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workflow_examples

readme.md

Intro

The Snakefiles and associated config files in this directory are meant to provide examples of Snakemake workflows that use river-dl functionality. Hopefully these can serve as examples, but also we hope you are thinking about what works best for your needs and that you follow or depart from these examples accordingly. Some things to consider:

  • If you want to use these workflows for your own purposes, you will need to modify some things. See "What might change when you make your own workflow" section below for more details on what you might modify and where those modifications might take place.
  • There are many ways that snakemake could be used with river-dl to execute these workflows. If you want to learn more about the basics of snakemake, we recommend checking out their tutorial and their comprehensive docs.
  • There are also many ways that river-dl can be used without snakemake. For example, you could simply use a Python file to call different river-dl functions. This option generally trades robustness and scalability for expediency.

Example Snakemake workflows

Snakefile_basic.smk, config_basic.yml

This is an example of a basic workflow with an LSTM and only one training phase.

Snakefile_pretrain_LSTM.smk, config_pretrain_LSTM.yml

This is an example of a basic workflow with an LSTM with pretraining and finetuning.

Snakefile_rgcn.smk, config_rgcn.yml

This is an example of a basic workflow with a RGCN and two training phases. It also uses early stopping.

Snakefile_rgcn_pytorch.smk, config_rgcn_pytorch.yml

This is an example of a basic workflow with a pytorch RGCN and two training phases. It also uses early stopping.

Snakefile_gw.smk, config_gw.yml

This is an example of a workflow that does some customization to include groundwater-specific considerations. It uses an RGCN and and two training phase (pretraining and finetuning). It also uses early stopping.

Snakefile_rgcn_hypertune.smk, config* (will work with basic.yml)

This is an example of how to use wildcards in a Snakefile to train models with various hyperparameter settings. The example focuses on sequence length and sequence offset, but the same approach can be used to train models in replicate or explore other hyperparameter tuning spaces.

Running an example workflow

Assuming you have snakemake installed, you would run the "basic" workflow with 1 core with the following command:

snakemake -s Snakefile_basic.smk --configfile config_basic.yml -j1

Train a model on a GPU

To train a model using GPU, this line can be added to the run part of your training rule before the actual code that trains the model:

os.system("module load analytics cuda11.3/toolkit/11.3.0")

What might change when you make your own workflow

If you want to build from one of the example workflows, you will need to change some things and will likely want to change others. Most of the things you will need or want to change will be changed in the config.yml file.

Changes that are made in config.yml

Things you will most likely need to change:

  • the input datasets
    • the data used in the example workflows is a very small subset of meteorological drivers and water temperature and streamflow observations. These are defined in the sntemp_file and obs_filevalues in the "*_config.yml" files, respectively.
    • you will need to replace those values in the config file with the filepaths to the data files that contain the sites and times that you are interested in modeling
  • the train/validation/test dates
    • you will likely need to change these in the config.yml file as well to match the time periods you are wanting to use. Note - the river-dl preprocessing function prep_all_data can take multple, discontinuous time periods for any of the train, validation, and test partitions
  • The number of epochs
    • the example workflows are only for 5 epochs. We'll assume you'll want to train for more than that :)

Things you may want to change:

  • y_vars - if your output variables are different
  • out_dir - so your outputs are going where you want them to
  • other hyperparameters - such as (dropout, hidden_size, and learning rates)

Changes that are made Snakefile

Things you will most likely need to change (or at least make sure it's what you want):

  • the deep learning model you are wanting to train/evaluate. This is defined and compiled (with the optimizer and loss function) in the Snakefile. For example, this happens on line 65 of Snakefile_basic.smk:
model = LSTMModel(
    config['hidden_size'],
    recurrent_dropout=config['recurrent_dropout'],
    dropout=config['dropout'],
    num_tasks=len(config['y_vars'])
)