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"""
CFM training with unconditional JiT (jit_model_unconditional.JiT).
Mirrors train_cfm_unet.py (data, TensorBoard, checkpoints); model + YAML differ.
JiT expects forward(x, t); torchdyn NeuralODE calls f(t, x) — use CFMFlowWrapper.
"""
from __future__ import annotations
import argparse
import os
from dataclasses import dataclass
from pathlib import Path
from typing import Any
import torch
import torch.nn as nn
import torchvision
from torch.utils.data import DataLoader
from torch.utils.tensorboard import SummaryWriter
from torchvision.transforms import v2
from torchdyn.core import NeuralODE
from torchcfm.conditional_flow_matching import ConditionalFlowMatcher
from jit import JiT
try:
import yaml # type: ignore[import-untyped]
except ImportError as e: # pragma: no cover
raise ImportError("Please `pip install pyyaml` to use --config.") from e
# Reuse dataset helpers from UNet trainer (same CLI for data)
from train_unet import load_training_dataset
def parse_args() -> argparse.Namespace:
p = argparse.ArgumentParser(description="Train unconditional JiT with Conditional Flow Matching")
p.add_argument(
"--dataset",
type=str,
default="imagenette",
choices=["cifar10", "imagenette"],
help="Training dataset",
)
p.add_argument("--data-root", type=str, default=".", help="Root for dataset download/cache")
p.add_argument("--cifar-split", type=str, default="train", choices=["train", "test"])
p.add_argument("--imagenette-split", type=str, default="train", choices=["train", "val"])
p.add_argument("--imagenette-size", type=str, default="160px", choices=["160px", "320px", "full"])
p.add_argument("--single-class", action="store_true")
p.add_argument("--class-id", type=int, default=0)
p.add_argument("--batch-size", type=int, default=64)
p.add_argument("--num-workers", type=int, default=4)
p.add_argument("--epochs", type=int, default=30)
p.add_argument("--device", type=str, default=None, help="cuda | cpu (default: auto)")
p.add_argument("--log-interval", type=int, default=100)
p.add_argument("--seed", type=int, default=0)
p.add_argument("--save-dir", type=str, default="./runs/cfm_jit/checkpoints")
p.add_argument(
"--log-dir",
type=str,
default="./runs/cfm_jit/tensorboard",
)
p.add_argument("--run-name", type=str, default=None)
p.add_argument(
"--config",
type=str,
default=None,
help="YAML with JiT + CFM hyperparameters (default: jit_config.yaml next to this script)",
)
return p.parse_args()
def _dim_from_yaml(value: Any) -> tuple[int, int, int]:
if isinstance(value, (list, tuple)) and len(value) == 3:
return (int(value[0]), int(value[1]), int(value[2]))
raise ValueError("YAML 'dim' must be [C, H, W]")
@dataclass
class JiTTrainConfig:
sigma: float
dim: tuple[int, int, int]
lr: float
weight_decay: float
inference_steps: int
vis_batch_size: int
input_size: int
patch_size: int
hidden_size: int
depth: int
num_heads: int
mlp_ratio: float
attn_drop: float
proj_drop: float
bottleneck_dim: int
in_context_len: int
in_context_start: int
REQUIRED_JIT_YAML_KEYS = (
"sigma",
"dim",
"lr",
"weight_decay",
"inference_steps",
"vis_batch_size",
"input_size",
"patch_size",
"hidden_size",
"depth",
"num_heads",
"mlp_ratio",
"attn_drop",
"proj_drop",
"bottleneck_dim",
"in_context_len",
"in_context_start",
)
def load_jit_config_yaml(path: str | os.PathLike[str]) -> JiTTrainConfig:
path = Path(path)
if not path.is_file():
raise FileNotFoundError(f"Config file not found: {path.resolve()}")
with open(path, encoding="utf-8") as f:
raw = yaml.safe_load(f)
if raw is None or not isinstance(raw, dict):
raise ValueError(f"Config must be a YAML mapping: {path}")
missing = [k for k in REQUIRED_JIT_YAML_KEYS if k not in raw]
if missing:
raise ValueError(f"Missing keys in {path}: {missing}")
dim = _dim_from_yaml(raw["dim"])
input_size = int(raw["input_size"])
if dim[1] != input_size or dim[2] != input_size:
raise ValueError(f"dim {dim} must match input_size×input_size ({input_size})")
return JiTTrainConfig(
sigma=float(raw["sigma"]),
dim=dim,
lr=float(raw["lr"]),
weight_decay=float(raw["weight_decay"]),
inference_steps=int(raw["inference_steps"]),
vis_batch_size=int(raw["vis_batch_size"]),
input_size=input_size,
patch_size=int(raw["patch_size"]),
hidden_size=int(raw["hidden_size"]),
depth=int(raw["depth"]),
num_heads=int(raw["num_heads"]),
mlp_ratio=float(raw["mlp_ratio"]),
attn_drop=float(raw["attn_drop"]),
proj_drop=float(raw["proj_drop"]),
bottleneck_dim=int(raw["bottleneck_dim"]),
in_context_len=int(raw["in_context_len"]),
in_context_start=int(raw["in_context_start"]),
)
def build_jit(cfg: JiTTrainConfig) -> JiT:
c = cfg.dim[0]
return JiT(
input_size=cfg.input_size,
patch_size=cfg.patch_size,
in_channels=c,
hidden_size=cfg.hidden_size,
depth=cfg.depth,
num_heads=cfg.num_heads,
mlp_ratio=cfg.mlp_ratio,
attn_drop=cfg.attn_drop,
proj_drop=cfg.proj_drop,
bottleneck_dim=cfg.bottleneck_dim,
in_context_len=cfg.in_context_len,
in_context_start=cfg.in_context_start,
)
class CFMFlowWrapper(nn.Module):
"""
torchdyn NeuralODE expects f(t, x) with same batch as x.
