As we approach utility-scale quantum computations which cannot be verified classically, solutions for cancelling noise and errors and ensuring guaranteed accuracy are becoming increasingly important. Qedma’s Error Suppression and Error Mitigation product “QESEM” [1] is a comprehensive platform for eliminating noise in quantum circuits, empowering users to achieve error-freeresults on circuits of unrivaled complexities using today’s quantum hardware. In this talk, we will showcase QESEM’s robust capabilities across a range of applications, with a particular focus on simulations of long-time dynamics in quantum many-body systems – problems that pose significant challenges even for the world’s most powerful classical HPCs. We will demonstrate how HPCscan be efficiently integrated with quantum computers powered by QESEM to perform co-execution of quantum circuits, unlocking error-free execution of significantly larger circuit volumes. We will present results showcasing the use of this unique integration for quantum simulations, demonstrating how QESEM can accelerate the timeline for achieving quantum advantage.

[1] QESEM can be accessed as a Qiskit Function (https://docs.quantum.ibm.com/guides/qedma-qesem).

Dr. Seiji Yunoki, Chief Scientist, Computational Condensed Matter Physics Laboratory; RIKEN

Netanel Lindner, Professor of Physics, Co-founder & CTO; Qedma Quantum Computing