xautodl/exps/LFNA/lfna.py

#####################################################
# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2021.04 #
#####################################################
# python exps/LFNA/lfna.py --env_version v1 --workers 0
# python exps/LFNA/lfna.py --env_version v1 --device cuda
#####################################################
import sys, time, copy, torch, random, argparse
from tqdm import tqdm
from copy import deepcopy
from pathlib import Path

lib_dir = (Path(__file__).parent / ".." / ".." / "lib").resolve()
if str(lib_dir) not in sys.path:
    sys.path.insert(0, str(lib_dir))
from procedures import prepare_seed, prepare_logger, save_checkpoint, copy_checkpoint
from log_utils import time_string
from log_utils import AverageMeter, convert_secs2time

from utils import split_str2indexes

from procedures.advanced_main import basic_train_fn, basic_eval_fn
from procedures.metric_utils import SaveMetric, MSEMetric, ComposeMetric
from datasets.synthetic_core import get_synthetic_env, EnvSampler
from models.xcore import get_model
from xlayers import super_core, trunc_normal_

from lfna_utils import lfna_setup, train_model, TimeData
from lfna_meta_model import LFNA_Meta


def epoch_train(loader, meta_model, base_model, optimizer, criterion, device, logger):
    base_model.train()
    meta_model.train()
    loss_meter = AverageMeter()
    for ibatch, batch_data in enumerate(loader):
        timestamps, (batch_seq_inputs, batch_seq_targets) = batch_data
        timestamps = timestamps.squeeze(dim=-1).to(device)
        batch_seq_inputs = batch_seq_inputs.to(device)
        batch_seq_targets = batch_seq_targets.to(device)

        optimizer.zero_grad()

        batch_seq_containers = meta_model(timestamps)
        losses = []
        for seq_containers, seq_inputs, seq_targets in zip(
            batch_seq_containers, batch_seq_inputs, batch_seq_targets
        ):
            for container, inputs, targets in zip(
                seq_containers, seq_inputs, seq_targets
            ):
                predictions = base_model.forward_with_container(inputs, container)
                loss = criterion(predictions, targets)
                losses.append(loss)
        final_loss = torch.stack(losses).mean()
        final_loss.backward()
        optimizer.step()
        loss_meter.update(final_loss.item())
    return loss_meter


def main(args):
    logger, env_info, model_kwargs = lfna_setup(args)
    dynamic_env = get_synthetic_env(mode="train", version=args.env_version)
    base_model = get_model(**model_kwargs)
    base_model = base_model.to(args.device)
    criterion = torch.nn.MSELoss()

    shape_container = base_model.get_w_container().to_shape_container()

    # pre-train the hypernetwork
    timestamps = dynamic_env.get_timestamp(None)
    meta_model = LFNA_Meta(shape_container, args.layer_dim, args.time_dim, timestamps)
    meta_model = meta_model.to(args.device)

    logger.log("The base-model has {:} weights.".format(base_model.numel()))
    logger.log("The meta-model has {:} weights.".format(meta_model.numel()))

    batch_sampler = EnvSampler(dynamic_env, args.meta_batch, args.sampler_enlarge)
    dynamic_env.reset_max_seq_length(args.seq_length)
    """
    env_loader = torch.utils.data.DataLoader(
        dynamic_env,
        batch_size=args.meta_batch,
        shuffle=True,
        num_workers=args.workers,
        pin_memory=True,
    )
    """
    env_loader = torch.utils.data.DataLoader(
        dynamic_env,
        batch_sampler=batch_sampler,
        num_workers=args.workers,
        pin_memory=True,
    )

    optimizer = torch.optim.Adam(
        meta_model.parameters(),
        lr=args.init_lr,
        weight_decay=args.weight_decay,
        amsgrad=True,
    )
    lr_scheduler = torch.optim.lr_scheduler.MultiStepLR(
        optimizer,
        milestones=[
            int(args.epochs * 0.8),
            int(args.epochs * 0.9),
        ],
        gamma=0.1,
    )
    logger.log("The base-model is\n{:}".format(base_model))
    logger.log("The meta-model is\n{:}".format(meta_model))
    logger.log("The optimizer is\n{:}".format(optimizer))
    logger.log("Per epoch iterations = {:}".format(len(env_loader)))

