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The ever increasing size and complexity of today’s Very-Large-Scale-Integration (VLSI) designs requires a thorough investigation of new approaches for the generation of test patterns for both test and diagnosis of faults. SAT-based automatic test pattern generation (ATPG) is one of the most popular methods, where, in contrast to classical structural ATPG methods, first a mathematical representation...
A prototype of the framework AutoFault, which automatically constructs fault-injection attacks for hardware realizations of ciphers, is presented. AutoFault can be used to quickly evaluate the resistance of security-critical hardware blocks to fault attacks and the adequacy of implemented countermeasures. The framework takes as inputs solely the circuit description of the cipher and the fault(s) and...
Fault attacks are a major threat for hardware-implemented security primitives, and algebraic techniques (equation-solving) are one of the most powerful building blocks for such attacks. We show that structural models obtained from a circuit implementation of the analyzed cipher can lead to more efficient attacks than the functional models used in literature. We also discuss possible synergies of the...
With an increasing number of complex cells in today's VLSI designs, intra-gate opens are becoming a larger and larger problem. Typically, these defects are modeled by transistor stuck-off faults (TSOF) and assumed to be detected by transition delay fault (TDF) timing tests. However, tests for TDF fail to detect a high percentage of TSOFs and even tools that target them directly are not sufficient...
With the ever increasing size of today's Very-Large-Scale-Integration (VLSI) designs new approaches for test pattern generation become more and more popular. One of the best known methods is SAT-based automatic test pattern generation (ATPG) which, in contrast to classical structural ATPG, first generates a mathematical representation of the problem in form of a Boolean formula. A specialized solver...
Opens are known to be one of the predominant defects in nanoscale technologies. Especially with an increasing number of complex cells in today's VLSI designs intra-gate opens are becoming a major problem. The generation of tests for these faults is hard, as the timing of the circuit needs to be considered accurately to prevent the invalidation of the generated tests through hazards. Current test generation...
The #SAT problem, that is counting the number of solutions of a propositional formula, extends the well-known SAT problem into the realm of probabilistic reasoning. However, the higher computational complexity and lack of fast solvers still limits its applicability for real world problems. In this work we present our distributed parallel #SAT solver dCountAntom which utilizes both local, shared-memory...
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