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physical-ai-neural-reconstruction

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by openai · part of openai/plugins

Router for NVIDIA NuRec/NRE: USDZ rendering, NCore conversion, 3DGS, gRPC sensor sim, PhysicalAI HF datasets. Do NOT use for SimReady or infra setup.

🧩 One of 7 skills in the openai/plugins package — works on its own, and pairs well with its siblings.

This is the playbook your agent receives when the skill activates — you don't need to read it to use the skill, but it's here to audit before installing.

Physical AI Neural Reconstruction (NuRec) Router

Purpose

This is a thin router for NVIDIA Neural Reconstruction (NuRec) requests. It points at the upstream nurec-index skill at https://github.com/NVIDIA/nurec-skills and its five sibling skills (physical-ai-datasets, ncore, nre, asset-harvester, nurec-fixer). Use this skill to:

  • Identify which upstream sibling skill answers a NuRec question.
  • Locate, clone, or refresh the canonical nurec-skills checkout.
  • Order multi-step NuRec workflows (data → conversion → train → render → cleanup) before opening the upstream recipe.

The canonical recipes (training, rendering, data conversion, dataset downloads, object harvesting, frame cleanup) live in the upstream sibling skills. Never copy or reconstruct their commands here.

Do NOT use this skill for:

  • SimReady packaging of CAD or source meshes → use omniverse-cad-to-simready.
  • Generic USD performance tuning unrelated to NuRec → use omniverse-usd-performance-tuning.
  • AKS / OSMO / NIM Operator infrastructure setup → use physical-ai-infrastructure-setup-and-resilient-scaling.

When to Use

Read this skill first whenever a user mentions any of:

nurec, nurec router, nurec index, neural reconstruction, neural reconstruction engine, NRE, 3DGUT, 3DGRT, USDZ, NCore V4, sensor sim, novel view synthesis, PhysicalAI-Autonomous-Vehicles-NuRec, PhysicalAI-NuRec-PPISP, Cosmos-Drive-Dreams, asset harvester, nurec fixer, DiffusionHarmonizer, harmonizer, difix, difix3d, serve-grpc, render-grpc, warm serve-grpc, nre thin client, batch_render_rgb, nurec teardown, "where do I start with NuRec", "which NuRec skill should I use for X?".

Decide which upstream sibling skill answers the question, fetch it (see Locate and fetch the upstream skills), then follow that skill's body.

What is NuRec?

NuRec (NVIDIA Omniverse Neural Reconstruction) takes camera, LiDAR, radar, or stereo recordings — typically from a self-driving car or a robot — and turns them into a 3D scene you can re-render from any viewpoint. Names that come up a lot:

  • NRE — "Neural Reconstruction Engine". NuRec is the product; NRE is the engine that trains and renders. Both route to the upstream nre skill.
  • USDZ — the file format of a trained scene. A zip archive that Omniverse, Isaac Sim, and CARLA can open.
  • NCore V4 — the input format NRE consumes. Raw recordings must be converted to NCore V4 before training.
  • 3DGUT / 3DGRT — the two 3D Gaussian Splatting flavours used internally by NRE. The default Hydra recipe picks one; most users never set it manually.

A typical NuRec project has three stages:

  1. Get the input — convert your own recording to NCore V4 (ncore), or download a pre-converted dataset (physical-ai-datasets).
  2. Train the reconstruction — feed NCore V4 to NRE; out comes a USDZ (nre).
  3. Render new views — render images, videos, or LiDAR sweeps from the USDZ (nre).

Projects that just want to use an existing NVIDIA-published scene skip step 2.

Pick a skill

Match the user's goal in the left column and open the named upstream skill on the right. Arrows mean "do these in order".

I want to…Upstream skill
Find or download a NuRec dataset NVIDIA has publishedphysical-ai-datasets
Convert my own camera / LiDAR / radar / depth / stereo recording into NCore V4ncore
Write a new converter for an unsupported sensor setup (drone, RGB-D, ROS 2 bag, COLMAP, ScanNet++)ncore
Train a 3D reconstruction from an NCore clipncorenre
Generate the extra inputs NRE needs (segmentation masks, depth, ego mask)nre (uses the nre-tools container)
Render a USDZ along the original camera positionsnre
Render at full resolution / highest qualitynre (see "Quality presets")
Render along a shifted trajectory (e.g. car moved 3 m left)nre
Render through a server so CARLA / Isaac Sim / AlpaSim / a custom simulator can ask for framesnre (serve-grpc)
Render the same USDZ many times back-to-back from Python with minimal per-call latencynre (warm serve-grpc + thin Python client / batch_render_rgb)
Render LiDAR sweeps (point clouds) from a USDZnre (render-grpc --lidar)
Skip training and just render a NuRec scene NVIDIA already builtphysical-ai-datasetsnre
Extract individual 3D objects (cars, pedestrians) from a driving clipasset-harvester
Add, remove, or replace cars / pedestrians in a NuRec sceneasset-harvesternre
Clean up or harmonize rendered frames (ghosting, floaters, flicker, lighting/shadows)nurec-fixer, or --enable-difix inside nre for inline rendering
Export the scene as a PLY, mesh, depth maps, ego mask, etc.nre
Upgrade an old USDZ so newer NRE versions load it fasternre (upgrade-artifact)
Open a USDZ or PLY in a browser viewernre (viewer / ply_viewer)
Measure rendering quality (PSNR, SSIM, LPIPS) against ground truthnre (eval-rendering-metrics)
Benchmark different reconstruction methods on the same scenesphysical-ai-datasets (PhysicalAI-NuRec-PPISP) → nre
Train on multiple GPUs or on SLURMnre (Workflow D)

Common workflows

Six end-to-end workflows are documented in references/workflows.md:

  • A. Make a NuRec scene from your own recording.
  • B. Use a NuRec scene NVIDIA has already trained.
  • C. Add, remove, or replace 3D objects in a scene.
  • D. Clean up rendered frames.
  • E. Benchmark reconstruction quality.
  • F. Connect NuRec to a simulator.

