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UnifiedQuantum - A unified, non-commercial quantum computing aggregation framework.

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UnifiedQuantum

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UnifiedQuantum — 非商业性量子计算聚合框架。

UnifiedQuantum 是一个轻量级 Python 框架,为量子线路构建、模拟和云端执行提供统一接口,聚合 OriginQ、Quafu、IBM Quantum 等多平台后端于一套一致的 API 下。

除了核心的线路构建和执行能力,UnifiedQuantum 还提供完整的本地芯片校准与量子错误缓解(QEM)工具链

  • XEB 交叉熵基准测试uniqc calibrate xeb 测量每层门保真度,支持单比特、双比特和并行 2q 模式
  • 读出误差校准 + M3 缓解:混淆矩阵标定与线性求逆修正
  • 本地含噪模拟:通过 dummy:<platform>:<backend> 复用真实芯片的拓扑和校准数据,先 compile/transpile,再在本地重现硬件噪声特性
  • DSatur 并行调度:自动将 2q 门分配到最小并行轮次

所有校准结果写入 ~/.uniqc/calibration_cache/,QEM 模块读取并强制 TTL 新鲜度策略。


核心工作流

UnifiedQuantum 围绕一个简洁的工作流设计:任意方式构建线路 → uniqc CLI 统一执行

1. 安装

# 推荐:通过 uv 安装 CLI 工具(全局可用,无需虚拟环境)
uv tool install unified-quantum

# 或从 PyPI 安装 Python 包(提供 Python API)
uv pip install unified-quantum

2. 构建线路(支持原生 API 或任意第三方工具)

from uniqc import Circuit

c = Circuit()
c.h(0)
c.cnot(0, 1)
c.measure(0)
c.measure(1)

# 输出 OriginIR 格式,可供 CLI 使用
open('circuit.ir', 'w').write(c.originir)

你也可以使用 Qiskit、Cirq 等工具构建线路,只需最终输出 OriginIR 或 OpenQASM 2.0 格式。

3. CLI 统一执行

# 本地模拟
uniqc simulate circuit.ir --shots 1000

# 提交到云端
uniqc submit circuit.ir --backend originq:WK_C180 --shots 1000

# dummy backend 编号规则
uniqc submit circuit.ir --backend dummy:local:simulator --shots 1000
uniqc submit circuit.ir --backend dummy:local:virtual-line-3 --shots 1000
uniqc submit circuit.ir --backend dummy:originq:WK_C180 --shots 1000

# 查询任务结果
uniqc result <task_id>

dummy 表示无约束、无噪声本地虚拟机;dummy:local:virtual-line-N / dummy:local:virtual-grid-RxC 表示带虚拟拓扑约束的无噪声本地 backend;dummy:<platform>:<backend> 表示先按真实 backend compile/transpile,再用真实芯片标定数据在本地含噪执行。


设计理念

UnifiedQuantum 是一个非商业性的开源项目,致力于打造 AI 时代原生的量子计算应用框架:

  • AI 原生:专为 AI 工作流设计,无缝集成到现代开发与推理流程中
  • CLI-first:开箱即用的命令行工具,一条命令完成线路构建、模拟、提交与结果分析
  • 聚合:整合多种量子云平台(OriginQ、Quafu、IBM Quantum),提供统一接口
  • 统一:一致的 API 设计,屏蔽各平台差异
  • 透明:清晰的量子程序组装与执行方式,无隐藏行为
  • 轻量:纯 Python 实现,安装简单,集成方便

配套 Skill:在 IAI-USTC-Quantum/quantum-computing.skill 中获取 Claude Code 集成指南与 AI 辅助量子编程工作流。

UnifiedQuantum 统一接入概念图


Features

  • 多平台提交:一个 submit_task(或 uniqc submit)即可将同一份线路发往 OriginQ、Quafu、IBM Quantum,或本地 dummy 模拟器。支持自动检测输入格式:Circuit 对象、OriginIR 字符串、QASM 字符串、qiskit.QuantumCircuit
  • 格式互转Circuit.from_qasm() / Circuit.from_originir() 导入,circuit.to_qasm() / circuit.to_originir() 导出。
  • 本地模拟:自带 OriginIR Simulator、QASM Simulator,支持 statevector / density matrix 两种后端,以及带噪声的变体。
  • 算法组件:内置 HEA、UCCSD、QAOA 等常用 ansatz,可直接用于 VQE / QAOA 研究。
  • PyTorch 集成:提供 QuantumLayer、参数偏移梯度、批处理执行,便于构建混合量子—经典模型。
  • 可互操作:线路既可用原生 API 构建,也可来自 Qiskit、Cirq 等第三方工具,只要最终产出 OriginIR 或 OpenQASM 2.0。
  • 异步提交submit_task 立即返回 task_idpoll_result() 非阻塞查询状态,get_result()wait_for_result() 阻塞等待完成。
  • 易扩展:门集、错误模型、平台适配器都按接口组织,添加新后端只需实现一个 adapter。

Installation

Supported Platforms

  • Windows / Linux / macOS

Requirements

  • Python 3.10 – 3.14

从 PyPI 安装(推荐)

# 安装 CLI 工具(全局可用,无需虚拟环境)
uv tool install unified-quantum

# 安装 Python 包(提供 Python API,可与 uv tool 安装共存)
uv pip install unified-quantum

中国大陆用户推荐配置清华源,可大幅提升下载速度:

# 临时使用(仅本次)
uv pip install unified-quantum --index-url https://pypi.tuna.tsinghua.edu.cn/simple/
# 永久生效
uv pip install --python-preference managed --index-url https://pypi.tuna.tsinghua.edu.cn/simple/

