Design of a Dynamic Parameter-Controlled Chaotic-PRNG in a 65nm CMOS process
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In this paper, we present the design of a new chaotic map circuit with a 65nm CMOS process. This chaotic map circuit uses a dynamic parameter-control topology and generates a wide chaotic range. We propose two designs of dynamic parameter-controlled chaotic map (DPCCM)-based pseudo-random number generators (PRNG). The randomness of the generated sequence is verified using three different statistical tests, namely, NIST SP 800-22 test, FIPS PUB 140-2 test, and Diehard test. Our first design offers a throughput of 200 MS/s with an on-chip area of 0.024mm2 and a power consumption of 2.33mW. The throughput of our second design is 300 MS/s with an area consumption of 0.132mm2 and power consumption of 2.14mW. The wider chaotic range and lower-overhead, offered by our designs, can be highly suitable for various applications such as, logic obfuscation, chaos-based cryptography, re-configurable random number generation,and hard-ware security for resource-constrained edge devices like IoT.
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