MIMOTHOR
24-Channel Microwave Signal Processor for Quantum-Class Performance
MIMOTHOR is a high-performance, 24-channel RF signal processor designed for cutting-edge quantum applications and complex multi-channel RF experiments. With advanced digital synthesis, phase coherence, and sub-microsecond feedback capabilities, it delivers unmatched flexibility for waveform generation, signal capture, and control in a single 2U chassis.
Whether operating in continuous-wave or pulsed-sequencing mode, MIMOTHOR offers precise control and analysis of up to 10 GHz signals — making it an ideal platform for researchers, system designers, and experimental physicists working at the frontiers of microwave signal processing and quantum control.
Features
Quantum-Class Digital Architecture
Built on the open-source QICK V2 framework and powered by AMD RFSoC, MIMOTHOR integrates direct digital synthesis, wideband ADCs/DACs, and a digital IQ mixer per channel. Each channel supports phase-coherent, ultra-low-latency signal processing — ideal for feedback-sensitive quantum operations.
Dual-Mode Operation: CW & Pulse-Sequencing
Switch seamlessly between continuous-wave mode for classic RF tasks and pulsed mode for advanced quantum gate orchestration. With 16 RF outputs, 8 RF inputs, and 16 I/O ports, you can orchestrate complex operations with synchronized timing and waveform playback.
Precision Control with SCPI & GUI
Easily control all operations through SCPI commands over Ethernet or use the included Python Notebook and intuitive GUI for script-based or manual control. Integrated LCD and front panel knob provide quick local access.
Enable Next-Gen Quantum Infrastructure
MIMOTHOR bridges the gap between RF performance and quantum experimentation, delivering a compact, software-defined signal platform that brings coherence, configurability, and precision to the heart of your microwave architecture. Whether you’re building scalable quantum labs or cutting-edge RF test environments, MIMOTHOR provides the speed and fidelity your system demands.