从源码构建

如果你需要开发新版、安装开发版本或启用 C++ 模拟器:

git clone --recurse-submodules https://github.com/IAI-USTC-Quantum/UnifiedQuantum.git
cd UnifiedQuantum

# Maintainer / 全量开发环境:安装 dev、docs 和全部可选后端依赖,并按当前包索引升级解析
uv sync --all-extras --group dev --group docs --upgrade

# 运行完整测试套件
uv run pytest uniqc/test

# 包含真实云平台量子线路执行测试
uv run pytest uniqc/test --real-cloud-test

维护者环境不应把 qiskit、QuTiP、Sphinx 等当前维护的可选或文档模块缺失视为正常跳过条件。pyproject.toml 不钉住第三方依赖版本,主分支也不提交 uv.lock;全量开发和 CI 应按当前包索引解析最新可用依赖,及时暴露上游兼容性问题。Quafu/pyquafu 是例外:该平台 SDK 已 deprecated,且 pyquafu 依赖 numpy<2,因此不再包含在 [all] 中。

真实云平台测试中,读取后端、验证 token、查询平台 status/API 的测试默认执行;只有会实际提交量子线路的测试默认跳过,需要显式传 --real-cloud-test

Requirements:

  • CMake >= 3.26
  • C++ compiler with C++17 support
  • Git submodules (fmt)
  • pybind11 from the Python build environment, declared in pyproject.toml

如果系统 CMake 版本过低(< 3.26),先升级:

pip install cmake --upgrade

pip 备选方案

pip 不支持 uv tool install 的 CLI 全局安装方式(无需虚拟环境即可全局调用 uniqc 命令)。如无特殊需求,推荐使用上面的 uv 安装方式。

# 从 PyPI 安装
pip install unified-quantum

# 从源码安装
pip install .
pip install -e .

可选依赖

核心依赖(包括 scipy)在默认安装中已包含。以下为可选功能依赖:

功能 安装命令(uv) pip 备选
OriginQ 云平台 uv pip install unified-quantum[originq] pip install unified-quantum[originq]
QuarkStudio / Quark 云平台 (Python ≥ 3.12) uv pip install unified-quantum[quark] pip install unified-quantum[quark]
高级模拟 (QuTiP) uv pip install unified-quantum[simulation] pip install unified-quantum[simulation]
可视化 uv pip install unified-quantum[visualization] pip install unified-quantum[visualization]
PyTorch 集成 uv pip install unified-quantum[pytorch] pip install unified-quantum[pytorch]
安装所有可选依赖 uv pip install unified-quantum[all] pip install unified-quantum[all]

Quafu 已归档 / Archived[quafu] extra 已移除。Quafu 平台 SDK 已 deprecated;如仍需使用,请直接 pip install pyquafu 并自行承担 numpy<2 的环境降级风险,UnifiedQuantum 后续不保证 Quafu 相关代码一致性和完整性。

Qiskit 已是核心依赖(随 unified-quantum 默认安装),无需单独的 [qiskit] extra。

TorchQuantum 后端当前不包含在 PyPI extras 中,需要手动安装:

uv pip install unified-quantum[pytorch]
uv pip install "torchquantum @ git+https://github.com/Agony5757/torchquantum.git@fix/optional-qiskit-deps"

不安装 TorchQuantum 不会影响核心功能、QuTiP 模拟、云平台适配器或常规 uniqc.torch_adapter 功能;只有 TorchQuantum 专用后端与示例会在实际使用时提示缺少该依赖。


CLI Quick Reference

# 查看帮助
uniqc --help

# 安装 AI 技能(AI Agent)
npx skills add IAI-USTC-Quantum/quantum-computing.skill --agent codex --skill '*'
npx skills add IAI-USTC-Quantum/quantum-computing.skill --agent claude-code --skill '*'

# 本地模拟
uniqc simulate circuit.ir --shots 1000

# 提交到云端(支持 originq / quafu / ibm / dummy)
uniqc submit circuit.ir --backend originq:WK_C180 --shots 1000

# 查询任务结果
uniqc result <task_id>

# 配置云平台 Token
uniqc config init
uniqc config set originq.token YOUR_TOKEN

# 校准与 QEM 数据准备
uniqc calibrate readout --backend dummy --qubits 0 1 --shots 1000
uniqc calibrate xeb --backend dummy --type 1q --qubits 0 1 --depths 5 10

后端信息查询

# 列出所有可用后端(默认隐藏 unavailable/deprecated)
uniqc backend list

# 显示所有后端(包括 unavailable/deprecated)
uniqc backend list --all

# 显示带保真度信息的表格
uniqc backend list --info

# 查看单个后端详情(含保真度、相干时间、拓扑)
uniqc backend show originq:WK_C180

# 强制刷新后端缓存(update 始终全量拉取最新数据)
uniqc backend update

Examples

📁 examples/ — Runnable demonstrations

Getting Started

Example Description
Circuit Remapping Build a circuit and remap qubits for real hardware
Dummy Server Submit tasks to the local dummy simulator
Result Post-Processing Convert and analyze results

Algorithms

Example Description
Grover Search Unstructured search with quadratic speedup
Quantum Phase Estimation Eigenvalue phase estimation

Documentation

📖 GitHub Pages

Release Notes


关于我们

UnifiedQuantumIAI-USTC-Quantum 团队开发和维护。

欢迎提交 Issues、Pull Request,或通过邮件联系我们。如果您对量子计算研究感兴趣,欢迎加入我们。


Status

🚧 Actively developing. API may change.

v0.0.15 起:所有在 0.0.x 中通过 DeprecationWarning 标记的公共 API 将在 0.1.0 中移除。升级前请运行 pytest -W error::DeprecationWarning 清理所有弃用警告。详见 弃用政策

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