Quantum key distribution (QKD) is a new technology well known for superior long term security of exchanged keys. As such it is an invaluable component to secure future communication infrastructure but its applicability is hampered by its low key rates. A recent break through in single photon detection facilitates the setup of novel high-rate QKD systems which are capable of generating shared keys orders of magnitudes faster than today, if the post-processing can be handled.
QKD post-processing - transforming the correlated and partly secret results of quantum measurements into a secure key - is a computationally intensive task and well elaborated for kbit/s key rates. However, handling higher rates in real-time faces completely new methodological and algorithmic challenges. HiPANQ addresses these and aims at effective methods for QKD rates in the 100 Mbit/s regime. To this end new efficient algorithms for key reconciliation and privacy amplification will be developed.