Tightly Integrating a GPU and a QPU for Fast Calibration of Multi-Qubit Circuits

Ramon Szmuk; Lukas Schlipf; Oded Wertheim; Avishai Ziv; Dean Poulos; Yaniv Kurman; Lorenzo Leandro; Benedikt Dorschner; Sam Stanwyck; Yonatan Cohen; Wei Dai

Tightly Integrating a GPU and a QPU for Fast Calibration of Multi-Qubit Circuits

ORAL

Abstract

As quantum processors scale, the need for efficient calibration and real-time optimization of quantum circuits becomes increasingly critical, particularly for quantum error correction (QEC). Integrating scalable and flexible classical computing resources within quantum sequences is essential for maintaining high-fidelity operations.

In this work, we demonstrate a tightly integrated system where a reinforcement learning agent, running on an NVIDIA Grace Hopper superchip, interacts in real time with a quantum processor. The agent dynamically optimizes circuit drive and readout policies, leading to reduced execution errors in multi-qubit circuits.

Enhancing the fidelity of QEC stabilizer circuits directly translates into exponential reductions in logical qubit errors. This underscores the importance of continuous, real-time calibration on timescales shorter than hardware drift rates. By minimizing the computational overhead of QEC, our approach represents a crucial step toward the realization of large-scale, fault-tolerant quantum computing.

June 19, 2025, 3:36 PM – June 19, 2025, 3:48 PM

Presenters

Wei Dai

Quantum Machines

Authors

Ramon Szmuk

Q.M Technologies Ltd. (Quantum Machines)
Lukas Schlipf

Q.M Technologies Ltd. (Quantum Machines)
Oded Wertheim

Q.M Technologies Ltd. (Quantum Machines)
Avishai Ziv

Q.M Technologies Ltd. (Quantum Machines)
Dean Poulos

Q.M Technologies Ltd. (Quantum Machines)
Yaniv Kurman

Q.M Technologies Ltd. (Quantum Machines)
Lorenzo Leandro

Q.M Technologies Ltd. (Quantum Machines)
Benedikt Dorschner

NVIDIA Corporation
Sam Stanwyck

NVIDIA Corporation
Yonatan Cohen

Q.M Technologies Ltd. (Quantum Machines)
Wei Dai

Quantum Machines