Prototype generic nas model (cont.).
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D-X-Y
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@ -2,7 +2,7 @@
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"scheduler": ["str", "cos"],
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"LR" : ["float", "0.025"],
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"eta_min" : ["float", "0.001"],
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"epochs" : ["int", "250"],
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"epochs" : ["int", "150"],
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"warmup" : ["int", "0"],
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"optim" : ["str", "SGD"],
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"decay" : ["float", "0.0005"],
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@ -2,7 +2,7 @@
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# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2020 #
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######################################################################################
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# python ./exps/algos-v2/search-cell.py --dataset cifar10 --data_path $TORCH_HOME/cifar.python --algo darts-v1 --rand_seed 1
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# python ./exps/algos-v2/search-cell.py --dataset cifar100 --data_path $TORCH_HOME/cifar.python --algo darts-v1
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# python ./exps/algos-v2/search-cell.py --dataset cifar100 --data_path $TORCH_HOME/cifar.python --algo darts-v1 --drop_path_rate 0.3
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# python ./exps/algos-v2/search-cell.py --dataset ImageNet16-120 --data_path $TORCH_HOME/cifar.python/ImageNet16 --algo darts-v1
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####
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# python ./exps/algos-v2/search-cell.py --dataset cifar10 --data_path $TORCH_HOME/cifar.python --algo darts-v2 --rand_seed 1
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@ -30,6 +30,73 @@ from models import get_cell_based_tiny_net, get_search_spaces
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from nas_201_api import NASBench201API as API
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# The following three functions are used for DARTS-V2
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def _concat(xs):
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return torch.cat([x.view(-1) for x in xs])
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def _hessian_vector_product(vector, network, criterion, base_inputs, base_targets, r=1e-2):
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R = r / _concat(vector).norm()
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for p, v in zip(network.weights, vector):
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p.data.add_(R, v)
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_, logits = network(base_inputs)
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loss = criterion(logits, base_targets)
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grads_p = torch.autograd.grad(loss, network.alphas)
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for p, v in zip(network.weights, vector):
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p.data.sub_(2*R, v)
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_, logits = network(base_inputs)
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loss = criterion(logits, base_targets)
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grads_n = torch.autograd.grad(loss, network.alphas)
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for p, v in zip(network.weights, vector):
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p.data.add_(R, v)
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return [(x-y).div_(2*R) for x, y in zip(grads_p, grads_n)]
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def backward_step_unrolled(network, criterion, base_inputs, base_targets, w_optimizer, arch_inputs, arch_targets):
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# _compute_unrolled_model
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_, logits = network(base_inputs)
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loss = criterion(logits, base_targets)
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LR, WD, momentum = w_optimizer.param_groups[0]['lr'], w_optimizer.param_groups[0]['weight_decay'], w_optimizer.param_groups[0]['momentum']
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with torch.no_grad():
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theta = _concat(network.weights)
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try:
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moment = _concat(w_optimizer.state[v]['momentum_buffer'] for v in network.weights)
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moment = moment.mul_(momentum)
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except:
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moment = torch.zeros_like(theta)
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dtheta = _concat(torch.autograd.grad(loss, network.weights)) + WD*theta
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params = theta.sub(LR, moment+dtheta)
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unrolled_model = deepcopy(network)
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model_dict = unrolled_model.state_dict()
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new_params, offset = {}, 0
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for k, v in network.named_parameters():
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if 'arch_parameters' in k: continue
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v_length = np.prod(v.size())
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new_params[k] = params[offset: offset+v_length].view(v.size())
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offset += v_length
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model_dict.update(new_params)
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unrolled_model.load_state_dict(model_dict)
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unrolled_model.zero_grad()
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_, unrolled_logits = unrolled_model(arch_inputs)
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unrolled_loss = criterion(unrolled_logits, arch_targets)
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unrolled_loss.backward()
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dalpha = unrolled_model.arch_parameters.grad
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vector = [v.grad.data for v in unrolled_model.weights]
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[implicit_grads] = _hessian_vector_product(vector, network, criterion, base_inputs, base_targets)
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dalpha.data.sub_(LR, implicit_grads.data)
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if network.arch_parameters.grad is None:
