Datasets:
Formats:
parquet
Size:
1M - 10M
Tags:
gaussian-splatting
fault-tolerance
single-event-upset
reliability
radiance-fields
computer-graphics
License:
| """Train a 3D Gaussian Splatting model on a NeRF-synthetic scene with gsplat's | |
| DefaultStrategy densification. Saves the trained parameters and a held-out test | |
| camera set for the fault-injection campaign. | |
| Usage: | |
| python train_gs.py --scene_dir DATA/lego --out OUT/lego --iters 7000 | |
| """ | |
| import argparse | |
| import os | |
| import time | |
| import math | |
| import json | |
| import numpy as np | |
| import torch | |
| import torch.nn as nn | |
| from common import load_blender, psnr, ssim, inverse_sigmoid | |
| import gsmodel | |
| from gsplat.strategy import DefaultStrategy | |
| def build_model(n_init: int, scene_scale: float, sh_degree: int, device: str): | |
| M = (sh_degree + 1) ** 2 # total SH coeffs | |
| # init points uniformly in a cube roughly bounding the object | |
| half = 1.3 | |
| means = (torch.rand(n_init, 3, device=device) * 2 - 1) * half | |
| # init isotropic scale near mean neighbour spacing | |
| init_scale = math.log(0.05) | |
| scales = torch.full((n_init, 3), init_scale, device=device) | |
| quats = torch.zeros(n_init, 4, device=device) | |
| quats[:, 0] = 1.0 | |
| opacities = torch.full((n_init,), inverse_sigmoid(0.1), device=device) | |
| sh0 = torch.zeros(n_init, 1, 3, device=device) | |
| shN = torch.zeros(n_init, M - 1, 3, device=device) | |
| params = nn.ParameterDict({ | |
| "means": nn.Parameter(means), | |
| "scales": nn.Parameter(scales), | |
| "quats": nn.Parameter(quats), | |
| "opacities": nn.Parameter(opacities), | |
| "sh0": nn.Parameter(sh0), | |
| "shN": nn.Parameter(shN), | |
| }).to(device) | |
| lrs = { | |
| "means": 1.6e-4 * scene_scale, | |
| "scales": 5e-3, | |
| "quats": 1e-3, | |
| "opacities": 5e-2, | |
| "sh0": 2.5e-3, | |
| "shN": 2.5e-3 / 20.0, | |
| } | |
| optimizers = { | |
| k: torch.optim.Adam([{"params": params[k], "lr": lrs[k], "name": k}], eps=1e-15) | |
| for k in params.keys() | |
| } | |
| return params, optimizers, lrs | |
| def main(): | |
| ap = argparse.ArgumentParser() | |
| ap.add_argument("--scene_dir", required=True) | |
| ap.add_argument("--out", required=True) | |
| ap.add_argument("--iters", type=int, default=12000) | |
| ap.add_argument("--downscale", type=int, default=2) | |
| ap.add_argument("--sh_degree", type=int, default=3) | |
| ap.add_argument("--n_init", type=int, default=100000) | |
| ap.add_argument("--seed", type=int, default=0) | |
| args = ap.parse_args() | |
| os.makedirs(args.out, exist_ok=True) | |
| device = "cuda" | |
| torch.manual_seed(args.seed) | |
| np.random.seed(args.seed) | |
| imgs, viewmats, Ks, W, H = load_blender(args.scene_dir, "train", args.downscale, device) | |
| n_train = imgs.shape[0] | |
| # scene scale = max camera distance from the mean camera centre | |
| cam_centers = torch.inverse(viewmats)[:, :3, 3] | |
| centroid = cam_centers.mean(0) | |
| scene_scale = float((cam_centers - centroid).norm(dim=-1).max().item()) | |
| print(f"scene_scale={scene_scale:.3f} train_views={n_train} WxH={W}x{H}", flush=True) | |
| params, optimizers, lrs = build_model(args.n_init, scene_scale, args.sh_degree, device) | |
| strategy = DefaultStrategy(refine_stop_iter=int(args.iters * 0.6), reset_every=3000, | |
| refine_every=100, absgrad=True, grow_grad2d=6e-4, verbose=False) | |
| strategy.check_sanity(params, optimizers) | |
| state = strategy.initialize_state(scene_scale=scene_scale) | |
| white = torch.ones(1, 3, device=device) | |
| t0 = time.time() | |
