variant-spark is a scalable toolkit for genome-wide association studies optimized for GWAS-like datasets.
Machine learning methods and, in particular, random forests (RFs) are promising alternatives to standard single SNP analyses in genome-wide association studies (GWAS). RFs provide variable importance measures to rank SNPs according to their predictive power. Although there are several existing random forest implementations available, some even parallel or distributed such as Random Jungle, ranger, or SparkML, most of them are not optimized to deal with GWAS datasets, which usually come with thousands of samples and millions of variables.
variant-spark currently provides the basic functionality of building a random forest model and estimating variable importance with the mean decrease gini method. The tool can operate on VCF and CSV files. Future extensions will include support for other importance measures, variable selection methods, and data formats.
variant-spark utilizes a novel approach of building random forests from data in transposed representation, which allows it to efficiently deal with even extremely wide GWAS datasets. Moreover, since the most common genomics variant calls file format, i.e. VCF, which uses the transposed representation, variant-spark can work directly with the VCF data, without the costly pre-processing required by other tools.
variant-spark is built on top of Apache Spark – a modern distributed framework for big data processing, which gives variant-spark the ability to scale horizontally on both bespoke cluster and public clouds.
The potential users include:
Please feel free to add issues and/or upvote issues you care about. Also, join the Gitter chat. We also started ReadTheDocs and there is always this repo's issues page for you to add requests. Thanks for your support.
To learn more watch this video from HUGO Conference 2020.
variant-spark requires java jdk 1.8+ and maven 3+
In order to build the binaries use:
mvn clean install
For Python variant-spark requires Python 3.6+ with pip.
The other packages required for development are listed in dev/dev-requirements.txt
and can be installed with:
pip install -r dev/dev-requirements.txt
or with:
./dev/py-setup.sh
The complete build including all checks can be run with:
./dev/build.sh
variant-spark requires an existing spark 3.1+ installation (either a local one or a cluster one).
To run variant-spark use:
./variant-spark [(--spark|--local) <spark-options>* --] [<command>] <command-options>*
To obtain the list of the available commands use:
./variant-spark -h
To obtain help for a specific command (for example importance
) use:
./variant-spark importance -h
You can use --spark
marker before the command to pass spark-submit
options to variant-spark. The list of spark options needs to be terminated with --
, e.g:
./variant-spark --spark --master yarn-client --num-executors 32 -- importance ....
Please, note that --spark
needs to be the first argument of variant-spark
You can also run variant-spark in the --local
mode. In this mode, variant-spark will ignore any Hadoop or Spark configuration files and run in the local mode for both Hadoop and Spark. In particular, in this mode, all file paths are interpreted as local file system paths. Also, any parameters passed after --local
and before --
are ignored. For example:
./bin/variant-spark --local -- importance -if data/chr22_1000.vcf -ff data/chr22-labels.csv -fc 22_16051249 -v -rn 500 -rbs 20 -ro
Note:
The difference between running in --local
mode and in --spark
with local
master is that in the latter case, Spark uses the Hadoop filesystem configuration and the input files need to be copied to this filesystem (e.g. HDFS)
Also, the output will be written to the location determined by the Hadoop filesystem settings. In particular paths without schema e.g. 'output.csv' will be resolved with the Hadoop default filesystem (usually HDFS)
To change this behavior you can set the default filesystem in the command line using spark.hadoop.fs.default.name
option. For example to use local filesystem as the default use:
./bin/variant-spark --spark ... --conf "spark.hadoop.fs.default.name=file:///" ... -- importance ... -of output.csv
You can also use the full URI with the schema to address any filesystem for both input and output files e.g.:
./bin/variant-spark --spark ... --conf "spark.hadoop.fs.default.name=file:///" ... -- importance -if hdfs:///user/data/input.csv ... -of output.csv
There are multiple methods for running variant-spark examples
variant-spark comes with a few example scripts in the scripts
directory that demonstrate how to run its commands on sample data.
There are a few small data sets in the data
directory suitable for running on a single machine. For example:
./examples/command-line/local_run-importance-ch22.sh
runs variable importance command on a small sample of the chromosome 22 VCF file (from 1000 Genomes Project)
The full-size examples require a cluster environment (the scripts are configured to work with Spark on YARN).
The data required for the examples can be obtained from the data folder https://github.com/aehrc/VariantSpark/tree/master/data
This repository uses the git Large File Support extension, which needs to be installed first (see: https://git-lfs.github.com/)
Clone the variant-spark-data
repository and then install the test data into your Hadoop filesystem using:
./install-data
By default, the sample data will installed into the variant-spark-data\input
sub-directory of your HDFS home directory.
You can choose a different location by setting the VS_DATA_DIR
environment variable.
After the test data has been successfully copied to HDFS you can run examples scripts, e.g.:
./examples/command-line/yarn_run-importance-ch22.sh
Note: if you installed the data to a non-default location the VS_DATA_DIR
needs to be set accordingly when running the examples
VariantSpark can easily be used in AWS and Azure. For more examples and information, check the cloud folder. For a quick start, check the few pointers below.
VariantSpark is now available on AWS Marketplace. Please read the Guidlines for specifications and step-by-step instructions.
VariantSpark can be easily deployed in Azure Databricks through the button below. Please read the VariantSpark Azure manual for specifications and step-by-step instructions.
JsonRfAnalyser is a Python program that looks into the JSON RandomForest model and lists variables on each tree and branch. Please read README to see the complete list of functionalities.
rfview.html is a web program (run locally on your machine) where you can upload the JSON model produced by variant-spark and it visualizes trees in the model. You can identify which tree to be visualized. Node color and node labels could be set to different parameters such as the number of samples in the node or the node impurity. It uses vis.js for tree Visualisation.