Aiming at protection of high speed data, field programmable gate array (FPGA)-based advanced encryption standard (AES) design is proposed here. Deep investigation into the logical operations of AES with regard to FPGA...
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Aiming at protection of high speed data, field programmable gate array (FPGA)-based advanced encryption standard (AES) design is proposed here. Deep investigation into the logical operations of AES with regard to FPGA architectures leads to two efficient pipelining structures for the AES hardware implementation. The two design options allow users to make a trade-off among speed, resource usage and power consumption. In addition, a new key expansion scheme is proposed to address the potential issues of existing key expansion scheme used in AES. The proposed key expansion scheme with additional non-linear operations increases the complexity of cracking keys by up to 2((N - 1)) times for N-round AES. The proposed design is evaluated on various FPGA devices and is compared with several existing AES implementations. In terms of both throughput and throughput per slice, the proposed design can overcome most existing designs and achieves a throughput of 75.9 Gbps on a latest FPGA device. Two parallel implementations of the proposed design can meet the real-timeencryption/decryptiondemand for 100 Gbps data rate. Furthermore, the proposed AES design is implemented on the Zynq xc7z020 FPGA platform, demonstrating its application to image encryption.
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