int iter = 0;
int adaptive_cooling = ctrl->adaptive_cooling;
QuadTree qt = NULL;
- double counts_avg = 0;
double *force;
#ifdef TIME
clock_t start, end, start0, start2;
if (qt) {
QuadTree_delete(qt);
- counts_avg /= n;
#ifdef TIME
qtree_cpu0 = qtree_cpu - qtree_cpu0;
if (Verbose && 0) fprintf(stderr, "\n cpu this outer iter = %f, quadtree time = %f other time = %f\n",((double) (clock() - start2)) / CLOCKS_PER_SEC, qtree_cpu0,((double) (clock() - start2))/CLOCKS_PER_SEC - qtree_cpu0);
qtree_cpu0 = qtree_cpu;
#endif
- if (Verbose && 0) fprintf(stderr, "nsuper_avg=0, counts_avg = %f 2*nsuper+counts=%f\n",counts_avg, counts_avg);
- oned_optimizer_train(qtree_level_optimizer, counts_avg);
+ if (Verbose && 0) fprintf(stderr, "nsuper_avg=0, counts_avg = 0 2*nsuper+counts=0\n");
+ oned_optimizer_train(qtree_level_optimizer, 0);
}
#ifdef ENERGY