Exercises_MarkusSchmidt/sheet3/6/main.cpp

#include "mylib.h"
#include <cassert>
#include <chrono>           // timing
#include <cmath>            // sqrt()
#include <cstdlib>          // atoi()
#include <cstring>          // strncmp()
#include <ctime>
#include <iostream>
#include <sstream>
#include "benchmark.h"
using namespace std;
using namespace std::chrono;  // timing

int main(int argc, char **argv)
{
    const unsigned int NA = 1400000;     
    const unsigned int NLOOPSA = 10000;     
    //const unsigned int NLOOPS = 10;  
    
    const unsigned int MC = 1000;
    int const NLOOPSC = 1000;
// ---------- Benchmark A ----------

{
    
    
    vector<double> xA(NA), yA(NA);
    for (unsigned int i = 0; i < NA; ++i)
    {
        double xi= (i % 219) + 1;
        xA[i] = xi;
        yA[i] = 1.0 / xi;
    }

    auto tA1 = system_clock::now();
    double sA = 0.0, sumA = 0.0;
    for (unsigned int loop = 0; loop < NLOOPSA; ++loop)
    {
        sA = benchmark_A(xA, yA);
        sumA += sA;
    }
    auto tA2 = system_clock::now();

    auto durA = duration_cast<microseconds>(tA2 - tA1);
    double tA = static_cast<double>(durA.count()) / 1e6 / NLOOPSA; //duration per loop seconds

    cout << "\n===== Benchmark A =====\n";
    cout << "<xA,yA> = "  << sA << endl;
    cout << "Timing in sec. : " << tA << endl;
    cout << "GFLOPS         : " << 2.0 * NA / tA / 1024 / 1024 / 1024 << endl;
    cout << "GiByte/s       : "
         << 2.0 * NA * sizeof(xA[0]) / tA / 1024 / 1024 / 1024 << endl;
}

// ---------- Benchmark B----------

{
    const unsigned int MB = 1700;
    const unsigned int NB = MB;
    const unsigned int NLOOPSB = 10000;//50;

    vector<double> AB(MB * NB);
    vector<double> xB(NB);

    for (unsigned int i = 0; i < MB; ++i)
        for (unsigned int j = 0; j < NB; ++j)
            AB[i * NB + j] = (i+j) %219 +1;

    for (unsigned int j = 0; j < NB; ++j)
    {
        
        xB[j] = 1.0 / AB[17*NB+j];
    }

    vector<double> bB;
    auto tB1 = system_clock::now();
    double guardB = 0.0;
    for (unsigned int loop = 0; loop < NLOOPSB; ++loop)
    {
        bB = benchmark_B(AB, xB);
        guardB += bB[17];
    }
    auto tB2 = system_clock::now();

    auto durB = duration_cast<microseconds>(tB2 - tB1);
    double tB = static_cast<double>(durB.count()) / 1e6 / NLOOPSB;

    double flopsB = 2.0 * MB * NB;  
    double bytesB = (MB * NB + NB  + MB)  * sizeof(double);

    cout << "\n===== Benchmark B =====\n";
    cout << guardB << endl;
    cout << "bytes: " << bytesB << endl;
    cout << "Timing in sec. : " << tB << endl;
    cout << "GFLOPS         : " << flopsB / tB / 1024 / 1024 / 1024 << endl;
    cout << "GiByte/s       : " << bytesB / tB / 1024 / 1024 / 1024 << endl;
}

// ---------- Benchmark C ----------

{
    
    const unsigned int LC = MC;
    const unsigned int NC = MC;

   
    vector<double> AC(MC * LC), BC(LC * NC);

    for (unsigned int i = 0; i < MC; ++i)
        for (unsigned int j = 0; j < LC; ++j)
            AC[i * LC + j] = (i+j) %219 +1;

    for (unsigned int i = 0; i < LC; ++i)
        for (unsigned int j = 0; j < NC; ++j)
            BC[i * NC + j] = (i+j) %219 +1;

    vector<double> CC;
    auto tC1 = system_clock::now();
    double guardC = 0.0;
    for (unsigned int loop = 0; loop < NLOOPSC; ++loop)
    {
        CC = benchmark_C(AC, BC, MC);
        guardC += CC[0];
    }
    auto tC2 = system_clock::now();

    auto durC = duration_cast<microseconds>(tC2 - tC1);
    double tC = static_cast<double>(durC.count()) / 1e6 / NLOOPSC;

    double flopsC = 2.0 * MC * LC * NC;
    double bytesC = (MC * LC  + LC * NC  + MC * NC)* sizeof(double);

    cout << "\n===== Benchmark C =====\n";
    cout << "bytes: " << bytesC << endl;
    cout << "Timing in sec. : " << tC << endl;
    cout << "GFLOPS         : " << flopsC / tC / 1024 / 1024 / 1024 << endl;
    cout << "GiByte/s       : " << bytesC / tC / 1024 / 1024 / 1024 << endl;
}


return 0;
}  // memory for x and y will be deallocated by their destructors