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引用次数: 3
摘要
加密算法可以用软件实现,也可以用纯硬件构建。然而,现场可编程门阵列(FPGA)实现提供了更快的解决方案,并且可以轻松升级以纳入任何协议更改。可用的AES算法用于数据,也适用于图像的加解密,以保护机密图像不受未经授权的访问。本课题提出了一种将图像数据作为AES算法的输入,获得加密图像的方法。加密后的图像作为AES解密的输入,得到原始图像。本课题提出采用128、192和256位AES算法进行数据加解密,并对其运算速度、效率、安全性和频率进行比较。所提出的工作将分别在Xilink ISE 13.2和Modelsim工具的FPGA家族上以超高速集成电路硬件描述语言(VHDL)进行合成和仿真。
Design of AES Algorithm for 128/192/256 Key Length in FPGA
The cryptographic algorithms can be implemented with software or built with pure hardware. However Field Programmable Gate Arrays (FPGA) implementation offers quicker solution and can be easily upgraded to incorporate any protocol changes. The available AES algorithm is used for data and it is also suitable for image encryption and decryption to protect the confidential image from an unauthorized access. This project proposes a method in which the image data is an input to AES algorithm, to obtain the encrypted image. and the encrypted image is the input to AES Decryption to get the original image. This project proposed to implement the 128,192 & 256 bit AES algorithm for data encryption and decryption, also to compare the speed of operation, efficiency, security and frequency . The proposed work will be synthesized and simulated on FPGA family of Xilink ISE 13.2 and Modelsim tool respectively in Very high speed integrated circuit Hardware Description Language (VHDL).
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