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       /* Simple SillySum function in C and OpenACC/C */
       /* compilation with sequential compute : gcc -O3 -fopenacc -foffload=nvptx-none -foffload="-O3 -misa=sm_35 -lm" -o MySteps_6_openacc MySteps_6_openacc.c -lm */
       /* compilation without sequential compute : gcc -DNOSERIAL -O3 -fopenacc -foffload=nvptx-none -foffload="-O3 -misa=sm_35 -lm" -o MySteps_6_openacc_NoSerial MySteps_6_openacc.c -lm */
       #include <math.h>
       #include <stdio.h>
       #include <stdlib.h>
       #include <sys/time.h>
       #define PI 3.141592653589793
       #define MYFLOAT float
       #pragma acc routine
       MYFLOAT MySillyFunction(MYFLOAT x)
+      {
           return(pow(sqrt(log(exp(atanh(tanh(asinh(sinh(acosh(cosh(atan(tan(asin(sin(acos(cos(x))))))))))))))),2));
+      }
       void MySillySum(MYFLOAT *res, MYFLOAT *a, MYFLOAT *b,int calls, int size)
+      {
         for (uint i=0; i<size;i++)
+          {
             MYFLOAT ai=a[i];
             MYFLOAT bi=b[i];
             for (int c=0;c<calls;c++)
+              {
                 ai=MySillyFunction(ai);
                 bi=MySillyFunction(bi);
+              }
             res[i] = ai + bi;
+          }
+      }
       void MySillySumOpenACC(MYFLOAT *res, MYFLOAT *a, MYFLOAT *b,int calls, int size)
+      {
         #pragma acc data copyin(a[0:size],b[0:size]),copyout(res[0:size])
         #pragma acc parallel loop
         for (uint i=0; i<size;i++)
+          {
             MYFLOAT ai=a[i];
             MYFLOAT bi=b[i];
             for (int c=0;c<calls;c++)
+              {
                 ai=MySillyFunction(ai);
                 bi=MySillyFunction(bi);
+              }
             res[i] = ai + bi;
+          }
+      }
       MYFLOAT MyNorm(MYFLOAT *a,MYFLOAT *b,int size)
+      {
         MYFLOAT norm=0.;
         for (int i=0;i<size;i++)
+          {
             norm+=pow(a[i]-b[i],2);
+          }
         return(sqrt(norm));
+      }
       void MyPrint(MYFLOAT *a,int size)
+      {
         printf("[");
         for (int i=0;i<size;i++)
+          {
             printf(" %.8e ",a[i]);
+          }
         printf("]\n");
+      }
       int main(int argc,char *argv[])
+      {
         float *a,*b,*res,*resacc;
         int size=1024;
         int calls=1;
         struct timeval tv1,tv2;
         if (argc > 1) {
           size=(int)atoll(argv[1]);
           calls=(int)atoll(argv[2]);
+        }
         else {
           printf("\n\tPi : Estimate SillySum\n\n\t\t#1 : size (default 1024)\n\t\t#2 : calls (default 1)\n\n");
+        }
         printf("%i %i\n",size,calls);
         a=(float*)malloc(size*sizeof(MYFLOAT));
         b=(float*)malloc(size*sizeof(MYFLOAT));
         res=(float*)malloc(size*sizeof(MYFLOAT));
         resacc=(float*)malloc(size*sizeof(MYFLOAT));
         srand(110271);
         for (int i=0;i<size;i++)
+          {
             a[i]=(MYFLOAT)rand()/(MYFLOAT)RAND_MAX;
             b[i]=(MYFLOAT)rand()/(MYFLOAT)RAND_MAX;
             res[i]=0.;
             resacc[i]=0.;
+          }
       #ifndef NOSERIAL
         gettimeofday(&tv1, NULL);
         MySillySum(res,a,b,calls,size);
         gettimeofday(&tv2, NULL);
       #endif
         MYFLOAT elapsed=(MYFLOAT)((tv2.tv_sec-tv1.tv_sec) * 1000000L +
                                   (tv2.tv_usec-tv1.tv_usec))/1000000;
         gettimeofday(&tv1, NULL);
         MySillySumOpenACC(resacc,a,b,calls,size);
         gettimeofday(&tv2, NULL);
         MYFLOAT elapsedAcc=(MYFLOAT)((tv2.tv_sec-tv1.tv_sec) * 1000000L +
                                      (tv2.tv_usec-tv1.tv_usec))/1000000;
       #ifndef NOSERIAL
         MYFLOAT MyChecker=MyNorm(res,resacc,size);
         printf("Norm: %.8e\n",MyChecker);
       #endif
       #ifdef VERBOSE
         MyPrint(res,size);
         MyPrint(resacc,size);
       #endif
       #ifndef NOSERIAL
         printf("Elapsed Time: %.3f\n",elapsed);
         printf("OpenACC Elapsed Time: %.3f\n",elapsedAcc);
       #endif
       #ifndef NOSERIAL
         printf("NativeRate: %.lld\n",(unsigned long)((float)size/elapsed));
       #endif
         printf("OpenACCRate: %.lld\n",(unsigned long)((float)size/elapsedAcc));
       #ifndef NOSERIAL
         printf("ACCRatio: %.3f\n",elapsed/elapsedAcc);
       #endif
         free(a);
         free(b);
         free(res);
         free(resacc);
+      }

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