Trailblazing as the first commercially available NMR Quantum Computing company worldwide, SpinQ is paving the way for state-of-the-art commercial, educational, and R&D applications from hardware to software.
Established in 2018, SpinQ is a company that provides one-stop solutions in Quantum Computing (QC). SpinQ views its missions as promoting the commercialization and popularization of Quantum Computing by means of technology R&D and commercial landings. SpinQ has extensive business coverage from superconducting Quantum Computers, desktop NMR quantum Computers, and a general Quantum Computing cloud platform, to software for the areas of scientific research, education, drug research and development, financial technology, artificial intelligence, and many other frontier technologies. SpinQ is working closely with its partners in finding solutions to specific scenarios to make Quantum Computing available and usable in real life.
SpinQ is founded by a team with both international vision and commercial engineering experience. The team members are experts in quantum computing from distinguished universities and institutions internationally and domestically including Harvard University, MIT, Tsinghua University, University of Science and Technology of China, and Hongkong University of Science and Technology etc., making their significant contributions to developing quantum computer hardware, software and algorithms.
SpinQ has developed and produced a series of commercial desktop NMR quantum computers including Gemini, Triangulum and Gemini Mini, which are the best sellers in China and abroad. Apart from its NMR quantum computers, SpinQ has developed its own quantum programming framework SpinQit, cloud platform Tauras, the prototype of practical superconducting quantum computer, superconducting quantum chips and RF measurement and control system.
Advancing towards the road of compact, universal desktop quantum computers.
Through the breakthrough innovations in desktop quantum computers, to take the lead in the industry to achieve commercial implementation. With an integrated approach across the entire technological R&D chain, we are advancing toward the industrial-grade industry application market.
Established in 2018, SpinQ was founded by a team of global visionaries and commercial engineering experts. With proficiency in Quantum Computing, SpinQ’s team boasts graduates from Harvard University, MIT, Tsinghua University, University of Science and Technology of China, and Hongkong University of Science and Technology.
SpinQ’s team developed a large-scale NMR Quantum Computing Cloud Platform and released the first underlying physical hardware controllable cloud service.
In April 2019, SpinQ completed the development of its first 2-qubit desktop NMR QC prototype, achieving its first milestone in practical QC applications.
In January 2020, SpinQ released the world’s first desktop NMR QC (2-qubits) called “Gemini.”
In October 2020, SpinQ released “Taurus,” a next-gen general QC cloud platform.
In September 2021, SpinQ released “Triangulum,” its 3-qubit desktop NMR quantum computer.
In December 2021, SpinQ obtained 1st place prize in the “2020 The People’s Bank of China FinTech Development Awards” for its collaboration project with Huaxia Bank, paving the way for effective Quantum Computing applications in complex financial scenarios.
In January 2022, SpinQ released “Gemini Mini” the world’s first portable NMR quantum computer.
In March 2022, SpinQ obtained the national High-Tech Enterprise Certification.
In September 2022, SpinQ obtained a €12.8 million Pre-Series B financing, accelerating the pace of industrialization of Quantum Computing.
In October 2022, Dr. Jingen Xiang, SpinQ’s Founder & CEO, was appointed as the Director of the Quantum Information Special Committee of the Shenzhen City Computer Federation in China.
In April 2023, SpinQ held a strategic press conference, presenting its upgraded quantum computer business verticals; educational, industrial, and cloud platform/applications.
Furthermore, SpinQ was honored with the title “Specialized and Innovative Small and Medium-sized Enterprise” by the Shenzhen Municipal Government.
SpinQ partnered with Vernewell Group in Abu Dhabi, UAE, and established an alliance with Abu Dhabi University.
In addition, SpinQ partners with Autel Robotics in South Korea for the commercialization of SpinQ’s NMR QC product line.
In May 2024, with the goal of further expanding its reach to the European Union, particularly Eastern Europe, SpinQ signs a commercial partnership agreement with The Solomon Brokerage Firm.
This revolutionary partnership facilitates collaborative efforts in Estonia 🇪🇪 to make practical Quantum Computing applications available for educational, industrial, and commercial scenarios.
Bringing different experiences to beginners and enthusiasts of quantum computing.
A Nuclear Magnetic Resonance (NMR) quantum computer is a type of quantum computer that utilizes the quantum properties of atomic nuclei, typically in molecules, to perform quantum computations. In NMR quantum computing, the spin states of nuclei are manipulated using radiofrequency pulses to encode and process quantum information. These spins act as qubits, the fundamental units of quantum information, allowing for parallel processing and potential exponential speedup in certain calculations. NMR quantum computers are primarily used in small-scale experiments for educational purposes, offering insights into quantum information processing and quantum algorithms.
