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Add int search space

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This commit is contained in:
D-X-Y
2021-03-18 16:02:55 +08:00
parent ece6ac5f41
commit 63c8bb9bc8
67 changed files with 5150 additions and 1474 deletions
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122
exps/algos/RANDOM-NAS.py
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@@ -15,19 +15,29 @@ if str(lib_dir) not in sys.path:
sys.path.insert(0, str(lib_dir))
from config_utils import load_config, dict2config, configure2str
from datasets import get_datasets, get_nas_search_loaders
from procedures import prepare_seed, prepare_logger, save_checkpoint, copy_checkpoint, get_optim_scheduler
from procedures import (
prepare_seed,
prepare_logger,
save_checkpoint,
copy_checkpoint,
get_optim_scheduler,
)
from utils import get_model_infos, obtain_accuracy
from log_utils import AverageMeter, time_string, convert_secs2time
from models import get_cell_based_tiny_net, get_search_spaces
from nas_201_api import NASBench201API as API
def search_func(xloader, network, criterion, scheduler, w_optimizer, epoch_str, print_freq, logger):
def search_func(
xloader, network, criterion, scheduler, w_optimizer, epoch_str, print_freq, logger
):
data_time, batch_time = AverageMeter(), AverageMeter()
base_losses, base_top1, base_top5 = AverageMeter(), AverageMeter(), AverageMeter()
network.train()
end = time.time()
for step, (base_inputs, base_targets, arch_inputs, arch_targets) in enumerate(xloader):
for step, (base_inputs, base_targets, arch_inputs, arch_targets) in enumerate(
xloader
):
scheduler.update(None, 1.0 * step / len(xloader))
base_targets = base_targets.cuda(non_blocking=True)
arch_targets = arch_targets.cuda(non_blocking=True)
@@ -43,7 +53,9 @@ def search_func(xloader, network, criterion, scheduler, w_optimizer, epoch_str,
nn.utils.clip_grad_norm_(network.parameters(), 5)
w_optimizer.step()
# record
base_prec1, base_prec5 = obtain_accuracy(logits.data, base_targets.data, topk=(1, 5))
base_prec1, base_prec5 = obtain_accuracy(
logits.data, base_targets.data, topk=(1, 5)
)
base_losses.update(base_loss.item(), base_inputs.size(0))
base_top1.update(base_prec1.item(), base_inputs.size(0))
base_top5.update(base_prec5.item(), base_inputs.size(0))
@@ -53,7 +65,11 @@ def search_func(xloader, network, criterion, scheduler, w_optimizer, epoch_str,
end = time.time()
if step % print_freq == 0 or step + 1 == len(xloader):
Sstr = "*SEARCH* " + time_string() + " [{:}][{:03d}/{:03d}]".format(epoch_str, step, len(xloader))
Sstr = (
"*SEARCH* "
+ time_string()
+ " [{:}][{:03d}/{:03d}]".format(epoch_str, step, len(xloader))
)
Tstr = "Time {batch_time.val:.2f} ({batch_time.avg:.2f}) Data {data_time.val:.2f} ({data_time.avg:.2f})".format(
batch_time=batch_time, data_time=data_time
)
@@ -80,7 +96,9 @@ def valid_func(xloader, network, criterion):
_, logits = network(arch_inputs)
arch_loss = criterion(logits, arch_targets)
# record
arch_prec1, arch_prec5 = obtain_accuracy(logits.data, arch_targets.data, topk=(1, 5))
arch_prec1, arch_prec5 = obtain_accuracy(
logits.data, arch_targets.data, topk=(1, 5)
)
arch_losses.update(arch_loss.item(), arch_inputs.size(0))
arch_top1.update(arch_prec1.item(), arch_inputs.size(0))
arch_top5.update(arch_prec5.item(), arch_inputs.size(0))
@@ -105,7 +123,9 @@ def search_find_best(xloader, network, n_samples):
inputs, targets = next(loader_iter)
_, logits = network(inputs)
val_top1, val_top5 = obtain_accuracy(logits.cpu().data, targets.data, topk=(1, 5))
val_top1, val_top5 = obtain_accuracy(
logits.cpu().data, targets.data, topk=(1, 5)
)
archs.append(arch)
valid_accs.append(val_top1.item())
@@ -124,8 +144,12 @@ def main(xargs):
prepare_seed(xargs.rand_seed)
logger = prepare_logger(args)
train_data, valid_data, xshape, class_num = get_datasets(xargs.dataset, xargs.data_path, -1)
config = load_config(xargs.config_path, {"class_num": class_num, "xshape": xshape}, logger)
train_data, valid_data, xshape, class_num = get_datasets(
xargs.dataset, xargs.data_path, -1
)
config = load_config(
xargs.config_path, {"class_num": class_num, "xshape": xshape}, logger
)
search_loader, _, valid_loader = get_nas_search_loaders(
train_data,
valid_data,
@@ -157,7 +181,9 @@ def main(xargs):
)
search_model = get_cell_based_tiny_net(model_config)
w_optimizer, w_scheduler, criterion = get_optim_scheduler(search_model.parameters(), config)
w_optimizer, w_scheduler, criterion = get_optim_scheduler(
search_model.parameters(), config
)
logger.log("w-optimizer : {:}".format(w_optimizer))
logger.log("w-scheduler : {:}".format(w_scheduler))
logger.log("criterion : {:}".format(criterion))
@@ -167,11 +193,17 @@ def main(xargs):
api = API(xargs.arch_nas_dataset)
logger.log("{:} create API = {:} done".format(time_string(), api))
