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Hardware and Software Optimization of BANSMOM System. Analysis of the prototype system. s1150072 Yumiko Kimezawa. outline. Previous work Peak detection Processing flow of peak detection Compilation and execution of the prototype system Analysis of the prototype system Future work.
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RPS Hardware and Software Optimization of BANSMOM System Analysis of the prototype system s1150072 Yumiko Kimezawa
outline RPS • Previous work • Peak detection • Processing flow of peak detection • Compilation and execution of the prototype system • Analysis of the prototype system • Future work
Peak Detection RPS Reading data Derivation Peak detection Autocorrelation Store result Find interval
Processing flow RPS Finding positive peaks Finding negative peaks Finding T peak Finding R peak Finding U peak Finding Q peak Finding P peak Finding S peak
outline RPS • Previous work • Peak detection • Processing flow of peak detection • Compilation and execution of the prototype system • Analysis of the prototype system • Future work
Analysis of the prototype system RPS • Hardware • Logic utilization : 15% • Combinational ALUTs : 9,785 (9%) • Memory ALUTs : 16 (<1%) • Dedicated logic register : 11,665 (10%) • Total pins : 26 (3%) • Total block memory bits : 1,231,888 (22%)
Analysis of the prototype system RPS PPD Algorithm • Sample data • size : 10 sec • From physio bank • Used last year • Display • Interval • Location of peak • The value of peak • RR interval • Execution time • Total and every phase …
outline RPS • Previous work • Peak detection • Processing flow of peak detection • Compilation and execution of the prototype system • Analysis of the prototype system • Future work
Future work RPS • Understanding of multicore