Skip to main content

Lightweight multiscale zarr

Project description

topozarr - lightweight multiscale zarr pyramids

Python library to create multiscale Zarr pyramids for usage with zarr-layer.

Follows these zarr-conventions:

  • multiscales — pyramid structure and resolution levels
  • proj: — coordinate reference system (CRS)
  • spatial: — affine transform, bounding box, and dimension names

Warning: experimental

Usage

Installation

uv add topozarr
# or
pip install topozarr

Pyramids are computed by topozarr-core, a small Rust kernel (installed automatically as a wheel), and written with zarr-python — no . involved. The tutorial extra includes everything needed to run the examples below:

uv add 'topozarr[tutorial]'
# or
pip install 'topozarr[tutorial]'

Example

import xarray as xr
import xproj # for crs assignment
from topozarr import create_pyramid

# Load the air_temperature Xarray tutorial dataset
ds = xr.tutorial.open_dataset('air_temperature').drop_encoding()
ds = ds.proj.assign_crs(spatial_ref="EPSG:4326")
print(ds)
pyramid = create_pyramid(
    ds,
    levels=2,
    x_dim="lon",
    y_dim="lat",
    method="mean",  # "mean" (default) | "max" | "min" | "sum"
)
print(pyramid.encoding)

# compute and write all levels
pyramid.write("pyramid.zarr")

levels is the total number of resolution levels, including the original. Level 0 is the original (highest) resolution; each subsequent level is coarsened by a factor of 2 per spatial dimension, so the last level is the coarsest.

create_pyramid returns a write plan; pyramid.write(store) does the work: level 0 is copied from the source dataset, then each level is block-reduced from the previously written one, streaming shard-sized regions through the Rust kernel on a thread pool (tune with max_workers). Reduction semantics match xarray.coarsen(boundary="trim") exactly, including skipna handling of NaN / _FillValue nodata.

Visualization hints

Use layer_hints to embed colormap and color range hints for zarr-layer directly in the pyramid metadata:

from topozarr.metadata import ZarrLayerVarConfig

pyramid = create_pyramid(
    ds,
    levels=2,
    x_dim="lon",
    y_dim="lat",
    layer_hints={"air": ZarrLayerVarConfig(colormap="blues", clim=[230, 310])},
)

These are written into the root zarr-layer metadata key and are optional — omitting layer_hints has no effect on the pyramid structure or encoding.

Chunking

pyramid.encoding holds the chunk and shard sizes per variable per level; pyramid.write applies them automatically.

# Inspect the encoding before writing
print(pyramid.encoding)

The heuristics target ~500KB chunks for web visualization. You can tune shard size with chunks_per_shard, the number of chunks per shard along each spatial dimension (default: 4, giving 4×4 = 16 chunks per shard and ~8MB shards). Valid values are powers of 2: 1, 2, 4, 8, 16, 32. Shards are also the unit of work during pyramid generation, so larger shards mean fewer, bigger reads/writes and higher memory usage.

chunks_per_shard chunks/shard approx shard size
1 1 ~500KB
4 16 ~8MB (default)
8 64 ~32MB
16 256 ~128MB

Pass chunks_per_shard=None to disable sharding entirely.

Writing

pyramid.write accepts anything zarr-python can open — a local path, an ObjectStore, or an icechunk session store:

# Write to object storage
from obstore.store import from_url
from zarr.storage import ObjectStore

store = ObjectStore(from_url(url="s3://carbonplan-scratch/topozarr/aira.zarr", region="us-west-2"))
pyramid.write(store, mode="w")
# Write to Icechunk
import icechunk

storage = icechunk.s3_storage(bucket="<your_bucket>", prefix="<your_prefix>", from_env=True)
repo = icechunk.Repository.create(storage)
session = repo.writable_session("main")
pyramid.write(session.store, mode="w")
session.commit("write pyramid")

Optional: zarrs codec pipeline

Compression codec work can optionally be routed through the Rust zarrs codec pipeline. It plugs in at the codec layer, so it works with any store backend (filesystem, ObjectStore, icechunk):

uv add zarrs
import zarr
zarr.config.set({"codec_pipeline.path": "zarrs.ZarrsCodecPipeline"})

Contributing

Clone the repo and install with the test dependency group. Building from source requires a Rust toolchain for the topozarr-core kernel (in core/):

git clone https://github.com/carbonplan/topozarr
cd topozarr
uv sync --group test

Run tests:

uv run pytest -n auto

Run conformance tests against the GeoZarr spec (requires the conformance group):

uv sync --group conformance
uv run pytest -n auto -m conformance

Lint and format:

uv run pre-commit run --all-files

To regenerate the demo datasets in S3 (requires AWS credentials), install the demo extra and run the build script:

uv sync --extra demo
uv run python scripts/build_demo_data.py --help

License

[!IMPORTANT] This code is licensed under the MIT License - see the LICENSE file for details.

About Us

CarbonPlan is a nonprofit organization that uses data and science for climate action. We aim to improve the transparency and scientific integrity of climate solutions through open data and tools. Find out more at carbonplan.org or get in touch by opening an issue or sending us an email

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

topozarr-0.0.8.tar.gz (10.2 kB view details)

Uploaded Source

Built Distribution

If you're not sure about the file name format, learn more about wheel file names.

topozarr-0.0.8-py3-none-any.whl (12.5 kB view details)

Uploaded Python 3

File details

Details for the file topozarr-0.0.8.tar.gz.

File metadata

  • Download URL: topozarr-0.0.8.tar.gz
  • Upload date:
  • Size: 10.2 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? Yes
  • Uploaded via: uv/0.11.20 {"installer":{"name":"uv","version":"0.11.20","subcommand":["publish"]},"python":null,"implementation":{"name":null,"version":null},"distro":{"name":"Ubuntu","version":"24.04","id":"noble","libc":null},"system":{"name":null,"release":null},"cpu":null,"openssl_version":null,"setuptools_version":null,"rustc_version":null,"ci":true}

File hashes

Hashes for topozarr-0.0.8.tar.gz
Algorithm Hash digest
SHA256 aa7aec322c4fde0dce7c998525f9fa6ae18b1e03fb72bc805e2d27e386e4b893
MD5 552e764e33e9726ed7adbe22f72204c7
BLAKE2b-256 9b857b46c7b1d599cb6eb2cb097a93076a9500c9a0b74291f968148b4deefc57

See more details on using hashes here.

File details

Details for the file topozarr-0.0.8-py3-none-any.whl.

File metadata

  • Download URL: topozarr-0.0.8-py3-none-any.whl
  • Upload date:
  • Size: 12.5 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? Yes
  • Uploaded via: uv/0.11.20 {"installer":{"name":"uv","version":"0.11.20","subcommand":["publish"]},"python":null,"implementation":{"name":null,"version":null},"distro":{"name":"Ubuntu","version":"24.04","id":"noble","libc":null},"system":{"name":null,"release":null},"cpu":null,"openssl_version":null,"setuptools_version":null,"rustc_version":null,"ci":true}

File hashes

Hashes for topozarr-0.0.8-py3-none-any.whl
Algorithm Hash digest
SHA256 8c092b4dcb116128e47f11811b23f25963a2b99346702751b5cc496adb638f55
MD5 e07cc8bfc6279189cc53d2266dd73776
BLAKE2b-256 33c0c93276f09dcacdf5376d4779bccf37f107768a972045ee79ad096ec2d207

See more details on using hashes here.

Supported by

AWS Cloud computing and Security Sponsor Datadog Monitoring Depot Continuous Integration Fastly CDN Google Download Analytics Pingdom Monitoring Sentry Error logging StatusPage Status page