Windows operating system (SpinQuasar is the software on Triangulum for quantum computing education as well as customised quantum computing implementation);
Create your own algorithms or use the inbuilt ones;
Supports SpinQKit – Add your own Python code;
Supports master-slave system (quantum networking) -Enables remote access to quantum hardware via network API, with master-slave software allowing multiple users to connect simultaneously—ideal for collaborative use;
Hardware-level pulse designing and engineering;
Provides build-in teaching examples, such as Rabi oscillation observation, Bell state preparation, Decoherence time measurement etc;
Provides access to control of RF pulse generation to support pulse designing for quantum gates;
Equipped with complete quantum computing teaching materials, and supports teaching and self-study, drag and drop quantum gates to construct a desired circuit;
Access to complete quantum computing procedures including experimental data collection of the final results.
Quantum coherence times of (T2: 300 ms);
Single qubit gate fidelity of 0.99 & multi-gate fidelity of 0.97;
Number of single-bit quantum gate operations: 40+ Gates;
10+ multi-gate qubit operation;
18+ built-in quantum demonstration algorithms including Deutsch algorithm, Grove algorithm, HHL algorithm, etc;
Pulse resolution 10 ns;
Phase Resolution 0.01°;
Mains Power Rating: 100~240V AC;50/60Hz;Single Phase;
Desktop quantum computer (Height 610 mm, Width 330 mm, Depth 560mm);
