Maximizing Side Channel Attack-Resistance And Energy-Efficiency Of The Sttl Combining Multi-V-T Transistors With Current And Capacitance Balancing

Secure triple track logic (STTL) is a circuit-level countermeasure to differential power analysis (DPA) attacks based on dual-rail precharge logic (DPL). STTL is robust to attacks due to the delay insensitive topology characteristic that avoids the glitches generated by the different path delays, before the logic gate inputs stabilize. However, the main STTL drawbacks are the validation of timing-robustness and the unbalanced and asymmetric transistors arrangement that result in variable internal capacitances and different internal paths to the current flow behaviors. The main contribution of this work is a new STTL-based topology called MT-BSTTL that combines multi-threshold with a set of circuit balancing improvements on capacitance, current paths, and fan-in, aiming to maximize the energy-efficiency while still preserving the side-channel attack-resistance. Three basic logic gates were implemented using the proposed strategy and other secure transistor topologies, all using the TSMC 40 nm technology. Results show that MT-BSTTL outperforms all state-of-the-art logic styles in terms of robustness against DPA attacks. Comparing to the baseline STTL, the proposed MT-BSTTL is, at least, 50% faster, has 53.5% higher energy-efficient, and it is 44% more robust, incurring in a 40% circuit area penalty.