Front-end enhancements for cairo university hardware/software partitioning tool (cupshop) /
Ahmed Hamed Fatehy Hamed
Front-end enhancements for cairo university hardware/software partitioning tool (cupshop) / تعزيز الواجهة الأمامية لأداة جامعة القاهرة الخاصة بتقسيم التصميم بين العتاد والبرمجيات Ahmed Hamed Fatehy Hamed ; Supervised Serag Eldin Elsayed Habib , Mohamed Bakr Abdelhalim Osman - Cairo : Ahmed Hamed Fatehy Hamed , 2015 - 145 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Communication
This thesis introduces a Front-End enhancement for Cairo University Particle Swarm optimization Hardware/sOftware Partitioning (CUPSHOP) tool by enabling this tool to accept input designs written in ANSI C. This Front end can accept hierarchical input C codes of arbitrary number of levels. It extracts a corresponding control and data flow diagram (CDFG) representation of the system, together with all the data base information needed to define the design completely. This CDFG is fully compatible with CUPSHOP, and canalso be used with several HLS and HW/SW partitioning tools. The developed C front end is tested successfully against several published HLS benchmarks, including benchmarks from CHStone suite
C Front-End High Level Synthesis HW/SW Co-Design
Front-end enhancements for cairo university hardware/software partitioning tool (cupshop) / تعزيز الواجهة الأمامية لأداة جامعة القاهرة الخاصة بتقسيم التصميم بين العتاد والبرمجيات Ahmed Hamed Fatehy Hamed ; Supervised Serag Eldin Elsayed Habib , Mohamed Bakr Abdelhalim Osman - Cairo : Ahmed Hamed Fatehy Hamed , 2015 - 145 P. : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Communication
This thesis introduces a Front-End enhancement for Cairo University Particle Swarm optimization Hardware/sOftware Partitioning (CUPSHOP) tool by enabling this tool to accept input designs written in ANSI C. This Front end can accept hierarchical input C codes of arbitrary number of levels. It extracts a corresponding control and data flow diagram (CDFG) representation of the system, together with all the data base information needed to define the design completely. This CDFG is fully compatible with CUPSHOP, and canalso be used with several HLS and HW/SW partitioning tools. The developed C front end is tested successfully against several published HLS benchmarks, including benchmarks from CHStone suite
C Front-End High Level Synthesis HW/SW Co-Design