jakob.schratter/SciFEM-Project_CoffeeMugSimulation_Celebic-Schratter
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improved setup for simulation (ii) and (iii)

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jakob.schratter 2026-01-27 09:14:25 +01:00
commit d8fc085d57
4 changed files with 5443 additions and 85 deletions
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74
mgrid_2/main.cpp
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@ -7,6 +7,7 @@
#include <cassert>
#include <chrono> // timing
#include <cmath>
#include <fstream>
#include <iostream>
#include <omp.h>
using namespace std;
@ -88,8 +89,8 @@ int main(int argc, char **argv )
double goal_perc = 60.0;
double time_count = 0;
while (average_cup_temperature < goal_temp)
// while (percentage_temp_reached < goal_perc)
//while (average_cup_temperature < goal_temp)
while (percentage_temp_reached < goal_perc)
//for (int step = 0; step < steps; ++step)
{
vector<double> G(Mdt.Nrows(), 0.0);
@ -119,39 +120,58 @@ int main(int argc, char **argv )
mesh_c.Visualize(uv);
// // ################################## SIMULATION (ii) ##################################
// double u0_coffee = 85.0;
// mesh_c.Init_Solution_mult(uv, 1, [u0_coffee](double x, double y) -> double { return u0_coffee; }); // fluid
// t3 = system_clock::now(); // start timer
// double average_coffee_temperature = u0_coffee;
// output vector for simulation (iii)
ofstream output_file("../solid-cpp/uv_1.txt");
for (double node_value : uv)
{
output_file << node_value << endl;
}
output_file.close();
// time_count = 0;
// while (average_coffee_temperature > 50.0)
// {
// vector<double> G(Mdt.Nrows(), 0.0);
// Mdt.Mult(G, uv); // G = M/dt * u_{n}
// ################################## SIMULATION (ii) ##################################
double u0_coffee = 85.0;
mesh_c.Init_Solution_mult(uv, 1, [u0_coffee](double x, double y) -> double { return u0_coffee; }); // fluid
mesh_c.Visualize(uv);
t3 = system_clock::now(); // start timer
double average_coffee_temperature = u0_coffee;
goal_temp = 50.0;
goal_perc = 60.0;
percentage_temp_reached = mesh_c.CheckTemp_mult(uv, 1, goal_temp);
time_count = 0;
//while (average_coffee_temperature > goal_temp)
while (percentage_temp_reached > goal_perc)
{
vector<double> G(Mdt.Nrows(), 0.0);
Mdt.Mult(G, uv); // G = M/dt * u_{n}
// vector<double> H = fv;
// for (size_t i = 0; i < Mdt.Nrows(); ++i)
// {
// H[i] += G[i]; // H = F + G
// }
vector<double> H = fv;
for (int i = 0; i < Mdt.Nrows(); ++i)
{
H[i] += G[i]; // H = F + G
}
// JacobiSolve(SK, H, uv); // solve: (M/dt + K + C) * u_{n+1} = F + M/dt * u_{n}
// // ----- SK ----- ------ H -------
JacobiSolve(SK, H, uv); // solve: (M/dt + K + C) * u_{n+1} = F + M/dt * u_{n}
// ----- SK ----- ------ H -------
// average_coffee_temperature = mesh_c.AverageVectorFunction_perSubdomain(uv, 1);
// cout << "Average coffee temperature: " << average_coffee_temperature << " after " << time_count << " seconds. " << endl;
// time_count += dt;
// }
// t4 = system_clock::now(); // stop timer
average_coffee_temperature = mesh_c.AverageVectorFunction_perSubdomain(uv, 1);
percentage_temp_reached = mesh_c.CheckTemp_mult(uv, 1, goal_temp);
cout << "Average coffee temperature: " << average_coffee_temperature << " after " << time_count << " seconds. " << endl;
cout << "% of elements above temperature " << goal_temp << "ºC: " << percentage_temp_reached << endl;
time_count += dt;
}
t4 = system_clock::now(); // stop timer
// duration = duration_cast<microseconds>(t4 - t3); // duration in microseconds
// t_diff = static_cast<double>(duration.count()) / 1e6; // overall duration in seconds
// cout << "\n\nJacobiSolve: timing in sec. : " << t_diff << endl;
duration = duration_cast<microseconds>(t4 - t3); // duration in microseconds
t_diff = static_cast<double>(duration.count()) / 1e6; // overall duration in seconds
cout << "\n\nJacobiSolve: timing in sec. : " << t_diff << endl;
mesh_c.Visualize(uv);
return 0;