SPINQ QPU C SeriesSuperconducting Quantum Processing Unit
The new-generation QPU C Series superconducting quantum chips adopt an enhanced 2D lattice topology, greatly improving qubit connectivity and scalability. The architecture supports high-density integration of up to 103 superconducting qubits and provides native support for quantum error correction, enabling surface-code with code distance up to d = 7. This advancement establishes a robust physical foundation for conducting multi-level quantum error correction experiments and building fault-tolerant quantum computing architectures in future large-scale quantum systems.Learn More >
C103
C25
C10
Advantages
Standardized & Mass-produced
Through standardized QPU design simulation, fabrication, packaging, and testing processes, SPINQ has achieved the capability to produce commercially available high-performance QPUs.
Robust Performance & Fully Controllable Qubits
Users can achieve high-precision control over each qubit through independent control lines. When combined with SPINQ's QCM system, this setup enables high-fidelity quantum logic gate operations on SPINQ QPUs.
Flexible Options for Diverse Applications
SPINQ's QPU products are available in various configurations with different numbers of qubits, catering to diverse application scenarios and budget requirements.
Stable and Reliable, Highly Integrated, Easy to Use
SPINQ's QPUs are fully packaged for straightforward installation and use in any experimental environment, eliminating the need for additional handling. They offer high flexibility and excellent thermal contact performance, ensuring stability and reliability.
Factory Testing Report Included
Each QPU product comes with a standard factory characterization report that includes measurements such as resonant cavity frequency, qubit frequency, decoherence time, and more, ensuring the product's reliability.
Professional 1-on-1 Services
We provide a variety of professional services for our QPU products, including customization, foundry services, design services, system solution tailoring, professional installation and training, as well as technical support.
Principles of superconducting quantum chips
Superconducting qubits are constructed from superconducting quantum circuits centred on Josephson junctions. They are essentially nonlinear LC resonant circuits. Due to their distinctive macroscopic quantum effects, these qubits are often referred to as "artificial atoms". The two lowest nonlinear energy levels serve as the |0> and |1> states used in quantum computing.
SPINQ QPU
C5
C25 PRO
≥99.9% (Max.)
≥99% (Max.)
*Fully tested and documented to ensure verified performance
*Includes thermal mountings and magnetic shielding
We are dedicated to offering you professional pre-sales purchase consultation services, as well as comprehensive post-sale technical support.
Applications
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Launch your quantum advantage with SpinQ Now
Whether you are exploring quantum computing solutions, looking to integrate quantum technology into your projects, or simply curious about our quantum computers and more, our team is here to help.
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