Superconducting Quantum Computer

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

Integrate system, powerful
Integrated dilution refrigerator, self-developed superconducting quantum chip, Lyra measurement and control system, and measurement and control operating system.
Modular design
Modular design, higher integration and automation level, price advantage.
Adaptive operating system
Self-developed operating system adapt to underlying hardware, supports quantum computing to industrialized.
Convenient programming code
Support general code programming, facilitate the design of quantum circuits, and can run hybrid quantum-classical algorithms.

Advantages

Modular function units, satisfy for qubits extension
Superconducting Quantum Computer - SpinQ
Pulse synchronization in picosecond, more stable and reliable operation
Superconducting Quantum Computer - SpinQ
Automatic measurement and calibration process, system maintenance is easier
Superconducting Quantum Computer - SpinQ
Available programming interface, API calling more convenient
Superconducting Quantum Computer - SpinQ
Multi-parameter adjustment, custom design adjustment superconducting qubit system
Superconducting Quantum Computer - SpinQ
The composition of a superconducting quantum computer
Lyra · Quantum computing measure and control machine
Quantum computing measure and control machine (Lyra), as a part of superconducting quantum computer, Lyra has an important function for the system. It realizes the control of quantum chip. SpinQ independent researches and develops Lyra with advantages like high performance, functional integration, etc.
12 Advantages Highlights

Design for professional quantum computing

Perfect performance

Available expand qubits

Various choice for users

Integrate to optimize algorithm

Easy to operate

modular function unit

Convenient update

Open-end port for programming

Easy to calling API

High integration

Light design

Application Direction

Empower various industries with quantum computing and provide high-level technical services and solutions

Material R&D
Due to the feature of quantum algorithms, chemical computation has been planed to improve, which is an important step towards performing precise molecular calculations, promising to fundamentally break the limitations of the chemical and petroleum industries.
Drug Discovery
With the advantage of quantum computing, target identification, molecular design and optimization can be completed in the future. To accelerate medicine research and development, will not only saves a lot of time and capital cost for pharmaceutical companies, but also makes a great contribution to human health.
Catalyst R&D
Quantum computing can improve chemical research, production and optimize supply chain. It can improve catalyst design during production, thereby innovating and continuously improving the status, increasing efficiency and value.
Scientific Research Design
Quantum computing is becoming a core technology of nowadays, which will uses in industries such as energy and finance, satisfy with education and research, reverse the traditional data computing model, and even reshape the high-level computing model.
Artificial Intelligence
Deep learning is usually used in artificial intelligence, with quantum computer the realized speed can increase exponentially, and the operation and processing of large matrices can be completed by a high speed, which is applied in automatic driving, robotics, natural language processing and so on.
Financial Technology
Using quantum neural network to accelerate financial related business, or through the application of quantum clustering algorithm in the smart operation of commercial banks; More investment risk analysis, option pricing, financial derivatives pricing and other applications.
Smart Transportation
The smart traffic management system is realized with the help of quantum algorithm, which aims to predict traffic flow and optimize vehicle allocation, thus reducing the investment time and waiting time of operators.
Cyber Security
In RSA encryption system, the complexity of large number factor decomposition is used to ensure the reliability of encryption. For example, in password cracking and blockchain encryption applications, quantum computers can perform calculations hundreds of thousands of times faster than classical computers.