This repo tries to benchmark boosting frameworks against some of the popular ML datasets. This is a more scriptable version of Microsoft's work on comparing LightGBM and XGBoost: https://github.com/Azure/fast_retraining/. Most of the datasets used here are the same as in the above repo.
- Cuda 9.2 or greater
- Nvidia docker 2.0
$ git clone https://github.com/NVIDIA/gbm-bench.git
$ cd gbm-bench
Create a docker image for cuda 10.0
$ docker build -t gbm-bench:10.0 . --build-arg CUDA_VERSION=10.0
You can create docker images with different cuda versions as below. You will not be able to create an image for a cuda version greater than what is installed on your system. The GBM libraries may not support very recent versions of cuda.
$ docker build -t gbm-bench:9.2 . --build-arg CUDA_VERSION=9.2
gbm-bench will automatically download datasets as needed using wget or the Kaggle API. To use the kaggle datasets you will need a valid kaggle account and API token. Create a folder 'gbm-datasets' in some location with sufficient space for large datasets. Mounting this folder on fast local storage as opposed to network storage is recommended.
$ mkdir gbm-datasets
Upon launching docker you will pass this folder as well as the location of the kaggle API key as volumes to the container.
Name | Rows | Columns | Task |
---|---|---|---|
airline | 115M | 13 | Classification |
bosch | 1.184M | 968 | Classification |
fraud | 285K | 28 | Classification |
higgs | 11M | 28 | Classification |
year | 515K | 90 | Regression |
covtype | 581K | 54 | Multiclass |
epsilon | 500K | 2000 | Classification |
This section assumes that one has elevated permissions on the system where this docker image will be run for benchmarking! In case this is not true, update your flow accordingly.
docker run --runtime=nvidia -it --rm \
-w /opt/gbm-bench \
-v {YOUR-LOCATION/gbm-datasets}:/opt/gbm-datasets \
-v {YOUR-LOCATION/gbm-bench}:/opt/gbm-bench \
-v {KAGGLE-API-LOCATION/.kaggle}:/root/.kaggle \
gbm-bench:10.0 /bin/bash
The above command launches an interactive session and mounts the dataset folder, the gbm-bench repo and your kaggle API key inside the container. "gbm-bench:10.0" refers to the docker image, modify this if you are using a different cuda version.
Benchmarks are launched from the python runme.py script
python runme.py --help
usage: runme.py [-h] [-dataset DATASET] [-root ROOT] [-algorithm ALGORITHM]
[-gpus GPUS] [-cpus CPUS] [-output OUTPUT] [-ntrees NTREES]
[-nrows NROWS] [-warmup] [-verbose] [-extra EXTRA]
Benchmark xgboost/lightgbm/catboost on real datasets
optional arguments:
-h, --help show this help message and exit
-dataset DATASET The dataset to be used for benchmarking. 'all' for all
datasets.
-root ROOT The root datasets folder
-algorithm ALGORITHM Comma-separated list of algorithms to run; 'all' run
all
-gpus GPUS #GPUs to use for the benchmarks; ignored when not
supported. Default is to use all.
-cpus CPUS #CPUs to use for the benchmarks; 0 means
psutil.cpu_count(logical=False)
-output OUTPUT Output json file with runtime/accuracy stats
-ntrees NTREES Number of trees. Default is as specified in the
respective dataset configuration
-nrows NROWS Subset of rows in the datasets to use. Useful for test
running benchmarks on small amounts of data. WARNING:
Some datasets will give incorrect accuracy results if
nrows is specified as they have predefined train/test
splits.
-warmup Whether to run a small benchmark (fraud) as a warmup
-verbose Produce verbose output
-extra EXTRA Extra arguments as a python dictionary
As an example, launch the xgb-gpu algorithm on the year dataset.
python runme.py -dataset year -algorithm xgb-gpu
- This is more scriptable (and configurable) version (eg: for automated benchmarking)
- Also adds CatBoost to the comparison list
- Tries to keep the boosting hyper-params the same across frameworks for a fair comparison. Reference: this paper
- Supports multi-GPU as well as multi-node benchmarking (assuming underlying framework allows)
The third party codes which we borrowed from, and their license texts, are released "as-received" under the folder named "3rdparty". Refer to 3rdparty/README.md as to when they are borrowed and their respective licenses.
This project is released under BSD License. Refer to LICENSE for more details.