Title :
340mV–1.1V, 289Gbps/W, 2090-gate NanoAES hardware accelerator with area-optimized encrypt/decrypt GF(24)2 polynomials in 22nm tri-gate CMOS
Author :
Mathew, Sanu ; Satpathy, Sudhir ; Suresh, Vikram ; Kaul, Himanshu ; Anders, Mark ; Chen, Gang ; Agarwal, Abhishek ; Hsu, Steven ; Krishnamurthy, Ram
Author_Institution :
Circuits Res. Lab., Intel Corp., Hillsboro, OR, USA
Abstract :
An on-die, lightweight nanoAES hardware accelerator is fabricated in 22nm tri-gate CMOS, targeted for ultra-low power mobile SOCs. Compared to conventional 128-bit AES implementations, this design uses an 8-bit Sbox datapath along with ShiftRow byte-order processing to compute all AES rounds in native GF(24)2 composite-field. This approach along with a serial-accumulating MixColumns circuit, area-optimized encrypt and decrypt Galois-field polynomials and integrated on-the-fly key generation circuit results in a compact 2090-gate design, enabling peak energy-efficiency of 289Gbps/W and AES-128 encrypt/decrypt throughput of 432/671Mbps with total energy consumption of 4.7/3nJ measured at 0.9V, 25°C.
Keywords :
CMOS digital integrated circuits; Galois fields; cryptography; low-power electronics; system-on-chip; AES rounds; Sbox datapath; ShiftRow byte-order processing; area-optimized encrypt polynomials; compact 2090-gate design; decrypt Galois-field polynomials; integrated on-the-fly key generation circuit; lightweight nanoAES hardware accelerator; native composite-field; serial-accumulating MixColumns circuit; size 22 nm; temperature 25 degC; trigate CMOS; ultra-low power mobile SOC; voltage 340 mV to 1.1 V; word length 8 bit; Abstracts; Area measurement; Ciphers; Energy measurement; IP networks; Logic gates;
Conference_Titel :
VLSI Circuits Digest of Technical Papers, 2014 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4799-3327-3
DOI :
10.1109/VLSIC.2014.6858420
