Multi-resolution aggregation for ICESat-2 ATL06 data using morton/healpix indexing
Project description
zagg - Multi-resolution Aggregation
Aggregate point observations to multi-resolution grids using HEALPix spatial indexing and serverless compute.
Overview
zagg aggregates sparse point data (e.g., ICESat-2 ATL06 elevation measurements) to gridded products using HEALPix/morton spatial indexing. Processing runs in parallel on AWS Lambda — each worker handles one spatial cell independently, writing to a shared Zarr v3 store following the DGGS convention.
Features
- Pre-computed granule catalogs — query CMR once, process many times
- Morton-based spatial indexing — HEALPix nested scheme for hierarchical grids
- Massive parallelism — tested with up to 1,700 concurrent Lambda workers
- Direct S3 access — h5coro reads HDF5 via byte-range requests, no downloads
- Cost-effective —
$0.006/cell ($2 per full Antarctica run on ARM64)
End-to-End Workflow
Step 1: Build a Granule Catalog
Query NASA's CMR-STAC to build a shard map of grid cells to granules. The grid
comes from the same pipeline config the aggregator uses (--config), so the
shard map can't be built against a different grid than the run.
# Install the catalog extra (STAC fetch + shard-map build). The geometry
# backend defaults to `auto`: exact-S2 spherely if its fork is installed (used
# for all grids), else mortie (HEALPix MOC); rectilinear grids require spherely.
pip install 'zagg[catalog]'
# Optional: the exact-S2 spherely SpatialIndex backend is a fork not on PyPI
# (benbovy/spherely#118) — install it separately (pick the wheel for your
# python/platform from the release assets):
# pip install "spherely @ https://github.com/espg/spherely/releases/download/v0.1.1-spatialindex/spherely-0.1.1+spatialindex-cp312-cp312-manylinux_2_28_x86_64.whl"
# ICESat-2 convenience — cycle number computes dates automatically:
uv run python -m zagg.catalog --config atl06.yaml --short-name ATL06 --cycle 22 \
--polygon my_region.geojson
# General — explicit date range and a bbox:
uv run python -m zagg.catalog \
--config atl06.yaml --short-name ATL06 \
--start-date 2024-01-06 --end-date 2024-04-07 \
--polygon my_region.geojson
--polygon drives both the CMR query bbox and the coverage mask; --bbox gives
the query box directly. Each granule record keeps both its S3 and HTTPS hrefs;
the run picks one via data_source.driver.
Output: shardmap_ATL06_2024-01-06_2024-04-07.json
See Catalog API for full options.
Step 2: Deploy the Lambda Function
Quick standup (CloudFormation). Stand up the whole backend — IAM role, dependency layer, and function — in your own AWS account from the pre-built release zips:
OUTPUT_BUCKET=my-results-bucket bash deployment/aws/stand_up.sh
# don't have the results bucket yet? add CREATE_BUCKET=true
# deploying outside us-west-2? add REGION=... STAGING_BUCKET=a-bucket-you-own-in-that-region
In us-west-2 the stack reads the Lambda code straight from the public
source.coop mirror — no staging bucket of your own needed. Outside us-west-2,
CloudFormation requires the code in a same-region bucket, so pass a
STAGING_BUCKET you own and the zips are copied there from the mirror first.
Deploys deployment/aws/template.yaml; the
artifacts are keyed by zagg minor version (derive from your install, or pin with
LAMBDA_VERSION=0.N). Override ARCH for x86_64.
Build from source (maintainers, or to customize the layer):
# Build the function package
bash deployment/aws/build_function.sh
# Build the dependency layer (ARM64)
bash deployment/aws/build_layer.sh arm64
# Deploy (updates an already-deployed function from CI artifacts)
bash deployment/aws/deploy.sh
See Lambda Deployment and ARM64 Build Guide.
Step 3: Run Processing
Processing reads a pipeline config YAML (data source, aggregation, output store) and a granule catalog. Run locally or dispatch to Lambda.
# Local processing (write to local Zarr):
uv run python -m zagg --config atl06.yaml --catalog catalog.json --store ./output.zarr
# Local processing (write to S3):
uv run python -m zagg --config atl06.yaml --catalog catalog.json --store s3://bucket/output.zarr
# Lambda dispatch (requires deployed Lambda function):
uv run python deployment/aws/invoke_lambda.py \
--config atl06.yaml --catalog catalog.json
# Test with a few cells:
uv run python -m zagg --config atl06.yaml --catalog catalog.json --max-cells 5
# Dry run:
uv run python -m zagg --config atl06.yaml --catalog catalog.json --dry-run
The store path and output grid parameters are defined in the YAML config (output.store, output.grid.child_order) and can be overridden via --store on the command line.
Step 4: Visualize Results
The output Zarr is a public DGGS dataset. The included notebook rasterizes HEALPix cells to a polar stereographic grid for fast rendering with imshow.
uv run jupyter notebook notebooks/rasterized_zarr.ipynb
Adjust GRID_SPACING in the notebook to control output resolution.
Example Notebooks
The notebooks under notebooks/ run on Binder — no install, no credentials. They install zagg[analysis] via the .binder/ conda config and read only synthetic in-notebook data or the anonymous, public source.coop benchmark store.
cryocloud_example.ipynb is the only Lambda demo; it dispatches to a deployed AWS Lambda and reads private-account S3 via the CryoCloud IRSA role, so it cannot run on Binder.
Project Structure
zagg/
├── src/zagg/ # Main package (cloud-agnostic)
│ ├── __main__.py # Local processing runner (python -m zagg)
│ ├── config.py # YAML pipeline configuration
│ ├── processing.py # Core aggregation pipeline
│ ├── catalog.py # CMR query + catalog building
│ ├── schema.py # Output schema + Zarr template
│ ├── store.py # Store factory (local or S3)
│ ├── auth.py # NASA Earthdata authentication
│ └── configs/ # Built-in pipeline configs (atl06.yaml)
├── deployment/ # Cloud-specific deployment
│ └── aws/ # Lambda handler, orchestrator, build scripts
├── notebooks/ # Visualization
├── docs/ # Documentation
└── tests/ # Test suite
Documentation
- Architecture — design philosophy, end-to-end flow diagram, key decisions
- Schema — aggregation dispatch, extending with new statistics
- API Reference — catalog, processing, schema, auth modules
- Lambda Deployment — AWS setup and production use
- ARM64 Build Guide — building Lambda layers for ARM64
Development
# Install
uv sync --all-groups
# Run tests
uv run pytest
# Lint
uv run ruff check src/
Requires Python >= 3.12, uv, AWS credentials (for Lambda), and a NASA Earthdata account (for data access).
Performance
| Metric | Value |
|---|---|
| Execution time | 2–3 min average per cell |
| Memory | 2 GB configured, 1–1.5 GB typical |
| Throughput | Tested with up to 1,700 concurrent workers |
| Cost |
License
MIT — see LICENSE file.
Project details
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