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network.arch_parameters.grad = deepcopy( dalpha )
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else:
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network.arch_parameters.grad.data.copy_( dalpha.data )
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return unrolled_loss.detach(), unrolled_logits.detach()
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def search_func(xloader, network, criterion, scheduler, w_optimizer, a_optimizer, epoch_str, print_freq, algo, logger):
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data_time, batch_time = AverageMeter(), AverageMeter()
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base_losses, base_top1, base_top5 = AverageMeter(), AverageMeter(), AverageMeter()
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@ -81,9 +148,12 @@ def search_func(xloader, network, criterion, scheduler, w_optimizer, a_optimizer
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else:
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raise ValueError('Invalid algo name : {:}'.format(algo))
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network.zero_grad()
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_, logits = network(arch_inputs)
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arch_loss = criterion(logits, arch_targets)
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arch_loss.backward()
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if algo == 'darts-v2':
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arch_loss, logits = backward_step_unrolled(network, criterion, base_inputs, base_targets, w_optimizer, arch_inputs, arch_targets)
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else:
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_, logits = network(arch_inputs)
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arch_loss = criterion(logits, arch_targets)
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arch_loss.backward()
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a_optimizer.step()
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# record
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arch_prec1, arch_prec5 = obtain_accuracy(logits.data, arch_targets.data, topk=(1, 5))
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@ -192,7 +262,10 @@ def main(xargs):
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params = count_parameters_in_MB(search_model)
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logger.log('The parameters of the search model = {:.2f} MB'.format(params))
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logger.log('search-space : {:}'.format(search_space))
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api = API()
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try:
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api = API()
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except:
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api = None
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logger.log('{:} create API = {:} done'.format(time_string(), api))
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last_info, model_base_path, model_best_path = logger.path('info'), logger.path('model'), logger.path('best')
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@ -224,6 +297,7 @@ def main(xargs):
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epoch_str = '{:03d}-{:03d}'.format(epoch, total_epoch)
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logger.log('\n[Search the {:}-th epoch] {:}, LR={:}'.format(epoch_str, need_time, min(w_scheduler.get_lr())))
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network.set_drop_path(float(epoch+1) / total_epoch, xargs.drop_path_rate)
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search_w_loss, search_w_top1, search_w_top5, search_a_loss, search_a_top1, search_a_top5 \
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= search_func(search_loader, network, criterion, w_scheduler, w_optimizer, a_optimizer, epoch_str, xargs.print_freq, xargs.algo, logger)
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search_time.update(time.time() - start_time)
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@ -314,6 +388,7 @@ if __name__ == '__main__':
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# architecture leraning rate
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parser.add_argument('--arch_learning_rate', type=float, default=3e-4, help='learning rate for arch encoding')
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parser.add_argument('--arch_weight_decay', type=float, default=1e-3, help='weight decay for arch encoding')
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parser.add_argument('--drop_path_rate' , type=float, help='The drop path rate.')
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# log
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parser.add_argument('--workers', type=int, default=2, help='number of data loading workers (default: 2)')
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parser.add_argument('--save_dir', type=str, default='./output/search', help='Folder to save checkpoints and log.')
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@ -67,6 +67,14 @@ class GenericNAS201Model(nn.Module):
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if mode == 'dynamic': self.dynamic_cell = deepcopy(dynamic_cell)
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else : self.dynamic_cell = None
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def set_drop_path(self, progress, drop_path_rate):
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if drop_path_rate is None:
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self._drop_path = None
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elif progress is None:
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self._drop_path = drop_path_rate
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else:
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self._drop_path = progress * drop_path_rate
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@property
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def mode(self):
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return self._mode
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@ -210,6 +218,8 @@ class GenericNAS201Model(nn.Module):
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feature = cell.forward_gdas(feature, alphas, index)
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else: raise ValueError('invalid mode={:}'.format(self.mode))
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else: feature = cell(feature)
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if self.drop_path is not None:
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feature = drop_path(feature, self.drop_path)
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out = self.lastact(feature)
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out = self.global_pooling(out)
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out = out.view(out.size(0), -1)
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