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QPI QPU Driver
Python QPU driver for the QPI quantum computing platform. Runs on isolated hardware nodes controlling the QPU via multiple executor backends.
Install
Base package (mock executor)
pip install qpi-driver
With CLI support
pip install "qpi-driver[cli]"
With Qiskit Aer simulator
pip install "qpi-driver[aer]"
With Quantify/Qblox hardware support
pip install "qpi-driver[quantify]"
Requires Python ≥ 3.12, < 3.13.
Quick Start
CLI
# Connect a mock QPU to the server
qpi-driver start \
--qpi-addr http://localhost:8090 \
--token <qpu-access-token> \
--ca-fingerprint <fingerprint> \
--name qpu_sim_01 \
--executor mock \
--data-dir ./data
Environment variables are also supported:
export QPI_ADDR=http://localhost:8090
export QPI_ACCESS_TOKEN=<token>
export QPI_CA_FINGERPRINT=<fingerprint>
export QPU_NAME=qpu_sim_01
export DRIVER_BACKEND=mock
qpi-driver start
systemd Service (Linux)
To run qpi-driver persistently on a Linux machine in the background, you can use systemd.
We have provided a standalone interactive bash installer that automates the entire process (installing uv, installing the qpi-driver tool, prompting for your tokens/addresses, and registering the systemd service):
# Run the interactive systemd installer script directly via curl
sudo bash -c "$(curl -LsSf https://raw.githubusercontent.com/sopherapps/qpi/main/qpi-driver/install-systemd.sh)"
Alternatively, you can run the installer non-interactively by specifying all environment variables:
curl -LsSf https://raw.githubusercontent.com/sopherapps/qpi/main/qpi-driver/install-systemd.sh | sudo \
QPI_TOKEN="<your-qpi-access-token>" \
QPI_ADDR="http://127.0.0.1:8090" \
CA_FINGERPRINT="<fingerprint>" \
QPU_NAME="rigetti-aspen-1" \
EXECUTOR="qblox" \
bash
Manual systemd Installation
If you prefer to configure it manually, follow these steps:
-
Install
uv(a fast Python package installer):curl -LsSf https://astral.sh/uv/install.sh | sh source $HOME/.local/bin/env -
Install
qpi-driveras a tool: Make sure to specify the correct extras (e.g.[cli,qblox],[cli,aer]):uv tool install "qpi-driver[cli,qblox]" -
Create the systemd unit file: Replace the placeholder
<values>with your actual configuration.sudo bash -c 'cat > /etc/systemd/system/rigetti-aspen-1.qpi-driver.service <<EOF [Unit] Description=QPI Driver Service (rigetti-aspen-1) After=network.target [Service] Type=simple Environment="QPI_ACCESS_TOKEN=<your-qpi-access-token>" Environment="QPI_DATA_DIR=/var/qpi-driver/rigetti-aspen-1" Environment="QPI_CA_FILE=/var/qpi-driver/rigetti-aspen-1/qpi.ca.pem" Environment="QPI_QUANTIFY_DEVICE_CONFIG=/var/qpi-driver/rigetti-aspen-1/quantify.device.yml" Environment="QPI_QUANTIFY_HARDWARE_CONFIG=/var/qpi-driver/rigetti-aspen-1/quantify.hardware.json" Environment=PYTHONUNBUFFERED=1 ExecStart=/home/<user>/.local/bin/qpi-driver start \ --ca-fingerprint <your-fingerprint> \ --qpi-addr <your-qpi-server-address> \ --name "rigetti-aspen-1" \ --executor "qblox" Restart=on-failure User=<user> StandardOutput=journal StandardError=journal SyslogIdentifier=rigetti-aspen-1.qpi-driver [Install] WantedBy=multi-user.target EOF' -
Start and enable the service:
sudo systemctl daemon-reload sudo systemctl enable rigetti-aspen-1.qpi-driver.service sudo systemctl start rigetti-aspen-1.qpi-driver.service sudo systemctl status rigetti-aspen-1.qpi-driver.service
Python API
from qpi_driver import run_driver
run_driver(
qpi_addr="http://localhost:8090",
token="<qpu-access-token>",
ca_fingerprint="<fingerprint>",
name="qpu_sim_01",
executor="mock",
data_dir="./data",
)
Custom executor
from qpi_driver import Executor, run_driver
from qpi_driver.executors.mock import MockExecutor
class MyCustomExecutor(Executor):
def execute(self, payload):
# Your QPU-specific execution logic
...
run_driver(
qpi_addr="http://localhost:8090",
token="<token>",
ca_fingerprint="<fingerprint>",
name="my_qpu",
executor="custom",
custom_executor=MyCustomExecutor(),
)
Executor Backends
| Backend | Description | Extra |
|---|---|---|
mock |
Qiskit BasicSimulator (default) | — |
qiskit_aer |
Qiskit Aer simulator | [aer] |
quantify |
Quantify-scheduler + Qblox instruments | [quantify] |
qblox |
Qblox scheduler (legacy) | [qblox] |
Architecture
The driver uses Python's multiprocessing library to isolate responsibilities:
- Main Process: NNG PULL listener, receives commands from server
- Worker Process: Executes quantum circuits via the configured executor
- Result Sender Process: NNG PUSH, sends results back to server
┌─────────────┐ NNG PUSH ┌─────────────────┐
│ Server│ ────────────────> │ Main Process │
│ Dispatcher │ │ (PULL listener)│
└─────────────┘ └────────┬────────┘
│
multiprocessing.Queue
│
▼
┌───────────────┐
│ Worker Process│
│ (Executor) │
└───────┬───────┘
│
multiprocessing.Queue
│
▼
┌───────────────┐
│Result Sender │
│ (PUSH) │
└───────┬───────┘
│ NNG PUSH
▼
┌───────────────┐
│ Server │
│ Listener │
└───────────────┘
CLI Reference
qpi-driver start [OPTIONS]
Options:
-a, --qpi-addr TEXT QPI server URL [env: QPI_ADDR]
-t, --token TEXT QPU access token [env: QPI_ACCESS_TOKEN]
-n, --name TEXT QPU name [env: QPU_NAME]
-e, --executor TEXT Backend: mock, qiskit_aer, quantify, qblox, presto [env: DRIVER_BACKEND]
-d, --data-dir PATH Data directory [env: QPI_DATA_DIR]
--is-dummy Run in dummy/simulation mode
--quantify-hardware-config PATH Quantify hardware config [env: QPI_QUANTIFY_HARDWARE_CONFIG]
--quantify-device-config PATH Quantify device config [env: QPI_QUANTIFY_DEVICE_CONFIG]
--job-timeout INTEGER Job timeout in seconds [env: QPI_JOB_TIMEOUT]
--ca-file PATH Path to the CA root certificate [env: QPI_CA_FILE]
--ca-fingerprint TEXT Fingerprint to verify the CA root certificate [env: QPI_CA_FINGERPRINT]
--help Show this message and exit.
Documentation
License
MIT — see the main repository for details.