High performance error correction for quantum key distribution using polar codes (pp0329-0338)
          Paul Jouguet and Sebastien Kunz-Jacques
          doi: https://doi.org/10.26421/QIC14.3-4-8
Abstracts: We study the use of polar codes for both discrete and continuous variables Quantum Key Distribution (QKD). Although very large blocks must be used to obtain the efficiency required by quantum key distribution, and especially continuous variables quantum key distribution, their implementation on generic x86 Central Processing Units (CPUs) is practical. Thanks to recursive decoding, they exhibit excellent decoding speed, much higher than large, irregular Low Density Parity Check (LDPC) codes implemented on similar hardware, and competitive with implementations of the same codes on high-end Graphic Processing Units (GPUs).
Key words: Quantum cryptography, quantum key distribution, discrete variables quantum key distribution, continuous variables quantum key distribution, information reconciliation, low-density parity-check codes, polar codes, decoding speed, graphic processing unit, central processing unit