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finetune.py
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finetune.py
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import datetime
from functools import partial
import os
from absl import app, flags, logging
import flax
from flax.traverse_util import flatten_dict
import jax
from jax.sharding import Mesh, NamedSharding, PartitionSpec
from ml_collections import config_flags, ConfigDict
import optax
import tensorflow as tf
import tqdm
import wandb
from octo.data.dataset import make_single_dataset
from octo.model.octo_model import OctoModel
from octo.utils.jax_utils import initialize_compilation_cache
from octo.utils.spec import ModuleSpec
from octo.utils.train_callbacks import (
RolloutVisualizationCallback,
SaveCallback,
ValidationCallback,
VisualizationCallback,
)
from octo.utils.train_utils import (
check_config_diff,
create_optimizer,
format_name_with_config,
merge_params,
process_text,
Timer,
TrainState,
)
try:
from jax_smi import initialise_tracking # type: ignore
initialise_tracking()
except ImportError:
pass
FLAGS = flags.FLAGS
flags.DEFINE_string("name", "experiment", "Experiment name.")
flags.DEFINE_bool("debug", False, "Debug config (no wandb logging)")
default_config_file = os.path.join(
os.path.dirname(__file__), "configs/finetune_config.py"
)
config_flags.DEFINE_config_file(
"config",
default_config_file,
"File path to the training hyperparameter configuration.",
lock_config=False,
)
def main(_):
initialize_compilation_cache()
devices = jax.devices()
logging.info(
f"""
Octo Finetuning Script
======================
Pretrained model: {FLAGS.config.pretrained_path}
Finetuning Dataset: {FLAGS.config.dataset_kwargs.name}
Data dir: {FLAGS.config.dataset_kwargs.data_dir}
Task Modality: {FLAGS.config.modality}
Finetuning Mode: {FLAGS.config.finetuning_mode}
# Devices: {jax.device_count()}
Batch size: {FLAGS.config.batch_size} ({FLAGS.config.batch_size // len(devices) } per device)
# Steps: {FLAGS.config.num_steps}
"""
)
#########
#
# Setup Jax Data Parallelism
#
#########
assert (
FLAGS.config.batch_size % len(devices) == 0
), f"Batch size ({FLAGS.config.batch_size}) must be divisible by the number of devices ({len(devices)})"
assert (
FLAGS.config.viz_kwargs.eval_batch_size % len(devices) == 0
), f"Eval batch size ({FLAGS.config.viz_kwargs.eval_batch_size}) must be divisible by the number of devices ({len(devices)})"
# create a 1D mesh with a single axis named "batch"
mesh = Mesh(jax.devices(), axis_names="batch")
# Our batches will be data-parallel sharded -- each device will get a slice of the batch
dp_sharding = NamedSharding(mesh, PartitionSpec("batch"))
# Our model will be replicated across devices (we are only doing data parallelism, not model parallelism)
replicated_sharding = NamedSharding(mesh, PartitionSpec())
# prevent tensorflow from using GPU memory since it's only used for data loading
tf.config.set_visible_devices([], "GPU")
#########
#
# Setup WandB
#
#########
name = format_name_with_config(
FLAGS.name,
FLAGS.config.to_dict(),
)
wandb_id = "{name}_{time}".format(
name=name,
time=datetime.datetime.now().strftime("%Y%m%d_%H%M%S"),
)
wandb.init(
config=FLAGS.config.to_dict(),
id=wandb_id,
name=name,
mode="disabled" if FLAGS.debug else None,
**FLAGS.config.wandb,
)
#########
#
# Load Pretrained model + optionally modify config
#
#########
pretrained_model = OctoModel.load_pretrained(
FLAGS.config.pretrained_path,
step=FLAGS.config.pretrained_step,
