תפריט
Superconducting Quantum
Superconducting Quantum Computer
Practical quantum computing physics platform
Superconducting quantum computer uses superconducting circuit with Josephson junction for quantum computing. The qubit is form by the macroscopic quantum phenomena of superconducting circuit. Superconducting qubit is easy to expand, it has gates with high fidelity, and multi-qubits coupling can be controlled. Superconducting quantum computing system is one of the most physical platforms which promising to realized massive quantum computing.
Benefits
Convenient programming code
Support general code programming, facilitate the design of quantum circuits, and can run hybrid quantum-classical algorithms.
Adaptive operating system
Self-developed operating system adapt to underlying hardware, supports quantum computing to industrialized.
Modular design
Modular design, higher integration and automation level, price advantage.
Integrate system, powerful
Integrated dilution refrigerator, self-developed superconducting quantum chip, Lyra measurement and control system, and measurement and control operating system.
Advantages
Modular function units, satisfy for qubits extension
Pulse synchronization in picosecond, more stable and reliable operation
Automatic measurement and calibration process, system maintenance is easier
Available programming interface, API calling more convenient
Multi-parameter adjustment, custom design adjustment superconducting qubit system
Components of Superconducting Quantum Computing
The superconducting quantum computing system developed independently by SpinQ includes components such as the quantum chip EDA, superconducting quantum chips, low-temperature systems, quantum measurement and control systems, quantum operation systems, algorithms, and software. These components are integrated to provide an all-in-one service for superconducting quantum chips.
