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arxiv: 2506.09856 · v1 · pith:G3P443JCnew · submitted 2025-06-11 · 🪐 quant-ph

Multi-FPGA Synchronization and Data Communication for Quantum Control and Measurement

classification 🪐 quant-ph
keywords quantumclockdatacontrolmultiplesynchronizationboardscommunication
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In the last decade, quantum computing has grown from novel physics experiments with a few qubits to commercial systems with hundreds of qubits. As quantum computers continue to grow in qubit count, the classical control systems must scale correspondingly. While a few expensive multi-board commercial solutions exist, most open-source solutions are limited to single-board radio frequency system-on-chip (RFSoC). The essential requirements for a multi-board solution are clock synchronization among multiple boards and the ability to transfer data with low latency for performing real-time feedback. In this work, we design a clock synchronization framework to distribute deterministic clock and synchronize the clock counters across multiple RFSoC boards to generate time-aligned radio frequency (RF) pulses used to control qubits. We also develop a data communication system over a fiber link to transfer quantum measurement data among multiple field-programmable gate arrays (FPGAs). This clock synchronization and data communication module has been integrated into the open-source quantum control system, QubiC, to enable the execution of quantum algorithms across multiple boards. We demonstrate the effectiveness of our design through bench tests with a room-temperature qubit readout emulator.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. QuCtrl-BELL: A Compiler-Driven Sub-Microsecond Feedback Control Stack for Scalable Trapped-Ion Quantum Experiments

    quant-ph 2026-05 unverdicted novelty 6.0

    QuCtrl-BELL is a compiler pipeline for trapped-ion quantum control that decouples control flow from hardware data to achieve sub-700 ns cross-board feedback latency on RISC-V + PXIe hardware.