Title :
Fault Model Analysis of Laser-Induced Faults in SRAM Memory Cells
Author :
Roscian, Cyril ; Sarafianos, A. ; Dutertre, J.-M. ; Tria, Assia
Author_Institution :
Dept. Syst. et Archit. Securises (SAS), Ecole Nat. Super. des Mines de St.-Etienne, Gardanne, France
Abstract :
The use of a laser to inject faults into SRAM memory cells is well known. However, the corresponding fault model is often unknown or misunderstood: the induced faults may be described as bit-flip or bit-set/reset faults. We have investigated in this paper whether the bit-set/reset fault model or bit-flip fault model may be encountered in SRAMs. First, the fault model of a standalone SRAM was considered. Experiments revealed that the relevant fault model was the bit-set/reset. This result was further investigated through electrical simulations based on the use of an electrical model of MOS transistors under laser illumination. Then, fault injections have been performed on the RAM memory of a micro-controller to check the validity of the previous results based on experiments and simulations.
Keywords :
SRAM chips; laser beam effects; MOS transistors; SRAM memory cells; bit-flip fault model; bit-reset fault model; bit-set fault model; electrical model; electrical simulations; fault injections; fault model analysis; laser illumination; laser-induced faults; microcontroller; Circuit faults; Laser beams; Laser modes; Random access memory; Semiconductor lasers; Transient analysis; Bit-flip; Bit-reset; Bit-set; Fault model; Laser Fault injection; SPICE Simulation; SRAM;
Conference_Titel :
Fault Diagnosis and Tolerance in Cryptography (FDTC), 2013 Workshop on
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-0-7695-5059-6
DOI :
10.1109/FDTC.2013.17