last_info, model_base_path, model_best_path = logger.path("info"), logger.path("model"), logger.path("best")
last_info, model_base_path, model_best_path = (
logger.path("info"),
logger.path("model"),
logger.path("best"),
)
network, criterion = torch.nn.DataParallel(search_model).cuda(), criterion.cuda()
if last_info.exists(): # automatically resume from previous checkpoint
logger.log("=> loading checkpoint of the last-info '{:}' start".format(last_info))
logger.log(
"=> loading checkpoint of the last-info '{:}' start".format(last_info)
)
last_info = torch.load(last_info)
start_epoch = last_info["epoch"]
checkpoint = torch.load(last_info["last_checkpoint"])
@@ -181,7 +213,9 @@ def main(xargs):
w_scheduler.load_state_dict(checkpoint["w_scheduler"])
w_optimizer.load_state_dict(checkpoint["w_optimizer"])
logger.log(
"=> loading checkpoint of the last-info '{:}' start with {:}-th epoch.".format(last_info, start_epoch)
"=> loading checkpoint of the last-info '{:}' start with {:}-th epoch.".format(
last_info, start_epoch
)
)
else:
logger.log("=> do not find the last-info file : {:}".format(last_info))
@@ -196,13 +230,26 @@ def main(xargs):
)
for epoch in range(start_epoch, total_epoch):
w_scheduler.update(epoch, 0.0)
need_time = "Time Left: {:}".format(convert_secs2time(epoch_time.val * (total_epoch - epoch), True))
need_time = "Time Left: {:}".format(
convert_secs2time(epoch_time.val * (total_epoch - epoch), True)
)
epoch_str = "{:03d}-{:03d}".format(epoch, total_epoch)
logger.log("\n[Search the {:}-th epoch] {:}, LR={:}".format(epoch_str, need_time, min(w_scheduler.get_lr())))
logger.log(
"\n[Search the {:}-th epoch] {:}, LR={:}".format(
epoch_str, need_time, min(w_scheduler.get_lr())
)
)
# selected_arch = search_find_best(valid_loader, network, criterion, xargs.select_num)
search_w_loss, search_w_top1, search_w_top5 = search_func(
search_loader, network, criterion, w_scheduler, w_optimizer, epoch_str, xargs.print_freq, logger
search_loader,
network,
criterion,
w_scheduler,
w_optimizer,
epoch_str,
xargs.print_freq,
logger,
)
search_time.update(time.time() - start_time)
logger.log(
@@ -210,14 +257,22 @@ def main(xargs):
epoch_str, search_w_loss, search_w_top1, search_w_top5, search_time.sum
)
)
valid_a_loss, valid_a_top1, valid_a_top5 = valid_func(valid_loader, network, criterion)
valid_a_loss, valid_a_top1, valid_a_top5 = valid_func(
valid_loader, network, criterion
)
logger.log(
"[{:}] evaluate : loss={:.2f}, accuracy@1={:.2f}%, accuracy@5={:.2f}%".format(
epoch_str, valid_a_loss, valid_a_top1, valid_a_top5
)
)
cur_arch, cur_valid_acc = search_find_best(valid_loader, network, xargs.select_num)
logger.log("[{:}] find-the-best : {:}, accuracy@1={:.2f}%".format(epoch_str, cur_arch, cur_valid_acc))
cur_arch, cur_valid_acc = search_find_best(
valid_loader, network, xargs.select_num
)
logger.log(
"[{:}] find-the-best : {:}, accuracy@1={:.2f}%".format(
epoch_str, cur_arch, cur_valid_acc
)
)
genotypes[epoch] = cur_arch
# check the best accuracy
valid_accuracies[epoch] = valid_a_top1
@@ -289,11 +344,19 @@ if __name__ == "__main__":
)
# channels and number-of-cells
parser.add_argument("--search_space_name", type=str, help="The search space name.")
parser.add_argument("--config_path", type=str, help="The path to the configuration.")
parser.add_argument(
"--config_path", type=str, help="The path to the configuration."
)
parser.add_argument("--max_nodes", type=int, help="The maximum number of nodes.")
parser.add_argument("--channel", type=int, help="The number of channels.")
parser.add_argument("--num_cells", type=int, help="The number of cells in one stage.")
parser.add_argument("--select_num", type=int, help="The number of selected architectures to evaluate.")
parser.add_argument(
"--num_cells", type=int, help="The number of cells in one stage."
)
parser.add_argument(
"--select_num",
type=int,
help="The number of selected architectures to evaluate.",
)
parser.add_argument(
"--track_running_stats",
type=int,
@@ -301,10 +364,19 @@ if __name__ == "__main__":
help="Whether use track_running_stats or not in the BN layer.",
)
# log
parser.add_argument("--workers", type=int, default=2, help="number of data loading workers (default: 2)")
parser.add_argument("--save_dir", type=str, help="Folder to save checkpoints and log.")
parser.add_argument(
"--arch_nas_dataset", type=str, help="The path to load the architecture dataset (tiny-nas-benchmark)."
"--workers",
type=int,
default=2,
help="number of data loading workers (default: 2)",
)
parser.add_argument(
"--save_dir", type=str, help="Folder to save checkpoints and log."
)
parser.add_argument(
"--arch_nas_dataset",
type=str,
help="The path to load the architecture dataset (tiny-nas-benchmark).",
)
parser.add_argument("--print_freq", type=int, help="print frequency (default: 200)")
parser.add_argument("--rand_seed", type=int, help="manual seed")