In this session, Omri Golan from Qedma explains how advanced error mitigation and suppression techniques can bridge the gap between today’s noisy quantum hardware and practical algorithm execution. By precisely characterizing hardware errors, Qedma’s software enables quantum circuits to produce accurate, unbiased results without requiring the heavy overhead of full error correction.
The talk highlights a hybrid approach that trades additional computation time for improved accuracy, combining error suppression for coherent noise with scalable mitigation for other error types. This strategy significantly enhances performance and scalability, bringing quantum systems closer to outperforming classical simulations and paving the way toward practical quantum advantage.
