A Python library to generate Quantum Instruction Language (Quil) Programs.
Project description
# pyQuil
A library for easily generating Quil programs to be executed using the Rigetti Forest platform.
pyQuil is licensed under the [Apache 2.0 license](https://github.com/rigetticomputing/pyQuil/blob/master/LICENSE).
[](https://semaphoreci.com/rigetti/pyquil)
[](http://pyquil.readthedocs.io/en/latest/?badge=latest)
## Documentation
Documentation is hosted at [http://pyquil.readthedocs.io/en/latest/](http://pyquil.readthedocs.io/en/latest/)
## Installation
You can install pyQuil as a conda package (recommended):
```bash
conda install -c rigetti pyquil
```
or using `pip`:
```
pip install pyquil
```
To instead install pyQuil from source, clone this repository, `cd` into it, and run:
```
pip install -e .
```
## Connecting to Rigetti Forest
pyQuil can be used to build and manipulate Quil programs without restriction. However, to run
programs (e.g., to get wavefunctions, get multishot experiment data), you will need an API key
for [Rigetti Forest](http://forest.rigetti.com). This will allow you to run your programs on the
Rigetti Quantum Virtual Machine (QVM) or on a real quantum processor (QPU).
Once you have your key, run the following command to automatically set up your config:
```
pyquil-config-setup
```
You can also create the configuration file manually if you'd like and place it at `~/.pyquil_config`.
The configuration file is in INI format and should contain all the information required to connect to Forest:
```
[Rigetti Forest]
key: <Rigetti Forest API key>
user_id: <Rigetti User ID>
```
You can change the location of this file by setting the `PYQUIL_CONFIG` environment variable.
If you encounter errors or warnings trying to connect to Forest then see the full
[Getting Started Guide](https://go.rigetti.com/getting-started)
## Examples using the Rigetti QVM
Here is how to construct a Bell state program and how to compute the amplitudes of its wavefunction:
```python
>>> from pyquil.quil import Program
>>> from pyquil.api import QVMConnection
>>> from pyquil.gates import *
>>> qvm = QVMConnection()
>>> p = Program(H(0), CNOT(0,1))
<pyquil.pyquil.Program object at 0x101ebfb50>
>>> qvm.wavefunction(p).amplitudes
array([0.7071067811865475+0j, 0j, 0j, 0.7071067811865475+0j])
```
How to do a simulated multishot experiment measuring qubits 0 and 1 of a Bell state. (Of course,
each measurement pair will be `00` or `11`.)
```python
>>> from pyquil.quil import Program
>>> from pyquil.api import QVMConnection
>>> from pyquil.gates import *
>>> qvm = QVMConnection()
>>> p = Program()
>>> p.inst(H(0),
... CNOT(0, 1),
... MEASURE(0, 0),
... MEASURE(1, 1))
<pyquil.pyquil.Program object at 0x101ebfc50>
>>> print(p)
H 0
CNOT 0 1
MEASURE 0 [0]
MEASURE 1 [1]
>>> qvm.run(p, [0, 1], 10)
[[0, 0], [1, 1], [1, 1], [0, 0], [0, 0], [1, 1], [0, 0], [0, 0], [0, 0], [0, 0]]
```
## Community
Join the public Forest Slack channel at [http://slack.rigetti.com](http://slack.rigetti.com).
The following projects have been contributed by community members:
- [Syntax Highlighting for Quil](https://github.com/JavaFXpert/quil-syntax-highlighter)
contributed by [James Weaver](https://github.com/JavaFXpert)
- [Web Based Circuit Simulator](https://github.com/rasa97/quil-sim/tree/master)
contributed by [Ravisankar A V](https://github.com/rasa97)
- [Quil in Javascript](https://github.com/mapmeld/jsquil)
contributed by [Nick Doiron](https://github.com/mapmeld)
- [Quil in Java](https://github.com/QCHackers/jquil)
contributed by [Victory Omole](https://github.com/vtomole)
## Developing PyQuil
To make changes to PyQuil itself see [DEVELOPMENT.md](DEVELOPMENT.md) for instructions on development and testing.
## How to cite pyQuil and Forest
If you use pyQuil, Grove, or other parts of the Rigetti Forest stack in your research, please cite it as follows:
BibTeX:
```
@misc{1608.03355,
title={A Practical Quantum Instruction Set Architecture},
author={Smith, Robert S and Curtis, Michael J and Zeng, William J},
journal={arXiv preprint arXiv:1608.03355},
year={2016}
}
```
Text:
```
R. Smith, M. J. Curtis and W. J. Zeng, "A Practical Quantum Instruction Set Architecture," (2016),
arXiv:1608.03355 [quant-ph], https://arxiv.org/abs/1608.03355
```
A library for easily generating Quil programs to be executed using the Rigetti Forest platform.
pyQuil is licensed under the [Apache 2.0 license](https://github.com/rigetticomputing/pyQuil/blob/master/LICENSE).
