Datasets:

CERN
/

ColliderML-Release-1

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End of preview. Expand in Data Studio

ColliderML: Dataset Release 1

Dataset Description

This dataset contains simulated high-energy physics collision events generated using the Open Data Detector (ODD) geometry within the Key4hep and ACTS (A Common Tracking Software) frameworks, representing a generic collider detector similar to those at the HL-LHC.

Dataset Summary

Collision Energy: 14 TeV (proton-proton)
Detector: Open Data Detector (ODD)
Simulation: DD4hep + Geant4 + ACTS
Format: Apache Parquet with list columns for variable-length data
License: CC-BY-4.0

Available Configurations

The dataset is organized into multiple configurations, each representing a combination of:

Physics process (e.g., ttbar, ggf, dihiggs)
Pileup condition (pu0 = no pileup, pu200 = HL-LHC pileup)
Object type (particles, tracker_hits, calo_hits, tracks)

Supported Tasks

This dataset is designed for machine learning tasks in high-energy physics, including:

Particle tracking: Reconstruct charged particle trajectories from detector hits
Track-to-particle matching: Associate reconstructed tracks with truth particles
Jet tagging: Identify jets originating from top quarks, b-quarks, or light quarks
Energy reconstruction: Predict particle energies from calorimeter deposits
Physics analysis: Event classification (signal vs. background discrimination)
Representation learning: Study hierarchical information at different detector levels

Quick Start

For the recommended way to download and load this data (with control over how many events are downloaded), see the ColliderML documentation: https://opendatadetector.github.io/ColliderML/.

You can use either (a) the ColliderML library (recommended) or (b) the Hugging Face datasets library with streaming.

Option (a): ColliderML library (recommended)

Install and download

pip install colliderml
colliderml download --channels ttbar --pileup pu0 --objects particles,tracker_hits,calo_hits,tracks --max-events 200

Adjust --channels and --pileup for your config (e.g. ggf, pu200); see the ColliderML docs for options.

Load in Python

from colliderml.core import load_tables, collect_tables

cfg = {
    "dataset_id": "CERN/ColliderML-Release-1",
    "channels": "ttbar",
    "pileup": "pu0",
    "objects": ["particles", "tracker_hits", "calo_hits", "tracks"],
    "split": "train",
    "lazy": False,
    "max_events": 200,
}
tables = load_tables(cfg)
frames = collect_tables(tables)  # dict[str, pl.DataFrame]
# e.g. frames["particles"], frames["tracker_hits"] — one row per event, list columns

For exploding event tables into flat (object-per-row) tables, pileup subsampling, and calibration, see the library docs and the exploration notebook.

Option (b): Hugging Face `datasets` with streaming

To iterate over events without downloading the full split, use streaming=True. Without streaming=True, load_dataset downloads all files for the chosen config.

from datasets import load_dataset

# Stream first 100 events (only fetches data as you iterate)
ds = load_dataset("CERN/ColliderML-Release-1", "ttbar_pu0_particles", split="train", streaming=True)
for i, event in enumerate(ds):
    if i >= 100:
        break
    # use event (e.g. event["event_id"], event["px"], ...)

Selecting columns and working with tables

With the ColliderML workflow, select columns via Polars, e.g. frames["particles"].select(["event_id", "px", "py", "pz"]). For more (exploding, calibration), see the library docs and exploration notebook.

Dataset Structure

Data Instances

Each row represents a single collision event. Variable-length quantities (particles, hits, tracks) are stored as Parquet list columns.

Example event structure:

{
    'event_id': 42,
    'particle_id': [0, 1, 2, 3, ...],
    'pdg_id': [11, -11, 211, ...],
    'px': [1.2, -0.5, 3.4, ...],
    'py': [0.8, 1.1, -0.3, ...],
    'pz': [5.2, -2.1, 10.5, ...],
    'energy': [5.5, 2.3, 11.2, ...],
    # ... additional fields
}

Data Fields by Object Type

1. `particles` (Truth-level)

Truth information about particles, including both generator-level and those produced in the simulation.

