The following publications are possibly variants of this publication:
- Integrated all-digital low-dropout regulator as a countermeasure to power attack in encryption enginesA. Singh, M. Kar, A. Rajan, V. De, S. Mukhopadhyay. host 2016: 145-148 [doi]
- 8.1 Improved power-side-channel-attack resistance of an AES-128 core via a security-aware integrated buck voltage regulatorMonodeep Kar, Arvind Singh, Sanu Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. isscc 2017: 142-143 [doi]
- Enhanced Power and Electromagnetic SCA Resistance of Encryption Engines via a Security-Aware Integrated All-Digital LDOArvind Singh, Monodeep Kar, Venkata Chaitanya Krishna Chekuri, Sanu K. Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. jssc, 55(2):478-493, 2020. [doi]
- Reducing Power Side-Channel Information Leakage of AES Engines Using Fully Integrated Inductive Voltage RegulatorMonodeep Kar, Arvind Singh, Sanu K. Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. jssc, 53(8):2399-2414, 2018. [doi]
- Improved power side channel attack resistance of a 128-bit AES engine with random fast voltage ditheringArvind Singh, Monodeep Kar, Sanu Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. esscirc 2017: 51-54 [doi]
- Improved Power/EM Side-Channel Attack Resistance of 128-Bit AES Engines With Random Fast Voltage DitheringArvind Singh, Monodeep Kar, Sanu K. Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. jssc, 54(2):569-583, 2019. [doi]
- Reducing Side-Channel Leakage of Encryption Engines Using Integrated Low-Dropout Voltage RegulatorsArvind Singh, Monodeep Kar, Sanu Mathew, Anand Rajan, Vivek De, Saibal Mukhopadhyay. jhss, 1(4):340-355, 2017. [doi]