Random Seeding LFSR-Based TRNG for Hardware Security Applications
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N Mohankumar | R. Shiva Prasad | Anirudh Siripagada | Santthosh Selvaraj | S. Selvaraj | N. Mohankumar | R. Prasad | Anirudh Siripagada
[1] Janusz Rajski,et al. Arithmetic Additive Generators of Pseudo-Exhaustive Test Patterns , 1996, IEEE Trans. Computers.
[2] Abhranil Maiti,et al. Physical unclonable function and true random number generator: a compact and scalable implementation , 2009, GLSVLSI '09.
[3] N Mohankumar,et al. Delay-Based Reference Free Hardware Trojan Detection Using Virtual Intelligence , 2018 .
[4] D Manoj Reddy,et al. BHARKS: Built-in hardware authentication using random key sequence , 2017, 2017 4th International Conference on Signal Processing, Computing and Control (ISPCC).
[5] N Mohankumar,et al. HAPMAD: Hardware-Based Authentication Platform for Malicious Activity Detection in Digital Circuits , 2018 .
[6] N. Mohankumar,et al. Malicious combinational Hardware Trojan detection by Gate Level Characterization in 90nm technology , 2014, Fifth International Conference on Computing, Communications and Networking Technologies (ICCCNT).
[7] G. Aishwarya,et al. Virtual Instrumentation-Based Malicious Circuit Detection Using Weighted Average Voting , 2018 .
[8] Manuel Blum,et al. A Simple Unpredictable Pseudo-Random Number Generator , 1986, SIAM J. Comput..
[9] Alexander A. Ivaniuk,et al. The use of physical unclonable functions for true random number sequences generation , 2013, Automatic Control and Computer Sciences.
[10] Melvin A. Breuer,et al. Novel Test Pattern Generators for Pseudoexhaustive Testing , 2000, IEEE Trans. Computers.