Field	Type	Description
`event_id`	uint32	Unique event identifier
`particle_id`	list<uint64>	Unique particle ID within event
`pdg_id`	list<int64>	PDG particle code (11=electron, 13=muon, 211=pion, etc.)
`mass`	list<float32>	Particle rest mass (GeV/c²)
`energy`	list<float32>	Particle total energy (GeV)
`charge`	list<float32>	Electric charge (units of e)
`px`, `py`, `pz`	list<float32>	Momentum components (GeV/c)
`vx`, `vy`, `vz`	list<float32>	Vertex position (mm)
`time`	list<float32>	Production time (ns)
`perigee_d0`	list<float32>	Perigee transverse impact parameter (mm)
`perigee_z0`	list<float32>	Perigee longitudinal impact parameter (mm)
`num_tracker_hits`	list<uint16>	Number of hits in tracker
`num_calo_hits`	list<uint16>	Number of hits in calorimeter
`primary`	list<bool>	Whether particle is primary
`vertex_primary`	list<uint16>	Primary vertex index (1=hard scatter)
`parent_id`	list<int64>	ID of parent particle (-1 if none)

2. `tracker_hits` (Detector-level)

Digitized spatial measurements from the tracking detector (silicon sensors).

Field	Type	Description
`event_id`	uint32	Unique event identifier
`x`, `y`, `z`	list<float32>	Measured hit position (mm)
`true_x`, `true_y`, `true_z`	list<float32>	True hit position before digitization (mm)
`time`	list<float32>	Hit time (ns)
`particle_id`	list<uint64>	Truth particle that created this hit
`volume_id`	list<uint8>	Detector volume identifier
`layer_id`	list<uint16>	Detector layer number
`surface_id`	list<uint32>	Sensor surface identifier
`detector`	list<uint8>	Detector subsystem code

3. `calo_hits` (Calorimeter-level)

Energy deposits in the calorimeter system (electromagnetic + hadronic).

Field	Type	Description
`event_id`	uint32	Unique event identifier
`detector`	list<uint8>	Calorimeter subsystem code
`total_energy`	list<float32>	Total energy deposited in cell (GeV)
`x`, `y`, `z`	list<float32>	Cell center position (mm)
`contrib_particle_ids`	list<list<uint64>>	IDs of particles contributing to this cell
`contrib_energies`	list<list<float32>>	Energy contribution from each particle (GeV)
`contrib_times`	list<list<float32>>	Time of each contribution (ns)

4. `tracks` (Reconstruction-level)

Reconstructed particle tracks from ACTS pattern recognition and track fitting.

Field	Type	Description
`event_id`	uint32	Unique event identifier
`track_id`	list<uint16>	Unique track identifier within event
`majority_particle_id`	list<uint64>	Truth particle with most hits on this track
`d0`	list<float32>	Transverse impact parameter (mm)
`z0`	list<float32>	Longitudinal impact parameter (mm)
`phi`	list<float32>	Azimuthal angle (radians)
`theta`	list<float32>	Polar angle (radians)
`qop`	list<float32>	Charge divided by momentum (e/GeV)
`hit_ids`	list<list<uint32>>	List of tracker hit IDs on this track

Derived quantities for tracks:

Transverse momentum: pt = abs(1/qop) * sin(theta)
Pseudorapidity: eta = -ln(tan(theta/2))
Total momentum: p = abs(1/qop)

Dataset Creation

Simulation Chain

Event Generation: MadGraph5 + Pythia8 for hard scatter and parton shower
Detector Simulation: Geant4 via DD4hep with the Open Data Detector geometry
Digitization: Realistic detector response simulation
Reconstruction: ACTS track finding and fitting algorithms
Format Conversion: EDM4HEP → Parquet using the ColliderML pipeline

Software Stack

ACTS: A Common Tracking Software - https://acts.readthedocs.io/
Open Data Detector: https://github.com/acts-project/odd
Key4hep: https://key4hep.github.io/
EDM4HEP: https://edm4hep.web.cern.ch/

Citation

If you use this dataset in your research, please cite:

@dataset{colliderml_release1_2025,
  title={{ColliderML Dataset Release 1}},
  author={{ColliderML Collaboration}},
  year={2025},
  publisher={Hugging Face},
  howpublished={\url{https://huggingface.co/datasets/OpenDataDetector/ColliderML-Release-1}},
  note={Simulation performed using ACTS and the Open Data Detector}
}

Support

For questions, issues, or feature requests:

Email: daniel.thomas.murnane@cern.ch
GitHub: https://github.com/OpenDataDetector/ColliderML

Acknowledgments

This work was supported by:

NERSC computing resources (National Energy Research Scientific Computing Center)
U.S. Department of Energy, Office of Science
Danish Data Science Academy (DDSA)

Release Version: 1.0
Last Updated: November 2025