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[/] [async_sdm_noc/] [trunk/] [common/] [tb/] [sim_ana.h] - Rev 58
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/* Asynchronous SDM NoC (C)2011 Wei Song Advanced Processor Technologies Group Computer Science, the Univ. of Manchester, UK Authors: Wei Song wsong83@gmail.com License: LGPL 3.0 or later Simulation analyzer, gethering info. for performance analyses. Possible bugs: * the histograph function has not been tested yet. History: 29/06/2010 Initial version. <wsong83@gmail.com> 28/05/2011 Clean up for opensource. <wsong83@gmail.com> */ #ifndef SIM_ANA_H_ #define SIM_ANA_H_ #include <cstdlib> #include <cmath> #include <iostream> #include <fstream> #include <string> #include "sim_record.h" #include "hash_table.h" using namespace std; // a data type for accumulative performance, such as throughput analysis class accu_record{ private: double V1, V2; /* two values to avoid loss of accuracy, V1 save the accumulated V2 of at least 512 records */ unsigned int N1, N2; public: accu_record() :V1(0), V2(0), N1(0), N2(0) {} accu_record& operator+= (const double m) { N2++; V2 += m; if(N2 >= N1/512) { N1 += N2; V1 += V2; N2 = 0; V2 = 0; } return(*this); } double avalue() { /* return averged value */ double rt; if(0 == N1+N2) rt = 0; else rt = (V1 + V2) / (N1 + N2); V1 = 0; V2 = 0; N1 = 0; N2 = 0; return rt; } double value() { /* return the accumulative value */ double rt; if(0 == N1+N2) rt = 0; else rt = (V1 + V2); V1 = 0; V2 = 0; N1 = 0; N2 = 0; return rt; } }; /* the major simulation record class, only one such object in one simulation */ class sim_ana { public: sim_ana() : warm_time(0), record_period(0),last_time(0), delay_ana(false), throughput_ana(false), delay_histo_ana(false), histo_data(NULL) {} sim_ana(double mwt, double mrp) : warm_time(mwt), record_period(mrp), last_time(0), delay_ana(false), throughput_ana(false), delay_histo_ana(false), histo_data(NULL) {} ~sim_ana(); /* currently 16 table entries is enough and good for memory efficiency */ hash_table<sim_record<2>,16> ANA; bool start(long, double); /* start to record a new record */ bool record(long, double); /* record a time stamp */ bool stop(long, double, unsigned int); /* stop an old record */ bool set_ana_parameters(double, double); /* set analysis time parameters */ bool analyze_delay(string); /* enable delay analysis */ bool analyze_throughput(string); /* enable throughput analysis */ bool analyze_delay_histo(string, double, double, unsigned int); /* enable delay histo analysis */ private: double warm_time; double record_period; double last_time; bool delay_ana; /* whether analyze frame delay */ bool throughput_ana; /* whether analyze throughput */ bool delay_histo_ana; /* whether analyze frame delay histo */ unsigned int delay_histo_binnum; /* bin number of the histo graph */ double delay_histo_start; /* histo begin level */ double delay_histo_end; /* histo end level */ double delay_histo_gap; /* gap bewteen two levels (gap = (start-end)/(binnum-2)) */ unsigned long * histo_data; string delay_file; /* the name for delay analyses result file */ string throughput_file; /* the name for throughput analyses result file */ string delay_histo_file; /* the name for histograph analyses file */ accu_record fm_dly; /* records of frame delay */ accu_record pth_dly; /* records of path delay */ accu_record th_value; /* records of throughput */ }; #endif
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