Power current modeling of cryptographic VLSI circuits for analysis of side channel attacks

Side channel attack (SCA) requires millions of dynamic power current waveforms in cryptographic VLSI circuits. The capacitor charging modeling captures the time evolution of logical activities in the cryptographic operation of an Advanced Encryption Standard (AES) core and efficiently represents the amount of charges consumed during operation. This approach significantly reduces the complexity of power current simulation, and accomplishes acceleration by a factor of 220 or larger over the traditional transistor-level circuit simulation. The correlated power analysis (CPA) attack against AES cores is successfully simulated with a conventional SPICE simulator, with the models individually derived for 10,000 different cipher texts. The simulation-based SCA efficiently evaluates the vulnerability of AES cores in a variety of logical realizations as well as in different technology nodes.