    # LFNA meta-training
    per_epoch_time, start_time = AverageMeter(), time.time()
    last_success_epoch = 0
    for iepoch in range(args.epochs):

        head_str = "[{:}] [{:04d}/{:04d}] ".format(
            time_string(), iepoch, args.epochs
        ) + "Time Left: {:}".format(
            convert_secs2time(per_epoch_time.avg * (args.epochs - iepoch), True)
        )

        loss_meter = epoch_train(
            env_loader,
            meta_model,
            base_model,
            optimizer,
            criterion,
            args.device,
            logger,
        )
        lr_scheduler.step()
        logger.log(
            head_str
            + " meta-loss: {meter.avg:.4f} ({meter.count:.0f})".format(meter=loss_meter)
            + " :: lr={:.5f}".format(min(lr_scheduler.get_last_lr()))
        )
        success, best_score = meta_model.save_best(-loss_meter.avg)
        if success:
            logger.log("Achieve the best with best-score = {:.5f}".format(best_score))
            last_success_epoch = iepoch
            save_checkpoint(
                {
                    "meta_model": meta_model.state_dict(),
                    "optimizer": optimizer.state_dict(),
                    "lr_scheduler": lr_scheduler.state_dict(),
                    "iepoch": iepoch,
                    "args": args,
                },
                logger.path("model"),
                logger,
            )
        if iepoch - last_success_epoch >= args.early_stop_thresh:
            logger.log("Early stop at {:}".format(iepoch))
            break

        per_epoch_time.update(time.time() - start_time)
        start_time = time.time()

    # meta-test
    meta_model.load_best()
    eval_env = env_info["dynamic_env"]
    w_container_per_epoch = dict()
    for idx in range(args.seq_length, len(eval_env)):
        # build-timestamp
        future_time = env_info["{:}-timestamp".format(idx)]
        time_seqs = []
        for iseq in range(args.seq_length):
            time_seqs.append(future_time - iseq * eval_env.timestamp_interval)
        time_seqs.reverse()
        with torch.no_grad():
            meta_model.eval()
            base_model.eval()
            time_seqs = torch.Tensor(time_seqs).view(1, -1).to(args.device)
            [seq_containers] = meta_model(time_seqs)
            future_container = seq_containers[-1]
            w_container_per_epoch[idx] = future_container.no_grad_clone()
            # evaluation
            future_x = env_info["{:}-x".format(idx)].to(args.device)
            future_y = env_info["{:}-y".format(idx)].to(args.device)
            future_y_hat = base_model.forward_with_container(
                future_x, w_container_per_epoch[idx]
            )
            future_loss = criterion(future_y_hat, future_y)
            logger.log(
                "meta-test: [{:03d}] -> loss={:.4f}".format(idx, future_loss.item())
            )

        # creating the new meta-time-embedding
        distance = meta_model.get_closest_meta_distance(future_time)
        if distance < eval_env.timestamp_interval:
            continue
        #
        new_param = meta_model.create_meta_embed()
        optimizer = torch.optim.Adam(
            [new_param], lr=args.init_lr, weight_decay=1e-5, amsgrad=True
        )
        meta_model.replace_append_learnt(torch.Tensor([future_time]), new_param)
        meta_model.eval()
        base_model.train()
        for iepoch in range(args.epochs):
            optimizer.zero_grad()
            [seq_containers] = meta_model(time_seqs)
            future_container = seq_containers[-1]
            future_y_hat = base_model.forward_with_container(future_x, future_container)
            future_loss = criterion(future_y_hat, future_y)
            future_loss.backward()
            optimizer.step()
        logger.log(
            "post-meta-test: [{:03d}] -> loss={:.4f}".format(idx, future_loss.item())
        )
        with torch.no_grad():
            meta_model.replace_append_learnt(None, None)
            meta_model.append_fixed(torch.Tensor([future_time]), new_param)

