3D Multi-view Rendering Dataset (Objaverse / GObjaverse)
[3/25/2026] Update: The data is temporarily incomplete and is actively being uploaded...
This repository hosts parquet-formatted multi-view rendering data for 3D assets. It contains three uploaded folders:
gobjaverse_parquet/(1.1T): original views from the GObjaverse dataset.complete-objaverse-parquet/(1.4T): custom "more complete view" renders.complete-objaverse-top/(852.7G): top-to-down views with azimuth sampling.
Dataset splits
1) gobjaverse_parquet
- Source: original GObjaverse view set.
- Per object: one parquet file.
- Main usage: baseline view supervision from original camera settings.
2) complete-objaverse-parquet
- Source: custom rendering pipeline with denser/more complete coverage.
- Per object: one parquet file.
- Typical view count in generation scripts: 36 canonical views + optional top views merged during parquet building.
3) complete-objaverse-top
- Source: top-to-down render pass.
- Purpose: improve overhead viewpoint coverage that is usually underrepresented in horizon-only renderings.
- Used together with complete views during parquet construction.
Rendering view config (from objaverse-rendering)
The rendering behavior is defined in objaverse-rendering/scripts/blender_script.py:
- Engine:
CYCLES(used by distributed launcher). - Resolution:
512 x 512. - Output image format:
PNGwithRGBA. - Camera focal setup:
lens = 35sensor_width = 32- camera distance derived from FoV:
fov = 2 * atan(sensor_width / (2 * lens))camera_dist = 0.5 / sin(fov / 2)
- Camera orbit sampling:
- Azimuth: uniform sweep over
[0, 2pi)withtheta = i / N * 2pi. - Elevation: fixed horizon angle (
phi = 90 degin spherical coordinates), i.e. near zero elevation around the object.
- Azimuth: uniform sweep over
- In this repo's launcher (
objaverse-rendering/scripts/distributed_blender.py),--num_images 6is used for that specific run config.
Azimuth / Elevation by folder
Angles below are in degrees.
complete-objaverse-parquet
This split is a merged parquet of:
- base complete views (
view_id0-35), and - top views (
view_id36-47) fromcomplete-objaverse-top.
- Base complete views (
view_id0-35):- Elevation set:
{0, 30, 60}. - For each elevation: azimuth is uniformly sampled over 12 views:
azimuth = {0, 30, 60, ..., 330}.
- Elevation set:
- Top merged views (
view_id36-47):- Elevation:
90(implemented numerically as90 - 1e-12in render code to avoid singularity). - Azimuth:
0, 30, 60, ..., 330(12 views).
- Elevation:
complete-objaverse-top
- Number of views per object:
12. - Elevation: top-down (
90, numerically90 - 1e-12in code). - Azimuth: uniform 12-step sweep:
azimuth = {0, 30, 60, ..., 330}.
gobjaverse_parquet
- This split keeps the original GObjaverse camera views.
- Each object parquet stores 40 views (200 key-value rows = 40 views x 5 assets per view).
- Azimuth/elevation are read from per-view camera JSON entries (
00000.json...00039.json) inside parquet:- azimuth/elevation should be treated as metadata from JSON (recommended source of truth),
- therefore elevation is not a single globally fixed value in this split.
Example file tree (Hugging Face dataset layout)
<dataset-root>/
βββ README.md
βββ gobjaverse_parquet/
β βββ 0/
β β βββ 10228.parquet
β β βββ ...
β βββ 1/
β βββ ...
βββ complete-objaverse-parquet/
β βββ 0/
β β βββ 10228.parquet
β β βββ ...
β βββ ...
βββ complete-objaverse-top/
βββ 0/
β βββ 10228/
β β βββ campos_512_v4/
β β βββ 0000/
β β β βββ rgba_0000.png
β β β βββ nd_0000.png
β β β βββ nd_0000.exr
β β βββ ...
β β βββ 0011/
β β βββ ...
β βββ ...
βββ ...
Notes:
- Parquet folders are object-centric (
<group_id>/<object_id>.parquet). - Top folder often stores per-view image files before/alongside parquet packaging.
Parquet file format
There are two parquet layouts in this dataset:
A) complete-objaverse-parquet format
- Schema:
view_id(int64)image_png(binary)nd_png(binary)
- Typical rows per object parquet:
48(view_idfrom0to47). - Interpretation: each row is one rendered view.
B) gobjaverse_parquet format
- Schema:
keys(string)values(binary)
- Typical rows per object parquet:
200. - Interpretation: each row is one keyed asset blob, e.g.:
00000.png00000_albedo.png00000_mr.png00000_nd.png00000.json- ... repeated across views.
Practical interpretation
- One parquet file = one object.
- In
complete-objaverse-parquet, rows are view records. - In
gobjaverse_parquet, rows are(key, binary payload)records. - Binary payloads can be decoded as PNG bytes (or JSON bytes for
*.jsonentries).
Minimal loading example
import io
import pyarrow.parquet as pq
from PIL import Image
# 1) complete-objaverse-parquet: row-per-view
t1 = pq.read_table("complete-objaverse-parquet/0/10010.parquet")
r1 = t1.to_pylist()[0]
img = Image.open(io.BytesIO(r1["image_png"]))
nd = Image.open(io.BytesIO(r1["nd_png"]))
print("complete view_id:", r1["view_id"], img.size, nd.size)
# 2) gobjaverse_parquet: key-value blobs
t2 = pq.read_table("gobjaverse_parquet/0/10010.parquet")
rows = t2.to_pylist()
blob_map = {x["keys"]: x["values"] for x in rows}
img0 = Image.open(io.BytesIO(blob_map["00000.png"]))
nd0 = Image.open(io.BytesIO(blob_map["00000_nd.png"]))
json0 = blob_map["00000.json"].decode("utf-8")
print("gobj keys:", len(blob_map), "img0:", img0.size, "nd0:", nd0.size)
print("json snippet:", json0[:80])
Citation / usage note
If you use these data splits, please cite the following original sources:
- Downloads last month
- 57