[](https://semaphoreci.com/rigetti/pyquil)
[](http://pyquil.readthedocs.io/en/latest/?badge=latest)
## Documentation
Documentation is hosted at [http://pyquil.readthedocs.io/en/latest/](http://pyquil.readthedocs.io/en/latest/)
## Installation
You can install pyQuil as a conda package (recommended):
```bash
conda install -c rigetti pyquil
```
or using `pip`:
```
pip install pyquil
```
To instead install pyQuil from source, clone this repository, `cd` into it, and run:
```
pip install -e .
```
## Connecting to Rigetti Forest
pyQuil can be used to build and manipulate Quil programs without restriction. However, to run
programs (e.g., to get wavefunctions, get multishot experiment data), you will need an API key
for [Rigetti Forest](http://forest.rigetti.com). This will allow you to run your programs on the
Rigetti Quantum Virtual Machine (QVM) or on a real quantum processor (QPU).
Once you have your key, run the following command to automatically set up your config:
```
pyquil-config-setup
```
You can also create the configuration file manually if you'd like and place it at `~/.pyquil_config`.
The configuration file is in INI format and should contain all the information required to connect to Forest:
```
[Rigetti Forest]
key: <Rigetti Forest API key>
user_id: <Rigetti User ID>
```
You can change the location of this file by setting the `PYQUIL_CONFIG` environment variable.
If you encounter errors or warnings trying to connect to Forest then see the full
[Getting Started Guide](https://go.rigetti.com/getting-started)
## Examples using the Rigetti QVM
Here is how to construct a Bell state program and how to compute the amplitudes of its wavefunction:
```python
>>> from pyquil.quil import Program
>>> from pyquil.api import QVMConnection
>>> from pyquil.gates import *
>>> qvm = QVMConnection()
>>> p = Program(H(0), CNOT(0,1))
<pyquil.pyquil.Program object at 0x101ebfb50>
>>> qvm.wavefunction(p).amplitudes
array([0.7071067811865475+0j, 0j, 0j, 0.7071067811865475+0j])
```
How to do a simulated multishot experiment measuring qubits 0 and 1 of a Bell state. (Of course,
each measurement pair will be `00` or `11`.)
```python
>>> from pyquil.quil import Program
>>> from pyquil.api import QVMConnection
>>> from pyquil.gates import *
>>> qvm = QVMConnection()
>>> p = Program()
>>> p.inst(H(0),
... CNOT(0, 1),
... MEASURE(0, 0),
... MEASURE(1, 1))
<pyquil.pyquil.Program object at 0x101ebfc50>
>>> print(p)
H 0
CNOT 0 1
MEASURE 0 [0]
MEASURE 1 [1]
>>> qvm.run(p, [0, 1], 10)
[[0, 0], [1, 1], [1, 1], [0, 0], [0, 0], [1, 1], [0, 0], [0, 0], [0, 0], [0, 0]]
```
## Community
Join the public Forest Slack channel at [http://slack.rigetti.com](http://slack.rigetti.com).
The following projects have been contributed by community members:
- [Syntax Highlighting for Quil](https://github.com/JavaFXpert/quil-syntax-highlighter)
contributed by [James Weaver](https://github.com/JavaFXpert)
- [Web Based Circuit Simulator](https://github.com/rasa97/quil-sim/tree/master)
contributed by [Ravisankar A V](https://github.com/rasa97)
- [Quil in Javascript](https://github.com/mapmeld/jsquil)
contributed by [Nick Doiron](https://github.com/mapmeld)
- [Quil in Java](https://github.com/QCHackers/jquil)
contributed by [Victory Omole](https://github.com/vtomole)
## Developing PyQuil
To make changes to PyQuil itself see [DEVELOPMENT.md](DEVELOPMENT.md) for instructions on development and testing.
## How to cite pyQuil and Forest
If you use pyQuil, Grove, or other parts of the Rigetti Forest stack in your research, please cite it as follows:
BibTeX:
```
@misc{1608.03355,
title={A Practical Quantum Instruction Set Architecture},
author={Smith, Robert S and Curtis, Michael J and Zeng, William J},
journal={arXiv preprint arXiv:1608.03355},
year={2016}
}
```
Text:
```
R. Smith, M. J. Curtis and W. J. Zeng, "A Practical Quantum Instruction Set Architecture," (2016),
arXiv:1608.03355 [quant-ph], https://arxiv.org/abs/1608.03355
```
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
pyquil-2.0.0b5.tar.gz
(115.2 kB
view hashes)
