About the Speaker

I am an Electronics and Communications engineer with over a decade of experience in ASIC/FPGA verification, specialising in complex digital systems and verification methodologies. I currently serve as a Lead Verification Engineer, driving UVM-based verification for Quantum Error Correction within the rapidly evolving field of Quantum Computing.

From Qubits to Confidence: Verifying Quantum Error Correction

Overview

Quantum error correction (QEC) presents challenges for verification, where probabilistic behaviour, correlated errors, and large state spaces limit the effectiveness of traditional approaches. While QEC is well understood in theory, applying these concepts in practical verification environments remains an evolving area.
This talk explores how core QEC concepts—such as syndrome extraction, decoder behaviour, and noise processes—can be applied in verification. It covers approaches for statistical checking of measurement outputs, injecting correlated error patterns, and defining coverage using representative scenarios. It also discusses scaling these techniques across multi-FPGA platforms, outlining methods for building confidence in QEC implementations.

Key Points

• Bridging theory and verification practice
• Modelling realistic quantum noise and error behaviour
• Scaling verification in real hardware environments