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Python SDK
High-level quantum circuit design, simulation, and execution with full integration into scientific computing workflows
View Docs →Quantum SDK Integration
Leverage powerful SDKs to seamlessly integrate quantum capabilities into your applications. Choose from native Python, C++, and JavaScript bindings.
Start IntegrationAvailable SDKs
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C++ SDK
Low-level access to quantum hardware with real-time circuit execution and performance optimization tools
View Docs →🔌
JavaScript SDK
Browser and Node.js integration for quantum simulation and hybrid compute applications
View Docs →Integration Quickstart
Basic Installation
Python (via pip)
pip install quantum-sdk
from quantum import QuantumInstance
qc = QuantumInstance('token')
JavaScript (NPM)
npm install @quantum/client
const qc = require('@quantum/client').init('token')
Example Circuit
from quantum import QuantumCircuit
q = QuantumCircuit(4)
q.hasm('H q[0]')
q.qasm('CNOT q[0], q[1]')
result = q.execute('provider')
print(result)
SDK Versions
4
Python SDK v4.3.1
- Quantum circuit compiler
- Hybrid classical-quantum support
- Real-time backend access
- 150+ built-in gates
2
C++ SDK v2.1.0
- Low-level hardware access
- Realtime compiler optimizations
- 128-bit quantum state sim
- Header-only integration
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JavaScript SDK v0.9.2
- WebAssembly integration
- BETA status (under development)
- Browser & Node.js compatible
- 32-qubit emulator
Need More Details?
For detailed API documentation and integration examples, including authentication, request formats and error handling:
View API Documentation