Abstract
This research paper presents the FPGA implementation of the AES-128 Algorithm as an accelerator tailored for high-performance cryptographic applications. Leveraging the capabilities of the Virtex-7 evaluation kit, the AES algorithm is meticulously coded using Xilinx Vivado software. The results of the implementation reveal a resource-efficient design, utilizing 588 Look-Up Tables (LUTs) and 353 Flip Flops. This implementation showcases the efficacy of FPGA technology, specifically the Virtex-7 device, in achieving a fine balance between algorithmic complexity and resource utilization for cryptographic acceleration. The abstract underscores the significance of this research in advancing the field of hardware-accelerated cryptographic applications, offering a scalable solution with promising resource efficiency on the FPGA platform.
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