X-Git-Url: https://www.fleuret.org/cgi-bin/gitweb/gitweb.cgi?p=pysvrt.git;a=blobdiff_plain;f=cnn-svrt.py;h=694f035edde45339823fef4e1671ec241e0a00e2;hp=a2ab1a31ce7dfc903b1b2a342b5d888f6c188045;hb=abbbb61852f54e90df6ac5b5f4dcb71d06f88f49;hpb=c8bc2db12cddbf90b851798cd101632e7e9511ba diff --git a/cnn-svrt.py b/cnn-svrt.py index a2ab1a3..694f035 100755 --- a/cnn-svrt.py +++ b/cnn-svrt.py @@ -27,6 +27,8 @@ import math from colorama import Fore, Back, Style +# Pytorch + import torch from torch import optim @@ -36,6 +38,8 @@ from torch import nn from torch.nn import functional as fn from torchvision import datasets, transforms, utils +# SVRT + from vignette_set import VignetteSet, CompressedVignetteSet ###################################################################### @@ -163,51 +167,75 @@ def nb_errors(model, data_set): for arg in vars(args): log_string('argument ' + str(arg) + ' ' + str(getattr(args, arg))) +###################################################################### + for problem_number in range(1, 24): - if args.compress_vignettes: - train_set = CompressedVignetteSet(problem_number, args.nb_train_batches, args.batch_size) - test_set = CompressedVignetteSet(problem_number, args.nb_test_batches, args.batch_size) - else: - train_set = VignetteSet(problem_number, args.nb_train_batches, args.batch_size) - test_set = VignetteSet(problem_number, args.nb_test_batches, args.batch_size) model = AfrozeShallowNet() if torch.cuda.is_available(): model.cuda() + model_filename = model.name + '_' + \ + str(problem_number) + '_' + \ + str(args.nb_train_batches) + '.param' + nb_parameters = 0 - for p in model.parameters(): - nb_parameters += p.numel() + for p in model.parameters(): nb_parameters += p.numel() log_string('nb_parameters {:d}'.format(nb_parameters)) - model_filename = model.name + '_' + str(problem_number) + '_' + str(train_set.nb_batches) + '.param' - + need_to_train = False try: model.load_state_dict(torch.load(model_filename)) log_string('loaded_model ' + model_filename) except: - log_string('training_model') + need_to_train = True + + if need_to_train: + + log_string('training_model ' + model_filename) + + t = time.time() + + if args.compress_vignettes: + train_set = CompressedVignetteSet(problem_number, + args.nb_train_batches, args.batch_size, + cuda=torch.cuda.is_available()) + test_set = CompressedVignetteSet(problem_number, + args.nb_test_batches, args.batch_size, + cuda=torch.cuda.is_available()) + else: + train_set = VignetteSet(problem_number, + args.nb_train_batches, args.batch_size, + cuda=torch.cuda.is_available()) + test_set = VignetteSet(problem_number, + args.nb_test_batches, args.batch_size, + cuda=torch.cuda.is_available()) + + log_string('data_generation {:0.2f} samples / s'.format( + (train_set.nb_samples + test_set.nb_samples) / (time.time() - t)) + ) + train_model(model, train_set) torch.save(model.state_dict(), model_filename) log_string('saved_model ' + model_filename) - nb_train_errors = nb_errors(model, train_set) + nb_train_errors = nb_errors(model, train_set) - log_string('train_error {:d} {:.02f}% {:d} {:d}'.format( - problem_number, - 100 * nb_train_errors / train_set.nb_samples, - nb_train_errors, - train_set.nb_samples) - ) + log_string('train_error {:d} {:.02f}% {:d} {:d}'.format( + problem_number, + 100 * nb_train_errors / train_set.nb_samples, + nb_train_errors, + train_set.nb_samples) + ) - nb_test_errors = nb_errors(model, test_set) + nb_test_errors = nb_errors(model, test_set) - log_string('test_error {:d} {:.02f}% {:d} {:d}'.format( - problem_number, - 100 * nb_test_errors / test_set.nb_samples, - nb_test_errors, - test_set.nb_samples) - ) + log_string('test_error {:d} {:.02f}% {:d} {:d}'.format( + problem_number, + 100 * nb_test_errors / test_set.nb_samples, + nb_test_errors, + test_set.nb_samples) + ) ######################################################################