Efficiency-of-Neural-Archit.../main_bayesian.py

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from __future__ import print_function
import os
import data
import utils
import torch
import pickle
import metrics
import numpy as np
from datetime import datetime
from torch.nn import functional as F
from torch.optim import Adam, lr_scheduler
from gpu_power_func import total_watt_consumed
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from models.BayesianModels.BayesianLeNet import BBBLeNet
from models.BayesianModels.BayesianAlexNet import BBBAlexNet
from models.BayesianModels.Bayesian3Conv3FC import BBB3Conv3FC
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from stopping_crit import earlyStopping, energyBound, accuracyBound
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with (open("configuration.pkl", "rb")) as file:
while True:
try:
cfg = pickle.load(file)
except EOFError:
break
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# CUDA settings
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device = torch.device("cuda:1" if torch.cuda.is_available() else "cpu")
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def getModel(net_type, inputs, outputs, priors, layer_type, activation_type):
if (net_type == 'lenet'):
return BBBLeNet(outputs, inputs, priors, layer_type, activation_type,wide=cfg["model"]["size"])
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elif (net_type == 'alexnet'):
return BBBAlexNet(outputs, inputs, priors, layer_type, activation_type)
elif (net_type == '3conv3fc'):
return BBB3Conv3FC(outputs, inputs, priors, layer_type, activation_type)
else:
raise ValueError('Network should be either [LeNet / AlexNet / 3Conv3FC')
def train_model(net, optimizer, criterion, trainloader, num_ens=1, beta_type=0.1, epoch=None, num_epochs=None):
net.train()
training_loss = 0.0
accs = []
kl_list = []
for i, (inputs, labels) in enumerate(trainloader, 1):
optimizer.zero_grad()
inputs, labels = inputs.to(device), labels.to(device)
outputs = torch.zeros(inputs.shape[0], net.num_classes, num_ens).to(device)
kl = 0.0
for j in range(num_ens):
net_out, _kl = net(inputs)
kl += _kl
outputs[:, :, j] = F.log_softmax(net_out, dim=1)
kl = kl / num_ens
kl_list.append(kl.item())
log_outputs = utils.logmeanexp(outputs, dim=2)
beta = metrics.get_beta(i-1, len(trainloader), beta_type, epoch, num_epochs)
loss = criterion(log_outputs, labels, kl, beta)
loss.backward()
optimizer.step()
accs.append(metrics.acc(log_outputs.data, labels))
training_loss += loss.cpu().data.numpy()
return training_loss/len(trainloader), np.mean(accs), np.mean(kl_list)
def validate_model(net, criterion, validloader, num_ens=1, beta_type=0.1, epoch=None, num_epochs=None):
"""Calculate ensemble accuracy and NLL Loss"""
net.train()
valid_loss = 0.0
accs = []
for i, (inputs, labels) in enumerate(validloader):
inputs, labels = inputs.to(device), labels.to(device)
outputs = torch.zeros(inputs.shape[0], net.num_classes, num_ens).to(device)
kl = 0.0
for j in range(num_ens):
net_out, _kl = net(inputs)
kl += _kl
outputs[:, :, j] = F.log_softmax(net_out, dim=1).data
log_outputs = utils.logmeanexp(outputs, dim=2)
beta = metrics.get_beta(i-1, len(validloader), beta_type, epoch, num_epochs)
valid_loss += criterion(log_outputs, labels, kl, beta).item()
accs.append(metrics.acc(log_outputs, labels))
return valid_loss/len(validloader), np.mean(accs)
def run(dataset, net_type):
# Hyper Parameter settings
layer_type = cfg["model"]["layer_type"]
activation_type = cfg["model"]["activation_type"]
priors = cfg["model"]["priors"]
train_ens = cfg["model"]["train_ens"]
valid_ens = cfg["model"]["valid_ens"]
n_epochs = cfg["model"]["n_epochs"]
lr_start = cfg["model"]["lr"]
num_workers = cfg["model"]["num_workers"]
valid_size = cfg["model"]["valid_size"]
batch_size = cfg["model"]["batch_size"]
beta_type = cfg["model"]["beta_type"]
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trainset, testset, inputs, outputs = data.getDataset(dataset)
train_loader, valid_loader, test_loader = data.getDataloader(
trainset, testset, valid_size, batch_size, num_workers)
net = getModel(net_type, inputs, outputs, priors, layer_type, activation_type).to(device)
ckpt_dir = f'checkpoints/{dataset}/bayesian'
ckpt_name = f'checkpoints/{dataset}/bayesian/model_{net_type}_{layer_type}_{activation_type}_{cfg["model"]["size"]}.pt'
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if not os.path.exists(ckpt_dir):
os.makedirs(ckpt_dir, exist_ok=True)
stp = cfg["stopping_crit"]
sav = cfg["save"]
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criterion = metrics.ELBO(len(trainset)).to(device)
optimizer = Adam(net.parameters(), lr=lr_start)
lr_sched = lr_scheduler.ReduceLROnPlateau(optimizer, patience=6, verbose=True)
#valid_loss_max = np.Inf
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#if stp == 2:
early_stop = []
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train_data = []
for epoch in range(n_epochs): # loop over the dataset multiple times
train_loss, train_acc, train_kl = train_model(net, optimizer, criterion, train_loader, num_ens=train_ens, beta_type=beta_type, epoch=epoch, num_epochs=n_epochs)
valid_loss, valid_acc = validate_model(net, criterion, valid_loader, num_ens=valid_ens, beta_type=beta_type, epoch=epoch, num_epochs=n_epochs)
lr_sched.step(valid_loss)
train_data.append([epoch,train_loss,train_acc,valid_loss,valid_acc])
print('Epoch: {} \tTraining Loss: {:.4f} \tTraining Accuracy: {:.4f} \tValidation Loss: {:.4f} \tValidation Accuracy: {:.4f} \ttrain_kl_div: {:.4f}'.format(
epoch, train_loss, train_acc, valid_loss, valid_acc, train_kl))
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if stp == 2:
print('Using early stopping')
if earlyStopping(early_stop,valid_acc,epoch,cfg["model"]["sens"]) == 1:
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break
elif stp == 3:
print('Using energy bound')
if energyBound(cfg["model"]["energy_thrs"]) == 1:
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break
elif stp == 4:
print('Using accuracy bound')
if accuracyBound(train_acc,cfg.acc_thrs) == 1:
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break
else:
print('Training for {} epochs'.format(cfg["model"]["n_epochs"]))
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if sav == 1:
# save model when finished
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if epoch == cfg.n_epochs-1:
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torch.save(net.state_dict(), ckpt_name)
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with open("bayes_exp_data_"+str(cfg["model"]["size"])+".pkl", 'wb') as f:
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pickle.dump(train_data, f)
if __name__ == '__main__':
now = datetime.now()
current_time = now.strftime("%H:%M:%S")
print("Initial Time =", current_time)
run(cfg["data"], cfg["model"]["net_type"])
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now = datetime.now()
current_time = now.strftime("%H:%M:%S")
print("Final Time =", current_time)