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main.py
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main.py
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# -*- coding:utf-8 -*-
import time
import json
import argparse
import numpy as np
import mxnet as mx
from utils import (construct_model, generate_data,
masked_mae_np, masked_mape_np, masked_mse_np)
parser = argparse.ArgumentParser()
parser.add_argument("--config", type=str, help='configuration file')
parser.add_argument("--test", action="store_true", help="test program")
parser.add_argument("--plot", help="plot network graph", action="store_true")
parser.add_argument("--save", action="store_true", help="save model")
args = parser.parse_args()
config_filename = args.config
with open(config_filename, 'r') as f:
config = json.loads(f.read())
print(json.dumps(config, sort_keys=True, indent=4))
net = construct_model(config)
batch_size = config['batch_size']
num_of_vertices = config['num_of_vertices']
graph_signal_matrix_filename = config['graph_signal_matrix_filename']
if isinstance(config['ctx'], list):
ctx = [mx.gpu(i) for i in config['ctx']]
elif isinstance(config['ctx'], int):
ctx = mx.gpu(config['ctx'])
loaders = []
true_values = []
for idx, (x, y) in enumerate(generate_data(graph_signal_matrix_filename)):
if args.test:
x = x[: 100]
y = y[: 100]
y = y.squeeze(axis=-1)
print(x.shape, y.shape)
loaders.append(
mx.io.NDArrayIter(
x, y if idx == 0 else None,
batch_size=batch_size,
shuffle=(idx == 0),
label_name='label'
)
)
if idx == 0:
training_samples = x.shape[0]
else:
true_values.append(y)
train_loader, val_loader, test_loader = loaders
val_y, test_y = true_values
global_epoch = 1
global_train_steps = training_samples // batch_size + 1
all_info = []
epochs = config['epochs']
mod = mx.mod.Module(
net,
data_names=['data'],
label_names=['label'],
context=ctx
)
mod.bind(
data_shapes=[(
'data',
(batch_size, config['points_per_hour'], num_of_vertices, 1)
), ],
label_shapes=[(
'label',
(batch_size, config['points_per_hour'], num_of_vertices)
)]
)
mod.init_params(initializer=mx.init.Xavier(magnitude=0.0003))
lr_sch = mx.lr_scheduler.PolyScheduler(
max_update=global_train_steps * epochs * config['max_update_factor'],
base_lr=config['learning_rate'],
pwr=2,
warmup_steps=global_train_steps
)
mod.init_optimizer(
optimizer=config['optimizer'],
optimizer_params=(('lr_scheduler', lr_sch),)
)
num_of_parameters = 0
for param_name, param_value in mod.get_params()[0].items():
# print(param_name, param_value.shape)
num_of_parameters += np.prod(param_value.shape)
print("Number of Parameters: {}".format(num_of_parameters), flush=True)
metric = mx.metric.create(['RMSE', 'MAE'], output_names=['pred_output'])
if args.plot:
graph = mx.viz.plot_network(net)
graph.format = 'png'
graph.render('graph')
def training(epochs):
global global_epoch
lowest_val_loss = 1e6
for _ in range(epochs):
t = time.time()
info = [global_epoch]
train_loader.reset()
metric.reset()
for idx, databatch in enumerate(train_loader):
mod.forward_backward(databatch)
mod.update_metric(metric, databatch.label)
mod.update()
metric_values = dict(zip(*metric.get()))
print('training: Epoch: %s, RMSE: %.2f, MAE: %.2f, time: %.2f s' % (
global_epoch, metric_values['rmse'], metric_values['mae'],
time.time() - t), flush=True)
info.append(metric_values['mae'])
val_loader.reset()
prediction = mod.predict(val_loader)[1].asnumpy()
loss = masked_mae_np(val_y, prediction, 0)
print('validation: Epoch: %s, loss: %.2f, time: %.2f s' % (
global_epoch, loss, time.time() - t), flush=True)
info.append(loss)
if loss < lowest_val_loss:
test_loader.reset()
prediction = mod.predict(test_loader)[1].asnumpy()
tmp_info = []
for idx in range(config['num_for_predict']):
y, x = test_y[:, : idx + 1, :], prediction[:, : idx + 1, :]
tmp_info.append((
masked_mae_np(y, x, 0),
masked_mape_np(y, x, 0),
masked_mse_np(y, x, 0) ** 0.5
))
mae, mape, rmse = tmp_info[-1]
print('test: Epoch: {}, MAE: {:.2f}, MAPE: {:.2f}, RMSE: {:.2f}, '
'time: {:.2f}s'.format(
global_epoch, mae, mape, rmse, time.time() - t))
print(flush=True)
info.extend((mae, mape, rmse))
info.append(tmp_info)
all_info.append(info)
lowest_val_loss = loss
global_epoch += 1
if args.test:
epochs = 5
training(epochs)
the_best = min(all_info, key=lambda x: x[2])
print('step: {}\ntraining loss: {:.2f}\nvalidation loss: {:.2f}\n'
'tesing: MAE: {:.2f}\ntesting: MAPE: {:.2f}\n'
'testing: RMSE: {:.2f}\n'.format(*the_best))
print(the_best)
if args.save:
mod.save_checkpoint('STSGCN', epochs)