Features

Complex Quantum Algorithm Implementation on Real Hardware

With a 3-qubit quantum system, it supports single, double, and triple-qubit logic gates. Paired with SpinQuasar software, it can handle operations with over 40 single-qubit gates or at least 8 multi-qubit gates.

Classical-Quantum Hybrid Programming

Supports quantum algorithm development in Python, with the option to use the SpinQit toolkit for combining classical and quantum logic in hybrid programming.

Quantum Computing Fundamental Research

Open access to NMR-based pulse control, signal acquisition, and system parameters allows deeper insights into qubit evolution by designing quantum control logic from physical principles.

Remote Hardware Access

Enables remote access to quantum hardware via network API, with master-slave software allowing multiple users to connect simultaneously—ideal for collaborative use.

Complex Quantum Algorithm Implementation on Real Hardware

Advantages

Improved Room-Temperature Stability

Runs reliably at room temperature with minimal maintenance, offering excellent cost-effectiveness and virtually no upkeep costs.

Flexible Program Design

Users can freely create and customize quantum programs, enabling advanced algorithms with rapid execution and quick results.

Enhanced Pulse Sequence Editing

Provides open hardware-level pulse sequence editing with greater flexibility, accommodating various needs and applications.

Independent and Intuitive Experimentation

Each experiment runs on its own, with straightforward controls, manageable quantum resources, and no waiting time.

Curriculum

01 Basic Principle Experiments

· Basics of Quantum States and Qubits · Single-/Double-Qubit Gate Operations · Rabi Oscillation and Pulse Calibration · Relaxation Time Measurement Experiments · Bell State Preparation and Verification · Deutsch/Grover Algorithms Course Duration: > 16 hours

02 Extended Exploratory Experiments

· Quantum Approximate Counting Algorithm · Bernstein-Vazirani Algorithm · Dynamical Simulation of Quantum Systems · Open Quantum Systems and Multi-Qubit Research · Custom Pulse Sequence Design Course Duration: > 12 hours

We are dedicated to offering you professional pre-sales purchase consultation services, as well as comprehensive post-sale technical support.

Tech Specs Product Comparison >

System

Number of qubits

Coherence time

~6s(T₁)；~300ms(T₂)

Grover Algorithm Fidelity

Deutsch Algorithm Fidelity

Size

Height

405mm

Width

370mm

Length

220mm

Other

Weight

~23Kg

Mains Power Rating

100 ~ 240V AC ; 50Hz/60Hz ;

Power Dissipation

~60W

* Please contact us for more technical specifications. Product specifications are subject to change without notice.

Applications

Teaching Experiments

It translates quantum information technology into practical, hands-on teaching experiments, moving it from research labs to university classrooms. It supports a variety of experiments, including quantum computing principles, quantum algorithms, quantum control, quantum simulation, quantum precision measurement, quantum communication protocols, and NMR. Paired with university-tailored manuals, it provides a comprehensive solution and diverse options for experimental education.

Research Experiments

This versatile platform supports quantum computing, quantum dynamics, and quantum control research, and also functions as a compact NMR spectrometer for nuclear magnetic resonance studies.

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SPINQ Triangulum Ⅱ 3-qubit Desktop NMR Quantum Computer