Nanofocused X-ray beam to reprogram secure circuits

International audienceSynchrotron X-ray nano-beamlines is investigated as a tool to perturb microcontroller circuits. This technique is used to target the Flash, EEPROM and RAM memory of a circuit. The obtained results are very promising and show that it is possible to corrupt a single transistor in a semi-permanent state. A simple heat treatment can remove the induce effect, thus making the corruption reversible. A concrete attack on a code stored in Flash is demonstrated

A fast and versatile quantum key distribution system with hardware key distillation and wavelength multiplexing

We present a compactly integrated, 625 MHz clocked coherent one-way quantum key distribution system which continuously distributes secret keys over an optical fibre link. To support high secret key rates, we implemented a fast hardware key distillation engine which allows for key distillation rates up to 4 Mbps in real time. The system employs wavelength multiplexing in order to run over only a single optical fibre. Using fast gated InGaAs single photon detectors, we reliably distribute secret keys with a rate above 21 kbps over 25 km of optical fibre. We optimized the system considering a security analysis that respects finite-key-size effects, authentication costs and system errors for a security parameter of εQKD = 4 × 10−9