Current Quantum Computer

Can beat most powerful classical supercomputer big data computing

Often focus on the quantum processor unit (QPU) design

Different QPU architectures exist but lack uniform, intelligent system control

Quantum error rate accumulates due to fragmented hardware/software

Repeatable Quantum Computer

Must be fault-tolerant with real-time error correction

Requires seamless integration between QPU, hardware, and software

Dynamic self-calibration, user-friendly interface, intelligent OS

Universal compatibility across QPU architectures

Hardware Control

Photon qubit gate controller, photon source switch, photon data acquisition, photon counting, microwave signal output, ADC/DAC, and I/O are integrated on ultra-fast FPGA-based electronics boards.

The fully integrated hardware architecture avoids fragmented devices, long calibration processes, and slow latency, and can couple seamlessly with existing QPUs with high precision, efficiency, and scale.

>80%      >5

Calibration Time Reduction          Running Speed

AI Operation System

Simultaneous pulse generation and manipulation, real-time data acquisition and streaming, dynamic feedback loops, and intelligent data processing are executed on PhotonIDs AI-OS with complex dynamic protocols and algorithms.

The AI-OS provides parallel, real-time system control, dynamic calibration, on-board real-time quantum error monitoring and correction, delivering fast runtime and top-tier accuracy.

>95%      <150ns

Error Correction Accuracy             Latency

Packaging

Quantum Processor Units (QPUs) are integrated with PhotonIDs hardware control and AI-OS for repeatable quantum computing.

Real-time Dynamic Control

Quantum Error Correction

User-Friendly Operation System