Open that file when the user's task spans more than one sibling skill.

Sibling skills (upstream)

NameUpstream folderWhat it does
physical-ai-datasets.agents/skills/physical-ai-datasets/Catalog and download recipes for every NVIDIA Physical AI dataset on Hugging Face (driving, robotics, manipulation, NuRec scenes, benchmarks).
ncore.agents/skills/ncore/Converts any sensor recording to NCore V4 (the format NRE needs). Also covers writing a new converter.
nre.agents/skills/nre/The Neural Reconstruction Engine itself. Trains, renders (locally, via warm serve-grpc + thin Python client / batch_render_rgb, or to an external simulator), exports meshes / point clouds / depth, edits actors, evaluates quality.
asset-harvester.agents/skills/asset-harvester/Open-source Apache-2.0 pipeline that extracts individual 3D objects from sparse views in a driving clip and saves them as .ply Gaussian splats with metadata.
nurec-fixer.agents/skills/nurec-fixer/Standalone NVIDIA DiffusionHarmonizer workflow — public successor to the older Fixer / Difix3D+ recipes — that cleans rendered frames, harmonizes inserted actors, evaluates PSNR/LPIPS, and optionally fine-tunes the model.

For naming overlaps (NRE vs Fixer, ncore vs nre, AV-NuRec vs Cosmos-Drive-Dreams, NuRec vs SimReady) see references/mix-ups.md.

Locate and fetch the upstream skills

Quick recipe (full version in references/upstream-fetch.md):

UPSTREAM_ROOT="${NUREC_SKILLS_UPSTREAM_ROOT:-${PHYSICAL_AI_SKILL_HUB_UPSTREAM_ROOT:-$HOME/.physical-ai-skill-hub/upstreams}}"
mkdir -p "$UPSTREAM_ROOT"
if [ -d "$UPSTREAM_ROOT/nurec-skills/.git" ]; then
  git -C "$UPSTREAM_ROOT/nurec-skills" fetch --tags
  git -C "$UPSTREAM_ROOT/nurec-skills" checkout main
  git -C "$UPSTREAM_ROOT/nurec-skills" pull --ff-only
else
  git clone --depth 1 https://github.com/NVIDIA/nurec-skills.git \
    "$UPSTREAM_ROOT/nurec-skills"
fi
test -f "$UPSTREAM_ROOT/nurec-skills/.agents/skills/SKILL.md"

Then read the upstream skill before running any mutating command:

cat "$UPSTREAM_ROOT/nurec-skills/.agents/skills/SKILL.md"          # router
cat "$UPSTREAM_ROOT/nurec-skills/.agents/skills/<folder>/SKILL.md" # sibling

Local lookup order (try in order before the upstream clone):

  1. .agents/skills/<name>/SKILL.md (Cursor, Codex, NemoClaw)
  2. .claude/skills/<name>/SKILL.md (Claude Code)
  3. .cursor/skills/<name>/SKILL.md (project-scoped)
  4. ~/.cursor/skills/<name>/SKILL.md (personal skills)

Hard Rules

  • Router only — do not duplicate upstream NuRec recipes here. Read the upstream sibling skill body before running any mutating command.
  • Refer to sibling skills by their name: (e.g. nre), not by repo path. Folder layouts can change; the name is portable.
  • Clone or refresh https://github.com/NVIDIA/nurec-skills under the shared upstream root (${NUREC_SKILLS_UPSTREAM_ROOT:-${PHYSICAL_AI_SKILL_HUB_UPSTREAM_ROOT:-$HOME/.physical-ai-skill-hub/upstreams}}/nurec-skills). Do not scan broad developer workspaces such as ~/Codes or reuse unrelated old clones.
  • physical-ai-datasets covers gated Hugging Face datasets. Do not bypass dataset license terms; the user must accept the PhysicalAI-* gated licenses on Hugging Face and provide a token before downloading.
  • Asset Harvester runs before packaging into a USDZ. Do not call nre's export-external-assets on hand-rolled .ply files unless the user explicitly asks to skip Asset Harvester.
  • For artifact cleanup, prefer the built-in --enable-difix path in nre. Route to the standalone nurec-fixer only when the user needs the public code/model card, paired evaluation, fine-tuning, or fixes on previously rendered frames.
  • Do not invent NRE / NCore / DiffusionHarmonizer commands from memory. Re-read the upstream sibling skill — versions move fast (NRE release_26.04 is the current pinned tag).
  • This router does not deploy infrastructure. Route AKS / OSMO / NIM Operator setup to physical-ai-infrastructure-setup-and-resilient-scaling.

Cross-skill teardown

A complete NuRec workflow can leave 150 GB+ on disk between container images, model weights, code clones, conda envs, and output directories. Each sibling skill has its own dedicated Teardown section — read them in the order documented in references/teardown.md when the user no longer needs the workflow.

Keeping this router up to date

Procedure for adding new sibling skills, renames, or upstream URL changes lives in references/maintenance.md. Treat the upstream nurec-index at https://github.com/NVIDIA/nurec-skills/blob/main/.agents/skills/SKILL.md as authoritative; this skill mirrors only the picker tables, the workflow ordering, and the upstream fetch recipe.