Quantum Computing Experimental Platform
SPINQ Gemini Lab is a full-stack quantum computing experimental platform. It is based on the principles of NMR (nuclear magnetic resonance) quantum computing, equipped with advanced radio frequency technology and miniaturized quantum systems. Capable of conducting real quantum computing experiments in a classroom environment, it is well-suited for use as experimental teaching equipment and a research platform for undergraduate and graduate students in higher education institutions.
3-Qubit Desktop NMR Quantum Computer
SPINQ Triangulum is a 3-qubit desktop NMR quantum computer.
It supports pulse sequence engineering at the hardware level. Users can customize quantum circuits on the equipment, and external port programming is allowed. SPINQ Triangulum is a low-cost, no maintenance, and stable equipment, which is good for quantum computing education and some simple scientific research.
3-Qubit Portable NMRQuantum Computer
SPINQ Triangulum Mini is a 3-qubit portable NMR quantum computer launched by SpinQ. The instrument use a new designed pulse, which provides a more stable experimental process. The 3-qubit can perform more kinds of quantum computing experiments, meeting the demands of more advanced quantum computing designs.
2-Qubit Desktop NMR Quantum Computer
The product is 2-qubit quantum computer. Base on the theory of nuclear magnetic resonance, it uses the spin phenomenon of nuclear as the qubit carrier, to read and operate qubits states by RF pulse. SPINQ Gemini is good for quantum computing education and some simple scientific research.
2-Qubit Portable NMR Quantum Computer
SPINQ Gemini Mini is a portable NMR quantum computer developed by SpinQ. SPINQ Gemini Mini is a device with touch screen, it provides a whole solution for quantum computing education and demonstration, which is beneficial for users with different knowledge to quickly master basic knowledge and operation of quantum computing.
2-Qubit Portable NMR Quantum Computer
SPINQ Gemini Mini Pro is a new portable NMR quantum computer that has been fully upgraded in all aspects. SPINQ Gemini Mini Pro has upgraded its parameters, optimized its performance, and added more practical functions. It further improves the stability and accuracy of the product, and has diversified directions and capabilities for use.
Superconducting Quantum Chips
QPU is a type of quantum chip based on superconducting materials. It uses superconducting qubits as the basic unit for quantum computation and has advantages such as long coherence time, fast operation speed, and high fidelity. Superconducting qubits are constructed from superconducting quantum circuits, which with superconducting Josephson junctions as the core. Due to the unique macroscopic quantum effects, superconducting qubits also known as “artificial atom”. By using precisely designed pulse sequences, high-fidelity quantum logic gate operations can be achieved, and quantum algorithms can be completed.
Enables large-scale expansion of the number of qubits.
Superconducting quantum chip has high gate fidelity that enough to support quantum error correction algorithms and realize universal quantum computing.
Capable of executing qubit gates on the order of tens of nanoseconds, enabling faster quantum computing.
Able to achieve mass production to meet the application market and commercialization promotion of quantum computing.
2-Qubit Quantum Chip
10-Qubit Quantum Chip
20-Qubit Quantum Chip
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.
Integrated dilution refrigerator, self-developed superconducting quantum chip, Lyra measurement and control system, and measurement and control operating system.
Modular design, higher integration and automation level, price advantage.
Self-developed operating system adapt to underlying hardware, supports quantum computing to industrialized.
Support general code programming, facilitate the design of quantum circuits, and can run hybrid quantum-classical algorithms.
64-Qubit 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.
Superconducting Qubit Measurement and Control System
Superconducting quantum measurement and control system (Vega), specialized on superconducting qubit experiments, is a quantum computing control system that uses radio frequency pulses to manipulate and measure the quantum state of qubits. As an important part of the superconducting quantum computer, Vega plays an indispensable role of controlling the operation on quantum chips. Vega, independently designed and developed by SpinQ, has several advantages like high performance and functional integration.
Arbitrary Waveform Generator: AWG1208
Quantum Analyzer: QA1124
Trigger Distribution Unit: TDU101R
Clock Distribution Unit: CDU101R
RF Mixer Unit: MIX18Q8
Quantum computing cloud platform
Taurus is a cloud platform developed by SpinQ that links various real quantum computing systems. Taurus has quantum computers with up to 8, 5, 3, and 2-qubit, as well as a high-performance simulation platform with up to 24 qubits. Taurus not only meets the research needs of scientific researchers but also provides sufficient machine time for enthusiasts in the field of quantum computing.
Up to 8 qubits real quantum computing, adapt to various computing system.
Efficient full-amplitude simulator service, can customize the number of qubits, and cooperate with the SpinQit programming framework.
Support any operation of one and two qubits, realize customized gate.
In the background of practical problems, provide intuitive, visualized and operable quantum computing application cases.
Customized design and code with Open QASM.