    save_checkpoint(
        {"w_container_per_epoch": w_container_per_epoch},
        logger.path(None) / "final-ckp.pth",
        logger,
    )

    logger.log("-" * 200 + "\n")
    logger.close()


if __name__ == "__main__":
    parser = argparse.ArgumentParser(".")
    parser.add_argument(
        "--save_dir",
        type=str,
        default="./outputs/lfna-synthetic/lfna-battle",
        help="The checkpoint directory.",
    )
    parser.add_argument(
        "--env_version",
        type=str,
        required=True,
        help="The synthetic enviornment version.",
    )
    parser.add_argument(
        "--hidden_dim",
        type=int,
        default=16,
        help="The hidden dimension.",
    )
    parser.add_argument(
        "--layer_dim",
        type=int,
        default=16,
        help="The layer chunk dimension.",
    )
    parser.add_argument(
        "--time_dim",
        type=int,
        default=16,
        help="The timestamp dimension.",
    )
    #####
    parser.add_argument(
        "--init_lr",
        type=float,
        default=0.005,
        help="The initial learning rate for the optimizer (default is Adam)",
    )
    parser.add_argument(
        "--weight_decay",
        type=float,
        default=0.00001,
        help="The weight decay for the optimizer (default is Adam)",
    )
    parser.add_argument(
        "--meta_batch",
        type=int,
        default=64,
        help="The batch size for the meta-model",
    )
    parser.add_argument(
        "--sampler_enlarge",
        type=int,
        default=5,
        help="Enlarge the #iterations for an epoch",
    )
    parser.add_argument("--epochs", type=int, default=10000, help="The total #epochs.")
    parser.add_argument(
        "--early_stop_thresh",
        type=int,
        default=100,
        help="The maximum epochs for early stop.",
    )
    parser.add_argument(
        "--seq_length", type=int, default=5, help="The sequence length."
    )
    parser.add_argument(
        "--workers", type=int, default=4, help="The number of workers in parallel."
    )
    parser.add_argument(
        "--device",
        type=str,
        default="cpu",
        help="",
    )
    # Random Seed
    parser.add_argument("--rand_seed", type=int, default=-1, help="manual seed")
    args = parser.parse_args()
    if args.rand_seed is None or args.rand_seed < 0:
        args.rand_seed = random.randint(1, 100000)
    assert args.save_dir is not None, "The save dir argument can not be None"
    args.save_dir = "{:}-d{:}_{:}_{:}-lr{:}-wd{:}-e{:}-env{:}".format(
        args.save_dir,
        args.hidden_dim,
        args.layer_dim,
        args.time_dim,
        args.init_lr,
        args.weight_decay,
        args.epochs,
        args.env_version,
    )
    main(args)
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`#####################################################`
			`# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2021.04 #`
			`#####################################################`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`# python exps/LFNA/lfna.py --env_version v1 --workers 0`
Upgrade LFNA 2021-05-13 15:42:33 +02:00			`# python exps/LFNA/lfna.py --env_version v1 --device cuda`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`#####################################################`
			`import sys, time, copy, torch, random, argparse`
			`from tqdm import tqdm`
			`from copy import deepcopy`
			`from pathlib import Path`

			`lib_dir = (Path(__file__).parent / ".." / ".." / "lib").resolve()`
			`if str(lib_dir) not in sys.path:`
			`sys.path.insert(0, str(lib_dir))`
			`from procedures import prepare_seed, prepare_logger, save_checkpoint, copy_checkpoint`
			`from log_utils import time_string`
			`from log_utils import AverageMeter, convert_secs2time`

			`from utils import split_str2indexes`

			`from procedures.advanced_main import basic_train_fn, basic_eval_fn`
			`from procedures.metric_utils import SaveMetric, MSEMetric, ComposeMetric`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`from datasets.synthetic_core import get_synthetic_env, EnvSampler`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`from models.xcore import get_model`
			`from xlayers import super_core, trunc_normal_`

