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lab3/ser_heat2D.c 5.18 KB
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  /****************************************************************************
   * DESCRIPTION:  
   *   Serial HEAT2D Example - C Version
   *   This example is based on a simplified 
   *   two-dimensional heat equation domain decomposition.  The initial 
   *   temperature is computed to be high in the middle of the domain and 
   *   zero at the boundaries.  The boundaries are held at zero throughout 
   *   the simulation.  During the time-stepping, an array containing two 
   *   domains is used; these domains alternate between old data and new data.
   *
   *  The physical region, and the boundary conditions, are suggested
      by this diagram;
  
                     u = 0
               +------------------+
               |                  |
      u = 100  |                  | u = 100
               |                  |
               +------------------+
                     u = 100
  
  Interrior point :
    u[Central] = (1/4) * ( u[North] + u[South] + u[East] + u[West] )
  
   ****************************************************************************/
  #include <stdio.h>
  #include <stdlib.h>
  #include <math.h>
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  #define NN 50
  #define MM 50  
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  #define ITER_PRINT 100
  #define PRINT_DATA 1
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  #define _EPSILON 0.01
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  float update(int nx,int ny, float *u, float *unew);
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  void inidat(int nx, int ny, float *u, float *unew); 
  void prtdat(int nx, int ny, float *u,const char *fnam);
  
  
  
  
  int main(int argc, char *argv[])
  {
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      int N=NN,M=MM;
  
      float EPSILON=_EPSILON;
  
    if(argc !=3)
     {
         fprintf(stderr,"usage %s N EPSILON
   ", argv[0]);
         fprintf(stderr,"\t\twhere N is GRID size, EPSILON is  Tolerance
  "); 
         fprintf(stderr,"\t\texample N = 100, EPSILON = 0.1
  "); 
        return -1;
     } 
  
          N = M = atoi(argv[1]);
          EPSILON = atof(argv[2]);
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      float diff=1.0;
  
      float *u     = (float *)malloc(N * M * sizeof(float));
      float *unew  = (float *)malloc(N * M * sizeof(float));
   
      if(u==0 || unew ==0)
      {
          perror("Can't allocated data
  ");
          return -1;
      }
  
       printf ( "
  " );
       printf ( "HEATED_PLATE
  " );
       printf ( "  Serial version
  " );
       printf ( "  A program to solve for the steady state temperature distribution
  " );
       printf ( "  over a rectangular plate.
  " );
       printf ( "
  " );
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       printf ( "  Spatial grid of %d by %d points.
  ", M, N );
       printf ( "  The iteration will end until tolerance <= %f
  
  ",EPSILON);
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      /* Initialize grid and create input file */
      printf("Initializing grid
  ");
      
      inidat(N, M,u,unew);
  
      prtdat(N, M,u, "initial.dat");
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      printf("Start computing
  
  ");
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      int iter=0;
  
      /* 
       *   iterate until the  new solution unew differs from the old solution u
       *     by no more than EPSILON.
       *     */
       
      while(diff> EPSILON) {
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         diff= update(N, M, u, unew);
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          if(iter%ITER_PRINT==0)
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              printf("Iteration %d, diff = %f
   ", iter,diff);
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          iter++;
      }
  
      prtdat(N, M, u, "final.dat");
       
      free(u);
      free(unew);
  }
  
  
  
  /****************************************************************************
   *  subroutine update
   ****************************************************************************/
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  float update(int nx,int ny, float *u, float *unew)
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  {
      int ix, iy;
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      float diff=0.0;
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      for (ix = 1; ix < nx-1; ix++) {
          for (iy = 1; iy < ny-1; iy++) {
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              unew[ix*ny+iy] = (u[(ix+1)*ny+iy] +  u[(ix-1)*ny+iy] + u[ix*ny+iy+1] +  u[ix*ny+iy-1] )/4.0
                  ;
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              if (diff < fabs (unew[ix*ny+iy] - u[ix*ny+iy] ))
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              {
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                  diff = fabs ( unew[ix*ny+iy] - u[ix*ny+iy] );
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              }
          }
  
      }
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      /**
       * COPY OLD DATA
       */
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      for (ix = 1; ix < nx-1; ix++) {
          for (iy = 1; iy < ny-1; iy++) {
              u[ix*ny+iy] = unew[ix*ny+iy]; 
          }
      }   
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      return diff;
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  }
  
  /*****************************************************************************
   *  Initialize Data
   *****************************************************************************/
  void inidat(int nx, int ny, float *u, float *unew) 
  {
      int ix, iy;
  
      /*
       *Set boundary data and interrior values
       * */
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      // interior points
      for (ix = 1; ix < nx-1; ix++) 
          for (iy = 1; iy < ny-1; iy++) { 
              u[ix*ny+iy]=5.0; 
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          }
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     //boundary left
      for (ix = 1; ix < nx-1; ix++){ 
          u[ix*ny]=100.0; 
  
      }
  
      //boundary right
      for (ix = 1; ix < nx-1; ix++){ 
          u[ix*ny+ (ny-1)]=100.0; 
  
      }
  
      //boundary down
       for (iy = 0; iy < ny; iy++){ 
          u[(nx-1)*(ny)+iy]=100.0; 
  
      }
  
      //boundary top
       for (iy = 0; iy < ny; iy++){ 
          u[iy]=0.0; 
  
      }
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  }
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  /**************************************************************************
   * Print Data to files
   **************************************************************************/
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  void prtdat(int nx, int ny, float *u,const char *fname)
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  {
   
      int ix, iy;
      FILE *fp;
  
      if(ITER_PRINT==0)return;
      
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      fp = fopen(fname, "w");
  
     // fprintf ( fp, "%d
  ", M );
     // fprintf ( fp, "%d
  ", N );
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      for (ix = 0 ; ix < nx; ix++) {
          for (iy =0; iy < ny; iy++) {
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              fprintf(fp, "%6.2f ", u[ix*ny+iy]);
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          }
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            fputc ( '
  ', fp);
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      }
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       printf ("  Data written to the output file %s
  ", fname);
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      fclose(fp);
  }