JiT is forward(x, t) with t shape (N,).
"""
def __init__(self, model: JiT):
super().__init__()
self.model = model
def forward(self, t: torch.Tensor, x: torch.Tensor, y=None, *args, **kwargs) -> torch.Tensor:
batch = x.shape[0]
t_flat = torch.as_tensor(t, device=x.device, dtype=torch.float32).reshape(-1)
if t_flat.numel() == 1:
t_flat = t_flat.expand(batch)
elif t_flat.shape[0] != batch:
t_flat = t_flat[:batch]
return self.model(x, t_flat)
def main() -> None:
args = parse_args()
default_cfg = Path(__file__).resolve().parent / "jit_config.yaml"
config_path = Path(args.config).resolve() if args.config else default_cfg
cfg = load_jit_config_yaml(config_path)
print(f"Loaded JiT config from: {config_path}")
torch.manual_seed(args.seed)
if torch.cuda.is_available():
torch.cuda.manual_seed_all(args.seed)
device = torch.device(args.device or ("cuda" if torch.cuda.is_available() else "cpu"))
print(f"Using device: {device}")
os.makedirs(args.save_dir, exist_ok=True)
tb_dir = os.path.join(args.log_dir, args.run_name) if args.run_name else args.log_dir
os.makedirs(tb_dir, exist_ok=True)
writer = SummaryWriter(log_dir=tb_dir)
writer.add_text("config/args", str(vars(args)), 0)
writer.add_text("config/jit_yaml", config_path.read_text(encoding="utf-8"), 0)
transforms = v2.Compose(
[
v2.ToTensor(),
v2.ToDtype(torch.float32, scale=True),
v2.Resize((cfg.input_size, cfg.input_size)),
v2.Normalize(mean=[0.0, 0.0, 0.0], std=[1.0, 1.0, 1.0]),
]
)
train_dataset = load_training_dataset(args, transforms)
print(f"Dataset: {args.dataset}, size={len(train_dataset)}")
dummy_dataloader = DataLoader(
train_dataset,
batch_size=args.batch_size,
shuffle=True,
num_workers=args.num_workers,
pin_memory=device.type == "cuda",
)
total_optimizer_steps = len(dummy_dataloader) * args.epochs
fm = ConditionalFlowMatcher(sigma=cfg.sigma)
net_model = build_jit(cfg).to(device)
ode_net = CFMFlowWrapper(net_model)
optim = torch.optim.AdamW(net_model.parameters(), lr=cfg.lr, weight_decay=cfg.weight_decay)
scheduler = torch.optim.lr_scheduler.LinearLR(optim, total_iters=max(total_optimizer_steps, 1))
t_span = torch.linspace(0, 1, cfg.inference_steps + 1, device=device)
c, h, w = cfg.dim
global_step = 0
best_loss = float("inf")
for ep in range(args.epochs):
net_model.train()
epoch_loss = 0.0
num_batches = 0
for data in dummy_dataloader:
x1 = data[0].to(device, non_blocking=True)
x0 = torch.randn_like(x1)
t, xt, ut = fm.sample_location_and_conditional_flow(x0, x1)
t_b = t.reshape(-1).float()
vt = net_model(xt, t_b)
loss = torch.mean((vt - ut) ** 2)
optim.zero_grad(set_to_none=True)
loss.backward()
optim.step()
scheduler.step()
epoch_loss += loss.item()
num_batches += 1
writer.add_scalar("train/loss_step", loss.item(), global_step)
writer.add_scalar("train/lr", scheduler.get_last_lr()[0], global_step)
if global_step % args.log_interval == 0:
print(f"[step {global_step}] loss = {loss.item():.6f}")
global_step += 1
avg_epoch_loss = epoch_loss / max(num_batches, 1)
writer.add_scalar("train/loss_epoch", avg_epoch_loss, ep)
print(f"[epoch {ep}] avg loss = {avg_epoch_loss:.6f}")
net_model.eval()
node = NeuralODE(ode_net, solver="euler")
with torch.no_grad():
x_vis = torch.randn(cfg.vis_batch_size, c, h, w, device=device)
traj = node.trajectory(x_vis, t_span=t_span)
x_final = traj[-1]
x_final = x_final.clamp(0.0, 1.0).cpu()
grid = torchvision.utils.make_grid(x_final, nrow=4, padding=2, normalize=False)
writer.add_image("samples/neural_ode_final", grid, ep)
if ep % 30 == 0:
ckpt_path = os.path.join(args.save_dir, f"model_epoch_{ep}.pt")
torch.save(net_model.state_dict(), ckpt_path)
if ep == 0 or avg_epoch_loss < best_loss:
best_loss = avg_epoch_loss
torch.save(net_model.state_dict(), os.path.join(args.save_dir, "model_best.pt"))
writer.close()
print(f"Done. Checkpoints: {args.save_dir}")
print(f"TensorBoard: tensorboard --logdir {tb_dir}")
if __name__ == "__main__":
main()
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