using jill.py. Otherwise you can follow instructions for installing Julia with an installation tool.

  • We recommend using a virtual Python environment with venv or conda. For example python -m venv ./env, which creates a virtual environment for python packages needed to run qiskit_alt. You can use whatever name you like in place of the directory ./env.

  • Activate the environment using the file required for your shell. For example source ./env/bin/activate for venv and bash.

  • Install qiskit_alt with pip install qiskit_alt.

  • Install whatever other packages you want. For example pip install ipython.

  • Configuring installation with environment variables. If you set these environment variables, you will not be prompted during installation.

    • Set QISKIT_ALT_JULIA_PATH to the path to a Julia executable (in a Julia installation). This variable takes precedence over other methods of specifying the path to the executable.
    • Set QISKIT_ALT_INSTALL_JULIA to y or n to confirm or disallow installing julia via jill.py.
    • Set QISKIT_ALT_COMPILE to y or n to confirm or disallow compiling a system image after installing Julia packages
    • Set QISKIT_ALT_DEPOT to y or n to force using or not using a Julia "depot" specific to this project.
  • qiskit_alt.project.update() will delete Manifest.toml files; upgrade packages; rebuild the manifest; delete compiled system images. If you call update() while running a compiled system image, you should exit Python and start again before compiling

  • qiskit_alt.project is an instance of JuliaProject from the package julia_project. for managing Julia dependencies in Python projects. See more options at julia_project.

Compilation

  • We highly recommend compiling a system image for qiskit_alt to speed up loading and reduce delays due to just-in-time compilation. You will be prompted to install when installing or upgrading. Compilation may also be done at any time as follows.
[1]: import qiskit_alt

In [2]: qiskit_alt.project.ensure_init(use_sys_image=False)

In [3]: qiskit_alt.project.compile()

Compilation takes about four minutes. The new Julia system image will be found the next time you import qiskit_alt. Note that we disabled possibly loading a previously-compiled system image before compiling a new one. This avoids some possible stability issues.

Using qiskit_alt

This is a very brief introduction.

  • The pyjulia interface is exposed via the julia module. The juliacall module is called juliacall. However you should not do import julia or import juliacall before import qiskit_alt, and qiskit_alt.project.ensure_init() (or qiskit_alt.project.ensure_init(calljulia="pyjulia") or juliacall with qiskit_alt.project.ensure_init(calljulia="juliacall")) This is because import julia will circumvent the facilities described above for choosing the julia executable and the compiled system image.

  • Julia modules are loaded like this. Note that qiskit_alt.project.julia points to either julia or juliacall depending on which was chosen.

import qiskit_alt
qiskit_alt.project.ensure_init(calljulia=interface_choice)
Main = qiskit_alt.project.julia.Main

import qiskit_alt; import julia; from julia import PkgName. After this, all functions and symbols in PkgName are available. You can do, for example

In [1]: import qiskit_alt

In [2]: qiskit_alt.project.ensure_init()

In [3]: julia = qiskit_alt.project.julia

In [4]: julia.Main.cosd(90)
Out[4]: 0.0

In [5]: QuantumOps = qiskit_alt.project.simple_import("QuantumOps")

In [6]: pauli_sum = QuantumOps.rand_op_sum(QuantumOps.Pauli, 3, 4); pauli_sum
Out[6]:
<PyCall.jlwrap 4x3 QuantumOps.PauliSum{Vector{Vector{QuantumOps.Paulis.Pauli}}, Vector{Complex{Int64}}}:
IIZ * (1 + 0im)
XYI * (1 + 0im)
YIX * (1 + 0im)
ZIZ * (1 + 0im)>

In the last example above, PauliSum is a Julia object. The PauliSum can be converted to a Qiskit SparsePauliOp like this.

In [7]: from qiskit_alt.pauli_operators import PauliSum_to_SparsePauliOp

In [8]: PauliSum_to_SparsePauliOp(pauli_sum)
Out[8]:
SparsePauliOp(['ZII', 'IYX', 'XIY', 'ZIZ'],
              coeffs=[1.+0.j, 1.+0.j, 1.+0.j, 1.+0.j])

Introduction

The highlights thus far are in benchmark code, which is presented in the demonstration notebooks. There is one demonstration notebook using pyjulia and another demonstration notebook using juliacall.

The main application-level demonstration is computing a qubit Hamiltonian as a qiskit.quantum_info.SparsePauliOp from a Python list specifiying the molecule geometry in the same format as that used by qiskit_nature.

  • The Jordan-Wigner transform in qiskit_alt is 30 or so times faster than in qiskit-nature.
  • Computing a Fermionic Hamiltonian from pyscf integrals is several times faster, with the factor increasing with the problem size.
  • Converting an operator from the computational basis, as a numpy matrix, to the Pauli basis, as a qiskit.quantum_info.SparsePauliOp, is many times faster with the factor increasing rapidly in the number of qubits.

You might want to skip to installation instructions

Demonstration

Managing Julia packages

  • Available Julia modules are those in the standard library and those listed in Project.toml. You can add more packages (and record them in Project.toml) by doing qiskit_alt.project.julia.Pkg.add("PackageName"). You can also do the same by avoiding Python and using the julia cli.

Julia Packages

Testing

The test folder is mostly out of date.

Testing installation with docker

See the readme.

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High-performance Qiskit features backed by Julia. A Python front end to algorithms using Pauli and Fermionic operators implemented in Julia.

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