Built-in more then ten typical quantum computing algorithm, like Grover algorithm, Deutsch algorithm, etc.
Graphical intuitive display experiments running and results, whole process data are observable.
Equipped with multiple quantum computing systems, it can meet the needs of scientific research, education and hobbyists at the same time.
Equips several quantum computer system, supports 8, 5, 3, 2-qubit quantum computing, which can not only greatly for the research needs of scientific researchers, but also provide sufficient time for interested fans in the field of quantum computing.
Users can use Open QASM 2.0 to code content online, enabling advanced and complex experimental designs. Code content can also be bookmarked in a list, making it easy to use multiple times.
Custom configuration of the number of qubits; used with the SpinQit programming framework, it has a rich SDK, which is easier to use and more convenient; flexible deployment methods, adapting to different work scenarios and modes, and performing tasks more flexibly and efficiently.
Experiment task management is finely divided, displaying various state tasks and contents, helping users to control experiment records freely and understand the details of each experiment.
Graphical display of experimental operation and results, intuitive understanding of experimental data, to help users deepen research and learning.
Superconducting Quantum Chip EDA
QEDA is a highly automated superconducting quantum chip EDA design software developed by SpinQ. This product generates quantum devices through parameterization and excellent automatic wiring algorithms, QEDA enabling fast and efficient chip design and iteration. It not only helps industry professionals improve the efficiency of chip design but also enables enthusiasts of superconducting quantum computing to quickly get started and participate in chip design.
Adaptable for multi-platform and cross-terminal use, enabling on-demand access anywhere and anytime, convenient and secure.
Built-in with a variety of components, meeting the application needs of complex designs, resource-rich and open.
Supports automated and high-performance wiring rules, helping users to complete large-scale and complex chip design.
Starting from user preferences, creating a smooth user experience, efficient operation mode, simple and easy to use.
Based on web application development, adaptable for multi-platform and cross-terminal use, enabling on-demand access and cloud storage of file data.
Supports building components through parameter configuration and mouse/keyboard operations, as well as various editing tools to improve design efficiency and experience.
Presets common and diverse superconducting component structures, updates and adds incrementally to meet complex chip design needs.
Based on powerful wiring algorithms and designs, strong robustness, supports operations on components after wiring.
Quantum Computing software kit
Independently developed by the software team of SpinQ, it supports quantum programming based on Python, provides users with rich quantum algorithm interfaces, and supports cross-platform operation, realizes terminal connection with quantum computer, quantum simulator, quantum computing cloud platform, and provides new, flexible and efficient software tools for developers or scientific research enthusiasts.
SpinQit is base on Python front-end language, which is easy to learn and integrate with software of classical computer.
Users can write codes to achieve self-defined quantum gates or functions, with good scalability.
Quantum programs can be submitted to quantum computers, quantum simulators, and quantum cloud multi-platform running experiments.
Support not only basic fault-tolerant quantum algorithms but also NISQ-era variational quantum algorithms and quantum machine learning, etc.
Based on the intermediate expression of the directed graph, it decouples the front and back ends, which makes the architecture modular and easy to expand.
Compatible with Open QASM2.0 and QisKit language, which helps compare and transplant programs easily and efficiently.
Supports both Python and Open QASM2.0 programming port, and also supports some language in Open QASM 3.0.
Not only supports submitting tasks to quantum simulator and quantum cloud platform, but also supports submitting tasks to local quantum computer, realizing various service functions.
Implement various fundamental quantum algorithms and provide full support for NISQ-era algorithms, including Hamiltonian processing, classical/quantum optimizers, classical-quantum hybrid learning, etc.
Tool resources are open to the online community, providing a platform for communication and sharing for the vast number of enthusiasts, and comprehensively facilitating the development and application of quantum computing.
Quantum Computing software
Running with quantum computer, SpinQuasar is used to control several quantum computers like “Gemini”, “Triangulum” for quantum computing demonstration and customize quantum computing. It provides multiple real and simulate quantum experiments, and supports end-user visit by internet. SpinQuasar is fit for professional education and some simple scientific research.
Supports multiple terminals to access quantum computing hardware through the network.
With definable quantum programming computing function, can execute complex quantum algorithm.
Open physical layer control, support custom construction of quantum gates.
Experiments are run based on real quantum computers, and the quantum computing process and result data of experimental tasks are fully open.
Experiment task management is finely divided, displaying tasks and contents of various states, helping users to control experiment records freely and understand the details of each experiment.
The interface design is concise, supporting the quantum gate drag, the function module is simplified, and the operation is convenient.
SpinQ is dedicated to the Industrialization and Widespread Adoption of Quantum Computing.
Assisting universities and institutions in promoting the revolutionary development of the quantum computing industry.
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