			`from lfna_utils import lfna_setup, train_model, TimeData`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`from lfna_meta_model import LFNA_Meta`


			`def epoch_train(loader, meta_model, base_model, optimizer, criterion, device, logger):`
			`base_model.train()`
			`meta_model.train()`
			`loss_meter = AverageMeter()`
			`for ibatch, batch_data in enumerate(loader):`
			`timestamps, (batch_seq_inputs, batch_seq_targets) = batch_data`
			`timestamps = timestamps.squeeze(dim=-1).to(device)`
			`batch_seq_inputs = batch_seq_inputs.to(device)`
			`batch_seq_targets = batch_seq_targets.to(device)`

			`optimizer.zero_grad()`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`batch_seq_containers = meta_model(timestamps)`
			`losses = []`
			`for seq_containers, seq_inputs, seq_targets in zip(`
			`batch_seq_containers, batch_seq_inputs, batch_seq_targets`
			`):`
			`for container, inputs, targets in zip(`
			`seq_containers, seq_inputs, seq_targets`
			`):`
			`predictions = base_model.forward_with_container(inputs, container)`
			`loss = criterion(predictions, targets)`
			`losses.append(loss)`
			`final_loss = torch.stack(losses).mean()`
			`final_loss.backward()`
			`optimizer.step()`
			`loss_meter.update(final_loss.item())`
			`return loss_meter`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00

			`def main(args):`
			`logger, env_info, model_kwargs = lfna_setup(args)`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`dynamic_env = get_synthetic_env(mode="train", version=args.env_version)`
			`base_model = get_model(**model_kwargs)`
			`base_model = base_model.to(args.device)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`criterion = torch.nn.MSELoss()`

Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`shape_container = base_model.get_w_container().to_shape_container()`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
			`# pre-train the hypernetwork`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`timestamps = dynamic_env.get_timestamp(None)`
			`meta_model = LFNA_Meta(shape_container, args.layer_dim, args.time_dim, timestamps)`
			`meta_model = meta_model.to(args.device)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`logger.log("The base-model has {:} weights.".format(base_model.numel()))`
			`logger.log("The meta-model has {:} weights.".format(meta_model.numel()))`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`batch_sampler = EnvSampler(dynamic_env, args.meta_batch, args.sampler_enlarge)`
			`dynamic_env.reset_max_seq_length(args.seq_length)`
			`"""`
			`env_loader = torch.utils.data.DataLoader(`
			`dynamic_env,`
			`batch_size=args.meta_batch,`
			`shuffle=True,`
			`num_workers=args.workers,`
			`pin_memory=True,`
			`)`
			`"""`
			`env_loader = torch.utils.data.DataLoader(`
			`dynamic_env,`
			`batch_sampler=batch_sampler,`
			`num_workers=args.workers,`
			`pin_memory=True,`
			`)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`optimizer = torch.optim.Adam(`
Update LFNA 2021-05-15 10:31:35 +02:00			`meta_model.parameters(),`
			`lr=args.init_lr,`
			`weight_decay=args.weight_decay,`
			`amsgrad=True,`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`lr_scheduler = torch.optim.lr_scheduler.MultiStepLR(`
			`optimizer,`
			`milestones=[`
			`int(args.epochs * 0.8),`
			`int(args.epochs * 0.9),`
			`],`
			`gamma=0.1,`
			`)`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`logger.log("The base-model is\n{:}".format(base_model))`
			`logger.log("The meta-model is\n{:}".format(meta_model))`
			`logger.log("The optimizer is\n{:}".format(optimizer))`
			`logger.log("Per epoch iterations = {:}".format(len(env_loader)))`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
			`# LFNA meta-training`
			`per_epoch_time, start_time = AverageMeter(), time.time()`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`last_success_epoch = 0`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`for iepoch in range(args.epochs):`

Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`head_str = "[{:}] [{:04d}/{:04d}] ".format(`
			`time_string(), iepoch, args.epochs`
			`) + "Time Left: {:}".format(`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`convert_secs2time(per_epoch_time.avg * (args.epochs - iepoch), True)`
			`)`

Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`loss_meter = epoch_train(`
			`env_loader,`
			`meta_model,`
			`base_model,`
			`optimizer,`
			`criterion,`
			`args.device,`
			`logger,`
			`)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`lr_scheduler.step()`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`logger.log(`
			`head_str`
			`+ " meta-loss: {meter.avg:.4f} ({meter.count:.0f})".format(meter=loss_meter)`
			`+ " :: lr={:.5f}".format(min(lr_scheduler.get_last_lr()))`
			`)`
			`success, best_score = meta_model.save_best(-loss_meter.avg)`
			`if success:`
Update LFNA 2021-05-15 10:31:35 +02:00			`logger.log("Achieve the best with best-score = {:.5f}".format(best_score))`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`last_success_epoch = iepoch`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`save_checkpoint(`
			`{`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`"meta_model": meta_model.state_dict(),`
			`"optimizer": optimizer.state_dict(),`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`"lr_scheduler": lr_scheduler.state_dict(),`
			`"iepoch": iepoch,`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`"args": args,`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`},`
			`logger.path("model"),`
			`logger,`
			`)`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`if iepoch - last_success_epoch >= args.early_stop_thresh:`
			`logger.log("Early stop at {:}".format(iepoch))`
			`break`

Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`per_epoch_time.update(time.time() - start_time)`
			`start_time = time.time()`

Update LFNA 2021-05-15 10:01:40 +02:00			`# meta-test`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`meta_model.load_best()`
			`eval_env = env_info["dynamic_env"]`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`w_container_per_epoch = dict()`
Update LFNA 2021-05-15 10:01:40 +02:00			`for idx in range(args.seq_length, len(eval_env)):`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`# build-timestamp`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`future_time = env_info["{:}-timestamp".format(idx)]`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`time_seqs = []`
			`for iseq in range(args.seq_length):`
			`time_seqs.append(future_time - iseq * eval_env.timestamp_interval)`
			`time_seqs.reverse()`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`with torch.no_grad():`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`meta_model.eval()`
			`base_model.eval()`
			`time_seqs = torch.Tensor(time_seqs).view(1, -1).to(args.device)`
			`[seq_containers] = meta_model(time_seqs)`
			`future_container = seq_containers[-1]`
			`w_container_per_epoch[idx] = future_container.no_grad_clone()`
			`# evaluation`
Update LFNA 2021-05-15 10:01:40 +02:00			`future_x = env_info["{:}-x".format(idx)].to(args.device)`
			`future_y = env_info["{:}-y".format(idx)].to(args.device)`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`future_y_hat = base_model.forward_with_container(`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`future_x, w_container_per_epoch[idx]`
			`)`
			`future_loss = criterion(future_y_hat, future_y)`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`logger.log(`
			`"meta-test: [{:03d}] -> loss={:.4f}".format(idx, future_loss.item())`
			`)`

			`# creating the new meta-time-embedding`
			`distance = meta_model.get_closest_meta_distance(future_time)`
			`if distance < eval_env.timestamp_interval:`
			`continue`
			`#`
			`new_param = meta_model.create_meta_embed()`
			`optimizer = torch.optim.Adam(`
			`[new_param], lr=args.init_lr, weight_decay=1e-5, amsgrad=True`
			`)`
			`meta_model.replace_append_learnt(torch.Tensor([future_time]), new_param)`
			`meta_model.eval()`
			`base_model.train()`
			`for iepoch in range(args.epochs):`
			`optimizer.zero_grad()`
			`[seq_containers] = meta_model(time_seqs)`
			`future_container = seq_containers[-1]`
			`future_y_hat = base_model.forward_with_container(future_x, future_container)`
			`future_loss = criterion(future_y_hat, future_y)`
			`future_loss.backward()`
			`optimizer.step()`
			`logger.log(`
			`"post-meta-test: [{:03d}] -> loss={:.4f}".format(idx, future_loss.item())`
			`)`
			`with torch.no_grad():`
			`meta_model.replace_append_learnt(None, None)`
			`meta_model.append_fixed(torch.Tensor([future_time]), new_param)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00
			`save_checkpoint(`
			`{"w_container_per_epoch": w_container_per_epoch},`
			`logger.path(None) / "final-ckp.pth",`
			`logger,`
			`)`

