Ready to Buy a Commercial Quantum Computer? Start Here!
2025.01.07 · Blog
Are you looking to buy a commercial quantum computer?
While quantum computers are often seen as confined to research labs, SpinQ is changing the game.
As a global leader in quantum computing, SpinQ has pioneered the development of fully commercial quantum computers, driving the fastest growth and highest level of industrialization in the industry.
SpinQ’s commercial quantum computers transform theoretical concepts into practical solutions, unlocking limitless possibilities for solving real-world challenges in finance, AI, biomedicine, and beyond.
Read on to discover how SpinQ’s cutting-edge commercial quantum computers can benefit your business!
SpinQ: A Leading Company Building Commercial Quantum Computers
SpinQ is a top innovator in commercial quantum computing, dedicated to creating state-of-the-art commercial superconducting quantum computers. The company focuses on translating quantum technology into tangible value, offering practical solutions that empower businesses to solve complex challenges efficiently and precisely.
As a trailblazer in exploring quantum computing's commercial potential, SpinQ delivers a full range of quantum computing solutions. From industrial and business-focused quantum computers to educational quantum computers and quantum chips, along with advanced quantum software and quantum cloud services, SpinQ provides a seamless one-stop quantum computing solution for enterprises worldwide.
Commercial Quantum Computer Leader: SpinQ's Superconducting Quantum Computer
SpinQ sets a new benchmark in commercial superconducting quantum computers, offering stability, scalability, and precision with long qubit lifetimes and high-fidelity gates, tailored to meet your research and business needs.
This isn't just a prototype, but a fully operational quantum machine, available for purchase, bringing real quantum computing power to the market.
Technology Behind SpinQ's Commercial Superconducting Quantum Computer
It leverages circuits with Josephson junctions, where macroscopic quantum effects create qubits. This method offers scalable qubit numbers, high gate fidelity, and controllable multi-qubit coupling, making it the fastest-growing and most industrialized quantum computing technology.
Technical Specifications of SpinQ's Commercial Superconducting Quantum Computer
- Number of qubits: 20
- Single-qubit gate fidelity: 99.9%
- Two-qubit gate fidelity: 99%
- Average decoherence time T1: 30 μs
- Floor space: 25m²
- Overall weight: 1500 kg
- Equipment height: 3.0m
- Average power consumption: 20 kW
Advantages of SpinQ's Commercial Superconducting Quantum Computer
1. Long Qubit Lifetime & High-fidelity Gates
SpinQ's superconducting quantum computers support various chips, including those with 20 high-fidelity qubits, making them ideal for complex tasks in quantum chemistry, materials science, and quantum finance, and enabling advanced research and commercial applications.
2. High-speed Gate Operation
While superconducting qubits have shorter lifetimes, our system compensates with ultra-fast logic gates, achieving higher CLOPS (circuit layer operations per second). Gate times enable advanced quantum algorithms in the tens of nanoseconds—less than one-thousandth of the qubit lifetime.
3. Comprehensive, Integrated Service
We prioritize user needs with full-service support, including consultation, installation, and lifelong maintenance. Our approach covers the selection and installation of quantum chips, quantum measurement and control systems, dilution refrigerators, accessories, and the SpinQit programming framework.
4. Superior Quality, Outstanding Value
By utilizing our in-house production line and chip foundry to standardize and mass-produce quantum chips, along with our internally developed control systems, we have significantly enhanced the quality and cost-effectiveness of our quantum computers, earning recognition both in China and globally.
Real-World Applications of SpinQ's Commercial Quantum Computer
SpinQ's Commercial Superconducting Quantum Computer is designed to solve real-world challenges, empowering enterprises, laboratories, and academic institutions to create practical applications leveraging the power of quantum computing.
Many customers have purchased SpinQ's Superconducting Quantum Computer and partnered with SpinQ to tackle a wide range of issues, including logistics, supply chain management, traffic congestion, portfolio optimization, fault detection, drug discovery, materials science, manufacturing, and more.
The potential applications in finance, artificial intelligence, biomedicine, and quantum machine learning are vast.
1. Revolutionizing Finance Solutions: SpinQ's Commercial Quantum Computer
Case Study:
Based on SpinQ's real superconducting quantum computer, Huaxia Bank partnered with SpinQ to develop a quantum neural network model. This model serves as a foundation for decisions on whether to remove ATM machines and supports intelligent decision-making in commercial banking, as well as the digital transformation of operations and management.
2. Advancing Biomedicine and Healthcare: SpinQ's Commercial Quantum Computer
Case Study:
BGI Research Collaborated with SpinQ to Tackle the Genome Assembly Challenge Using VQE Algorithms
BGI Research and SpinQ have embarked on an in-depth collaboration to explore the application of quantum computing in life sciences. By leveraging quantum algorithms for genome assembly, this partnership not only addresses the complex challenges of genome assembly but also enables the efficient use of quantum resources to simulate larger quantum systems.
3. Empowering AI and Quantum Machine Learning Innovations: SpinQ's Commercial Quantum Computer
Training machine learning models require a large number of computations, with gradient descent being one of the most commonly used methods for optimizing model parameters.
In classical computing, calculating gradients involves repeatedly evaluating functions that contain parameters. As the number of variables in the model grows, these calculations demand increasingly significant computational resources, leading to a bottleneck in training large classical machine learning models.
Researchers at SpinQ have introduced a new quantum-based gradient computation method that takes advantage of the parallelism inherent in quantum computing.
This method enables the computation of numerical gradients for multivariate functions in a single operation, providing an efficient solution to the parameter optimization challenge.
FAQs
1. What is the price of commercial quantum computers?
The price of commercial quantum computers varies widely depending on the type, capabilities, and the company manufacturing them.
Generally, prices for commercial quantum computers can range from several hundred thousand dollars to millions of dollars.
For a detailed breakdown of commercial quantum computer pricing, check out our in-depth guide on how much it costs to buy a quantum computer.
2. When will quantum computers be commercially available?
Quantum computers are already commercially available, but they are still in the early stages of widespread use. Companies like SpinQ, IBM, and Google offer commercial quantum computers that are being used for research, education, and specific industrial applications.
The technology is progressing rapidly, it is generally expected that we may see more robust commercial applications in the next 5 to 10 years.
Full commercialization depends on overcoming challenges like qubit coherence, error correction, and system scalability. While progress is fast, quantum computing is still maturing, and broader, more practical use cases are on the horizon.
Conclusion
SpinQ has been dedicated to bringing quantum computers into the realm of commercialization. Our goal is to drive the industrialization and popularization of quantum computers by making these systems scalable, stable, cost-effective, and robust enough to operate outside of scientific laboratories.
We are committed to accelerating quantum research and development, continuously innovating and optimizing to meet the evolving needs of the quantum computing industry.