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scf_celebic/ex3/seq/skalar_stl/main.cpp
dino.celebic 3882aee07a task8
2025-11-11 15:50:51 +01:00

118 lines
4.3 KiB
C++
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#include "mylib.h"
#include <cassert>
#include <chrono> // timing
#include <cmath> // sqrt()
#include <cstdlib> // atoi()
#include <cstring> // strncmp()
#include <ctime>
#include <iostream>
#include <sstream>
using namespace std;
using namespace std::chrono; // timing
int main(int argc, char **argv)
{
int const NLOOPS = 50; // chose a value such that the benchmark runs at least 10 sec.
unsigned int N = 50000001;
//##########################################################################
// Read Paramater from command line (C++ style)
cout << "Checking command line parameters for: -n <number> " << endl;
for (int i = 1; i < argc; i++)
{
cout << " arg[" << i << "] = " << argv[i] << endl;
if (std::strncmp(argv[i], "-n", 2) == 0 && i + 1 < argc) // found "-n" followed by another parameter
{
N = static_cast<unsigned int>(atoi(argv[i + 1]));
}
else
{
cout << "Corect call: " << argv[0] << " -n <number>\n";
}
}
cout << "\nN = " << N << endl;
//##########################################################################
// Memory allocation
cout << "Memory allocation\n";
vector<double> x(N), y(N);
cout.precision(2);
cout << 2.0 * N *sizeof(x[0]) / 1024 / 1024 / 1024 << " GByte Memory allocated\n";
cout.precision(6);
//##########################################################################
// Data initialization
// Special: x_i = i+1; y_i = 1/x_i ==> <x,y> == N
for (unsigned int i = 0; i < N; ++i)
{
x[i] = i + 1;
y[i] = 1.0 / x[i];
}
//##########################################################################
cout << "\nStart Benchmarking\n";
auto t1 = system_clock::now(); // start timer
// Do calculation
double sk(0.0),ss(0.0);
for (int i = 0; i < NLOOPS; ++i)
{
sk = scalar(x, y);
//sk = scalar_cblas(x, y);
//sk = norm(x);
ss += sk; // prevents the optimizer from removing unused calculation results.
}
auto t2 = system_clock::now(); // stop timer
auto duration = duration_cast<microseconds>(t2 - t1); // duration in microseconds
double t_diff = static_cast<double>(duration.count()) / 1e6; // overall duration in seconds
t_diff = t_diff/NLOOPS; // duration per loop seconds
//assert(std::abs(ss/NLOOPS-sk)<1e-5); // avoids unsafe floating point comparison "=="
//##########################################################################
// Check the correct result
cout << "\n <x,y> = " << sk << endl;
if (static_cast<unsigned int>(sk) != N)
{
cout << " !! W R O N G result !!\n";
}
cout << endl;
//##########################################################################
// Timings and Performance
cout << endl;
cout.precision(2);
cout << "Timing in sec. : " << t_diff << endl;
cout << "GFLOPS : " << 2.0 * N / t_diff / 1024 / 1024 / 1024 << endl;
cout << "GiByte/s : " << 2.0 * N / t_diff / 1024 / 1024 / 1024 * sizeof(x[0]) << endl;
//##########################################################################
cout << "\nStart Benchmarking norm\n";
auto t3 = system_clock::now(); // start timer
// Do calculation
double ss2(0.0);
for (int i = 0; i < NLOOPS; ++i)
{
auto sk = sqrt(scalar(x, x));
//auto sk = norm(x); // the same timing as scalar(x, x)
ss2 += sk; // prevents the optimizer from removing unused calculation results.
}
auto t4 = system_clock::now(); // stop timer
auto duration2 = duration_cast<microseconds>(t4 - t3); // duration in microseconds
double t_diff2 = static_cast<double>(duration2.count()) / 1e6; // overall duration in seconds
t_diff2 = t_diff2/NLOOPS; // duration per loop seconds
//assert(std::abs(ss/NLOOPS-sk)<1e-5); // avoids unsafe floating point comparison "=="
cout << "ss(norm): " << ss2 << endl;
cout << "Timing in sec. : " << t_diff2 << endl;
//##########################################################################
return 0;
} // memory for x and y will be deallocated by their destructors
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