			`logger.log("-" * 200 + "\n")`
			`logger.close()`


			`if __name__ == "__main__":`
			`parser = argparse.ArgumentParser(".")`
			`parser.add_argument(`
			`"--save_dir",`
			`type=str,`
			`default="./outputs/lfna-synthetic/lfna-battle",`
			`help="The checkpoint directory.",`
			`)`
			`parser.add_argument(`
			`"--env_version",`
			`type=str,`
			`required=True,`
			`help="The synthetic enviornment version.",`
			`)`
			`parser.add_argument(`
			`"--hidden_dim",`
			`type=int,`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`default=16,`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`help="The hidden dimension.",`
			`)`
			`parser.add_argument(`
			`"--layer_dim",`
			`type=int,`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`default=16,`
			`help="The layer chunk dimension.",`
			`)`
			`parser.add_argument(`
			`"--time_dim",`
			`type=int,`
			`default=16,`
			`help="The timestamp dimension.",`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`)`
			`#####`
			`parser.add_argument(`
			`"--init_lr",`
			`type=float,`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`default=0.005,`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`help="The initial learning rate for the optimizer (default is Adam)",`
			`)`
Update LFNA 2021-05-15 10:31:35 +02:00			`parser.add_argument(`
			`"--weight_decay",`
			`type=float,`
			`default=0.00001,`
			`help="The weight decay for the optimizer (default is Adam)",`
			`)`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`parser.add_argument(`
			`"--meta_batch",`
			`type=int,`
			`default=64,`
			`help="The batch size for the meta-model",`
			`)`
			`parser.add_argument(`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`"--sampler_enlarge",`
			`type=int,`
			`default=5,`
			`help="Enlarge the #iterations for an epoch",`
			`)`
Update LFNA 2021-05-15 10:31:35 +02:00			`parser.add_argument("--epochs", type=int, default=10000, help="The total #epochs.")`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`parser.add_argument(`
			`"--early_stop_thresh",`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`type=int,`
Update LFNA 2021-05-15 10:31:35 +02:00			`default=100,`
Update LFNA version 1.0 2021-05-13 15:33:34 +02:00			`help="The maximum epochs for early stop.",`
			`)`
			`parser.add_argument(`
			`"--seq_length", type=int, default=5, help="The sequence length."`
			`)`
			`parser.add_argument(`
			`"--workers", type=int, default=4, help="The number of workers in parallel."`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`)`
			`parser.add_argument(`
			`"--device",`
			`type=str,`
			`default="cpu",`
			`help="",`
			`)`
			`# Random Seed`
			`parser.add_argument("--rand_seed", type=int, default=-1, help="manual seed")`
			`args = parser.parse_args()`
			`if args.rand_seed is None or args.rand_seed < 0:`
			`args.rand_seed = random.randint(1, 100000)`
			`assert args.save_dir is not None, "The save dir argument can not be None"`
Update LFNA 2021-05-15 10:31:35 +02:00			`args.save_dir = "{:}-d{:}_{:}_{:}-lr{:}-wd{:}-e{:}-env{:}".format(`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`args.save_dir,`
			`args.hidden_dim,`
			`args.layer_dim,`
			`args.time_dim,`
Update LFNA 2021-05-15 10:31:35 +02:00			`args.init_lr,`
			`args.weight_decay,`
Complete LFNA 1.0 2021-05-13 18:36:37 +02:00			`args.epochs,`
Update LFNA 2021-05-15 10:01:40 +02:00			`args.env_version,`
Add more functions for synthetic env 2021-05-13 09:32:44 +02:00			`)`
			`main(args)`