)
flat_config = flax.traverse_util.flatten_dict(
pretrained_model.config, keep_empty_nodes=True
)
for d_key in flax.traverse_util.flatten_dict(
FLAGS.config.get("config_delete_keys", ConfigDict()).to_dict()
):
for c_key in list(flat_config.keys()):
if ".".join(c_key).startswith(".".join(d_key)):
del flat_config[c_key]
config = ConfigDict(flax.traverse_util.unflatten_dict(flat_config))
config.update(FLAGS.config.get("update_config", ConfigDict()))
config = config.to_dict()
check_config_diff(config, pretrained_model.config)
#########
#
# Setup Data Loader
#
#########
# create text processor
if config["text_processor"] is None:
text_processor = None
else:
text_processor = ModuleSpec.instantiate(config["text_processor"])()
def process_batch(batch):
batch = process_text(batch, text_processor)
del batch["dataset_name"]
return batch
dataset = make_single_dataset(
FLAGS.config.dataset_kwargs,
traj_transform_kwargs=FLAGS.config.traj_transform_kwargs,
frame_transform_kwargs=FLAGS.config.frame_transform_kwargs,
train=True,
)
train_data_iter = (
dataset.repeat()
.unbatch()
.shuffle(FLAGS.config.shuffle_buffer_size)
.batch(FLAGS.config.batch_size)
.iterator()
)
train_data_iter = map(process_batch, train_data_iter)
example_batch = next(train_data_iter)
#########
#
# Load Pretrained Model
#
#########
rng = jax.random.PRNGKey(FLAGS.config.seed)
rng, init_rng = jax.random.split(rng)
model = OctoModel.from_config(
config,
example_batch,
text_processor,
rng=init_rng,
dataset_statistics=dataset.dataset_statistics,
)
merged_params = merge_params(model.params, pretrained_model.params)
model = model.replace(params=merged_params)
del pretrained_model
#########
#
# Setup Optimizer and Train State
#
#########
params = model.params
if FLAGS.config.optimizer.frozen_keys is None:
FLAGS.config.optimizer.frozen_keys = model.config["optimizer"]["frozen_keys"]
tx, lr_callable, param_norm_callable = create_optimizer(
params,
**FLAGS.config.optimizer.to_dict(),
)
train_state = TrainState.create(
model=model,
tx=tx,
rng=rng,
)
#########
#
# Save all metadata
#
#########
if FLAGS.config.save_dir is not None:
save_dir = tf.io.gfile.join(
FLAGS.config.save_dir,
FLAGS.config.wandb.project,
FLAGS.config.wandb.group or "",
wandb_id,
)
wandb.config.update(dict(save_dir=save_dir), allow_val_change=True)
logging.info("Saving to %s", save_dir)
save_callback = SaveCallback(save_dir)
# Add window_size to top of config, to make eval easier
new_config = ConfigDict(model.config)
new_config["window_size"] = example_batch["observation"][
"timestep_pad_mask"
].shape[1]
model = model.replace(config=new_config)
# Save finetuning config since it's not saved by SaveCallback, i.e. as part of model.save_pretrained()
with tf.io.gfile.GFile(
tf.io.gfile.join(save_dir, "finetune_config.json"), "w"
) as config_file:
config_file.write(FLAGS.config.to_json_best_effort())
else:
save_dir = None
save_callback = SaveCallback(None)
logging.warning("save_dir not passed in, not saving checkpoints")
example_batch_spec = jax.tree_map(
lambda arr: (arr.shape, str(arr.dtype)), example_batch
)
wandb.config.update(
dict(example_batch_spec=example_batch_spec), allow_val_change=True
)
#########
#
# Define loss, train_step, and eval_step
#
#########
def loss_fn(params, batch, rng, train=True):
bound_module = model.module.bind({"params": params}, rngs={"dropout": rng})
transformer_embeddings = bound_module.octo_transformer(
batch["observation"],
batch["task"],
batch["observation"]["timestep_pad_mask"],
