Reed-Muller Codes for Quantum Pauli and Multiple Access Channels
By: Dina Abdelhadi , Colin Sandon , Emmanuel Abbe and more
Potential Business Impact:
Improves how computers send secret messages.
Reed-Muller (RM) codes have undergone significant analytical advancements over the past decade, particularly for binary memoryless symmetric (BMS) channels. We extend the scope of RM codes development and analysis to multiple-access channels (MACs) and quantum Pauli channels, leveraging a unified approach. Specifically, we first derive the achievable rate region for RM codes on so-called Q-MACs, a class of MACs with additive correlated noise. This is achieved via a generalization of the bending and boosting arguments defined in arXiv:2304.02509. We then put forward a connection between the rate region of these QMACs and quantum RM codes designed for Pauli noise channels. This connection highlights a universality property of quantum RM codes, demonstrating their rate-optimal performance across a range of channel parameters, rather than for a single Pauli channel.
Similar Papers
Reed-Muller Codes on CQ Channels via a New Correlation Bound for Quantum Observables
Information Theory
Helps computers send secret messages more reliably.
A Short Proof of Coding Theorems for Reed-Muller Codes Under a Mild Assumption
Information Theory
Makes data storage and sending more reliable.
Interpolation of Quantum Polar Codes and Quantum Reed-Muller Codes
Quantum Physics
Fixes quantum computers to work better.