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Hardware Acceleration of Encryption Algorithms Using Xilinx Zynq Technology
Linner, Marek ; Fukač, Tomáš (referee) ; Kořenek, Jan (advisor)
The main concern of this paper are two world standard encryption algorithms Data Encryption Standard DES (DES for short) and Advanced Encryption Standard (further mentioned as AES). For these two respective algorithms, three publicly available implementations are integrated into a benchmarking code in C programming language. The code has been executed, implementations measured with three different input block lengths and bitrate calculated for each implementation. The thesis also includes hardware implementation of both encryption algorithms DES and AES using VHDL language, simulation of the synthesised circuits and calculation of the hardware implementations' bitrate using Vivado simulator's timing reports. These measured bitrates are then compared with the bitrates of benchmarked software implementations. Paper includes all source codes of the benchmarking C program and VHDL implementation, along with program written in C# used to generate VHDL components and another C# program used for automated testing.
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PSO-algorithms and possibilities for their use in cryptanalysis.
Svetlíková, Lenka ; Tůma, Jiří (advisor) ; Hojsík, Michal (referee)
The aim of the thesis was to investigate the usage of PSO algorithm in the area of cryptanalysis. We applied PSO to the problem of simple substitution and to DES attack. By a modified version of PSO algorithm we achieved better or comparable results as by the usage of other biologically motivated algorithms. We suggested a method how to use PSO to attack DES and we were able to break it with the knowledge of only 20 plain texts and corresponding cipher texts. We have analyzed the reasons of failure to break more than a 4 rounds of DES and provided explanation for it. At the end we described the basic principles of differential cryptanalysis for DES and presented a specific mo- dification of PSO for searching optimal differential characteristics for DES. For simple ciphers, PSO is working efficiently but for sophisticated ciphers like DES, without in- corporating deep internal knowledge about the process into the algorithm, we could not expect significant outcomes. 1
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Hardware Acceleration of Encryption Algorithms Using Xilinx Zynq Technology
Linner, Marek ; Fukač, Tomáš (referee) ; Kořenek, Jan (advisor)
The main concern of this paper are two world standard encryption algorithms Data Encryption Standard DES (DES for short) and Advanced Encryption Standard (further mentioned as AES). For these two respective algorithms, three publicly available implementations are integrated into a benchmarking code in C programming language. The code has been executed, implementations measured with three different input block lengths and bitrate calculated for each implementation. The thesis also includes hardware implementation of both encryption algorithms DES and AES using VHDL language, simulation of the synthesised circuits and calculation of the hardware implementations' bitrate using Vivado simulator's timing reports. These measured bitrates are then compared with the bitrates of benchmarked software implementations. Paper includes all source codes of the benchmarking C program and VHDL implementation, along with program written in C# used to generate VHDL components and another C# program used for automated testing.
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|
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PSO-algorithms and possibilities for their use in cryptanalysis.
Svetlíková, Lenka ; Tůma, Jiří (advisor) ; Hojsík, Michal (referee)
The aim of the thesis was to investigate the usage of PSO algorithm in the area of cryptanalysis. We applied PSO to the problem of simple substitution and to DES attack. By a modified version of PSO algorithm we achieved better or comparable results as by the usage of other biologically motivated algorithms. We suggested a method how to use PSO to attack DES and we were able to break it with the knowledge of only 20 plain texts and corresponding cipher texts. We have analyzed the reasons of failure to break more than a 4 rounds of DES and provided explanation for it. At the end we described the basic principles of differential cryptanalysis for DES and presented a specific mo- dification of PSO for searching optimal differential characteristics for DES. For simple ciphers, PSO is working efficiently but for sophisticated ciphers like DES, without in- corporating deep internal knowledge about the process into the algorithm, we could not expect significant outcomes. 1
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