train=train,
)
action_loss, action_metrics = bound_module.heads["action"].loss(
transformer_embeddings, # action head knows to pull out the "action" readout_key
batch["action"],
batch["observation"]["timestep_pad_mask"],
batch["action_pad_mask"],
train=train,
)
return action_loss, action_metrics
# Data parallelism
# Model is replicated across devices, data is split across devices
@partial(
jax.jit,
in_shardings=[replicated_sharding, dp_sharding],
)
def train_step(state: TrainState, batch):
rng, dropout_rng = jax.random.split(state.rng)
(loss, info), grads = jax.value_and_grad(loss_fn, has_aux=True)(
state.model.params, batch, dropout_rng, train=True
)
grad_norm = optax.global_norm(grads)
updates, _ = state.tx.update(grads, state.opt_state, state.model.params)
update_norm = optax.global_norm(updates)
info.update(
{
"grad_norm": grad_norm,
"update_norm": update_norm,
"param_norm": param_norm_callable(state.model.params),
"learning_rate": lr_callable(state.step),
}
)
new_state = state.apply_gradients(grads=grads, rng=rng)
return new_state, info
#########
#
# Build validation & visualization callbacks
#
#########
if FLAGS.config.modality == "image_conditioned":
modes_to_evaluate = ["image_conditioned"]
elif FLAGS.config.modality == "text_conditioned":
modes_to_evaluate = ["text_conditioned"]
elif FLAGS.config.modality == "multimodal":
modes_to_evaluate = ["image_conditioned", "text_conditioned"]
else:
modes_to_evaluate = ["base"]
dataset_kwargs_list = [FLAGS.config.dataset_kwargs]
val_callback = ValidationCallback(
loss_fn=loss_fn,
process_batch_fn=process_batch,
text_processor=text_processor,
val_dataset_kwargs_list=dataset_kwargs_list,
dataset_kwargs=FLAGS.config,
modes_to_evaluate=modes_to_evaluate,
**FLAGS.config.val_kwargs,
)
viz_callback = VisualizationCallback(
text_processor=text_processor,
val_dataset_kwargs_list=dataset_kwargs_list,
dataset_kwargs=FLAGS.config,
modes_to_evaluate=modes_to_evaluate,
**FLAGS.config.viz_kwargs,
)
#########
#
# Optionally build visualizers for sim env evals
#
#########
if "rollout_kwargs" in FLAGS.config:
rollout_callback = RolloutVisualizationCallback(
text_processor=text_processor,
unnormalization_statistics=dataset.dataset_statistics["action"],
**FLAGS.config.rollout_kwargs.to_dict(),
)
else:
rollout_callback = None
#########
#
# Train loop
#
#########
def wandb_log(info, step):
wandb.log(flatten_dict(info, sep="/"), step=step)
timer = Timer()
for i in tqdm.tqdm(
range(0, int(FLAGS.config.num_steps)),
total=int(FLAGS.config.num_steps),
dynamic_ncols=True,
):
timer.tick("total")
with timer("dataset"):
batch = next(train_data_iter)
with timer("train"):
train_state, update_info = train_step(train_state, batch)
timer.tock("total")
if (i + 1) % FLAGS.config.log_interval == 0:
update_info = jax.device_get(update_info)
wandb_log(
{"training": update_info, "timer": timer.get_average_times()}, step=i
)
if (i + 1) % FLAGS.config.eval_interval == 0:
logging.info("Evaluating...")
with timer("val"):
val_metrics = val_callback(train_state, i + 1)
wandb_log(val_metrics, step=i)
with timer("visualize"):
viz_metrics = viz_callback(train_state, i + 1)
wandb_log(viz_metrics, step=i)
if rollout_callback is not None:
with timer("rollout"):
rollout_metrics = rollout_callback(train_state, i + 1)
wandb_log(rollout_metrics, step=i)
if (i + 1) % FLAGS.config.save_interval == 0 and save_dir is not None:
logging.info("Saving checkpoint...")
save_callback(train_state, i + 1)
if __name__ == "__main__":
app.run(main)