| for step in range(args.iters): | |
| active_sh = min(step // 1000, args.sh_degree) | |
| idx = np.random.randint(0, n_train) | |
| vm = viewmats[idx:idx + 1] | |
| K = Ks[idx:idx + 1] | |
| gt = imgs[idx] # H,W,3 | |
| colors = gsmodel.colors_from_params(params) | |
| from gsplat import rasterization | |
| renders, alphas, info = rasterization( | |
| params["means"], params["quats"], torch.exp(params["scales"]), | |
| torch.sigmoid(params["opacities"]), colors, vm, K, W, H, | |
| sh_degree=active_sh, packed=True, absgrad=True, | |
| rasterize_mode="classic") | |
| renders = renders + (1.0 - alphas) # composite over white | |
| pred = renders[0].clamp(0, 1) # H,W,3 | |
| l1 = (pred - gt).abs().mean() | |
| dssim = 1.0 - ssim(pred.permute(2, 0, 1)[None], gt.permute(2, 0, 1)[None]) | |
| loss = 0.8 * l1 + 0.2 * dssim | |
| strategy.step_pre_backward(params, optimizers, state, step, info) | |
| loss.backward() | |
| strategy.step_post_backward(params, optimizers, state, step, info, packed=True) | |
| for opt in optimizers.values(): | |
| opt.step() | |
| opt.zero_grad(set_to_none=True) | |
| # exponential decay of means lr | |
| decay = 0.01 ** (step / args.iters) | |
| optimizers["means"].param_groups[0]["lr"] = lrs["means"] * decay | |
| if step % 500 == 0 or step == args.iters - 1: | |
| with torch.no_grad(): | |
| p = psnr(pred, gt).item() | |
| print(f"step {step:5d} loss {loss.item():.4f} psnr {p:5.2f} " | |
| f"N {gsmodel.num_gaussians(params):7d} t {time.time()-t0:6.1f}s", flush=True) | |
| # ---- evaluation on held-out test views ---- | |
| timgs, tvm, tKs, _, _ = load_blender(args.scene_dir, "test", args.downscale, device, max_views=25) | |
| psnrs, ssims = [], [] | |
| with torch.no_grad(): | |
| for i in range(timgs.shape[0]): | |
| r, _, _ = gsmodel.render(params, tvm[i:i + 1], tKs[i:i + 1], W, H, args.sh_degree) | |
| pr = r[0].clamp(0, 1) | |
| psnrs.append(psnr(pr, timgs[i]).item()) | |
| ssims.append(ssim(pr.permute(2, 0, 1)[None], timgs[i].permute(2, 0, 1)[None]).item()) | |
| test_psnr = float(np.mean(psnrs)) | |
| test_ssim = float(np.mean(ssims)) | |
| print(f"TEST psnr={test_psnr:.3f} ssim={test_ssim:.4f} over {len(psnrs)} views", flush=True) | |
| # ---- save model + cameras ---- | |
| cpu = {k: params[k].detach().cpu() for k in params.keys()} | |
| torch.save({ | |
| "params": cpu, | |
| "sh_degree": args.sh_degree, | |
| "W": W, "H": H, "scene_scale": scene_scale, | |
| "test_viewmats": tvm.cpu(), "test_Ks": tKs.cpu(), | |
| "test_psnr": test_psnr, "test_ssim": test_ssim, | |
| "n_gaussians": gsmodel.num_gaussians(params), | |
| "scene": os.path.basename(args.scene_dir.rstrip("/")), | |
| }, os.path.join(args.out, "model.pt")) | |
| # a couple of reference renders for sanity figures | |
| import imageio.v2 as imageio | |
| with torch.no_grad(): | |
| r, _, _ = gsmodel.render(params, tvm[0:1], tKs[0:1], W, H, args.sh_degree) | |
| ref = (r[0].clamp(0, 1).cpu().numpy() * 255).astype(np.uint8) | |
| imageio.imwrite(os.path.join(args.out, "ref_view0.png"), ref) | |
| gt0 = (timgs[0].cpu().numpy() * 255).astype(np.uint8) | |
| imageio.imwrite(os.path.join(args.out, "gt_view0.png"), gt0) | |
| with open(os.path.join(args.out, "train_summary.json"), "w") as f: | |
| json.dump({"scene": os.path.basename(args.scene_dir.rstrip("/")), | |
| "test_psnr": test_psnr, "test_ssim": test_ssim, | |
| "n_gaussians": int(gsmodel.num_gaussians(params)), | |
| "iters": args.iters, "W": W, "H": H, | |
| "scene_scale": scene_scale}, f, indent=2) | |
| print("SAVED", os.path.join(args.out, "model.pt"), flush=True) | |
| if __name__ == "__main__": | |
| main() | |