20 Qubit Superconducting Quantum Computer System

SpinQ's Superconducting Quantum Computing: Innovation for Research and Industry
These cutting-edge superconducting quantum computers are designed for both research and commercial applications. As cutting edge, advanced systems, they harness high-performance quantum processors to efficiently tackle real-world challenges.

Utilising superconducting circuits embedded with Josephson junctions, SpinQ’s quantum computers leverage macroscopic quantum effects to create qubits. This approach offers several advantages, including scalable qubit architecture, high-fidelity quantum gates, and precise qubit coupling, establishing superconducting technology as the fastest-growing and most industrialised quantum computing modality.

In addition, SpinQ’s world leading intuitive systems are designed for seamless integration into existing infrastructures, enabling businesses to unlock the full potential of quantum computing with ease.

The Components of SpinQ's Superconducting Quantum Computers

Key Components of SpinQ's Superconducting Quantum Computing System

1. Superconducting Quantum Processing Unit (QPU)
   The QPU, also known as quantum chips, serves as the computational core of superconducting quantum computers. It facilitates the execution of quantum algorithms and programs, delivering powerful processing capabilities.
2. Milli-Kelvin Cryogenic Systems (~10 mK)
   These ultra-low-temperature cooling systems create the precise operating conditions required for superconducting quantum computers, ensuring optimal qubit performance.
3. Quantum Control & Measurement System
   Responsible for managing QPUs, this system incorporates RF control electronics for precise manipulation and measurement of superconducting qubits, enabling accurate quantum operations
4. Quantum Operating System, Algorithms, and Software

• SpinQit: A versatile quantum computing programming framework and development toolkit. It features automated QPU calibration and characterization, along with Python APIs for Quantum Control & Measurement (QCM) systems.
• SPINQ QPU EDA (Electronics Design Automation): An advanced, highly automated superconducting QPU design software, leveraging parameterisation and automatic wiring algorithms for efficient quantum device generation.

Together, these components form an integrated platform that ensures high-speed operations and exceptional coherence rates, advancing the capabilities of quantum computing.

Why Choose SpinQ’s Superconducting Quantum Computing Solutions?

1. Extended Qubit Lifetime & High-Fidelity Operations
   SpinQ superconducting quantum computers support various quantum chips, including those with 20 high-fidelity qubits. Designed for advanced applications in artificial intelligence, biomedical research, and financial modelling, these systems enable cutting-edge quantum research and commercial solutions.
2. Ultra-Fast Gate Operations for Optimal Performance
   While superconducting qubits naturally have limited lifetimes, SpinQ compensates with high-speed logic gates, achieving superior CLOPS (circuit layer operations per second). With gate times measured in mere nanoseconds—less than one-thousandth of a qubit’s lifespan—our system ensures the efficient execution of complex quantum algorithms.
3. End-to-End Service & Seamless Integration
   Through SpinQ comprehensive support is tailored to user needs, including consultation, supply, installation, debugging, lifetime maintenance, and technical assistance. Our expertise spans quantum chip selection, quantum measurement and control systems, dilution refrigerators, essential accessories, and the SpinQit programming framework.
4. Exceptional Quality & Cost-Efficiency
   Through their in-house production line, SpinQ standardises and mass-produces quantum chips while advancing proprietary quantum control systems. These innovations significantly enhance both performance and affordability, earning recognition worldwide.