CU-SDAH : a platform for iot hardware security, SW/HW partitioning, extended algorithm hopping and SCA resistance using ZYNQ SOC /
Abdelrhman Mohamed Ibrahim Sayed Abotaleb
CU-SDAH : a platform for iot hardware security, SW/HW partitioning, extended algorithm hopping and SCA resistance using ZYNQ SOC / منصة لتحسين تأمين إنترنت الأشياء عبر تقسيم العتاد المادى والبرمجيات والقفز البرمجى ومقاومة هجوم القناة الفرعية ثم تنفيذها على المنظومة داخل الشريحة زينك Abdelrhman Mohamed Ibrahim Sayed Abotaleb ; Supervised Amr.Galal Eldin Wassal - Cairo : Abdelrhman Mohamed Ibrahim Sayed Abotaleb , 2021 - 163 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Computer Engineering
Internet of things applications are being essential in every life aspects, with the critical risk of breaching the data transmission, In the current thesis, advanced optimization techniques for hardware security implementation is done and evaluated against the proposed framework with three advanced techniques, first technique is the software/hardware partitioning using the SDSoC and being implemented in the ZYNQ SoC and being compared against pure RTL implementation, second technique starts through side channel attack evaluation against AES algorithm by applying differential power analysis using chipWhisperer kit is done and critical vulnerabilities inside the S-Box of the AES algorithm is being enhanced through applying the genetic algorithms to obtain optimized security parameters for the S-Box..third technique improves algorithm hopping by applying the partial dynamic reconfiguration proposing new security dimension along with saving the chip area
Dynamic Partial Reconfiguration, Genetic Algorithms IoT Security
CU-SDAH : a platform for iot hardware security, SW/HW partitioning, extended algorithm hopping and SCA resistance using ZYNQ SOC / منصة لتحسين تأمين إنترنت الأشياء عبر تقسيم العتاد المادى والبرمجيات والقفز البرمجى ومقاومة هجوم القناة الفرعية ثم تنفيذها على المنظومة داخل الشريحة زينك Abdelrhman Mohamed Ibrahim Sayed Abotaleb ; Supervised Amr.Galal Eldin Wassal - Cairo : Abdelrhman Mohamed Ibrahim Sayed Abotaleb , 2021 - 163 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Computer Engineering
Internet of things applications are being essential in every life aspects, with the critical risk of breaching the data transmission, In the current thesis, advanced optimization techniques for hardware security implementation is done and evaluated against the proposed framework with three advanced techniques, first technique is the software/hardware partitioning using the SDSoC and being implemented in the ZYNQ SoC and being compared against pure RTL implementation, second technique starts through side channel attack evaluation against AES algorithm by applying differential power analysis using chipWhisperer kit is done and critical vulnerabilities inside the S-Box of the AES algorithm is being enhanced through applying the genetic algorithms to obtain optimized security parameters for the S-Box..third technique improves algorithm hopping by applying the partial dynamic reconfiguration proposing new security dimension along with saving the chip area
Dynamic Partial Reconfiguration, Genetic Algorithms IoT Security