Skip to content

justinrporter/exposons-with-jug

Repository files navigation

Jug-ified Exposons Pipleine

A schematic of the exposons pipeline

Using the library jug, I've created a parallel execution framework for computing exposons on large datasets (really the type of dataset they're most useful for).

Installation

You should be able to install prerequisites (mdtraj, enspara, jug, etc.) with requirements.txt.

First, set up a virtual envronment:

virtualenv exposons
source exposons/bin/activate
pip install -r requirements.txt

If you're on MacOS, you'll need to clone and install MDTraj manually from master.

Configuration

There's a configuration file, proteins.json in this repository. It's a dictionary mapping target name to configurations for that target:

"protein_name": {
	"trajectories": [
		"/path/to/trajectory/trajectory00.xtc"
		"/path/to/trajectory/trajectory01.xtc",
		"/path/to/trajectory/trajectory02.xtc",
		"/path/to/trajectory/trajectory03.xtc",
	],
	"topology": "/path/to/trajectory/prot_masses.pdb",
	"cluster_radii": ["3.0"],
	"cluster_distance_metric": "euclidean",
	"lag_time": 150,
	"model_cluster_radius": "3.0",
	"kmedoids_updates": 10
}

This file is a dictionary of the form target_name: {configurations}. Each target needs the following keys set:

  • trajectories: a list of paths to trajectories
  • topology: the path to the topology (as a pdb, typically) that corresponds to trajectories
  • cluster_radii: the cluster radii to choose
  • cluster_distance_metric: the distance to use between SASA vectors during cluster
  • lag_time: the lag time to build the msm
  • model_cluster_radius: the radius for k-centers to cluster on
  • kmedoids_updates: the number of kmedoids refinements to do.

Checking your configuration

To check to see you've configured everything correctly, you can just run

jug status sasa-msms.py

That'll print something that looks like:

 Failed    Waiting      Ready   Complete     Active  Task name
-----------------------------------------------------------------------------------------------------
      0          1          0          0          0  libexposon.tasks.assemble_sasa_h5
      0          4          0          0          0  libexposon.tasks.condense_sparse_sidechain_sasas
      0          0          4          0          0  libexposon.tasks.map_sasa_sparse
.....................................................................................................
      0          5          4          0          0  Total

Here, there are only four trajectories (you'll probably have more than that). There are more steps to the pipeline, but they'll appear later.

There are several other useful jug commands, which you can find at jug's documentation. In particular, I recommend jug graph to get a sense of how tasks relate to each other.

Simple (All-at-Once) Execution

To run the pipeline serially, you can just run

jug execute sasa-msms.py

This will load each task (first libexposon.tasks.map_sasa_sparse), execute it, then write the result to disk, and start with the next task. This will continue until there are no more tasks to run.

The magic to jug is that you can run tasks in parallel though! So, for instance, with GNU Parallel you could run:

parallel -N0 nice jug execute sasa-msms.py  ::: {1..4}

To run four processes, each running different tasks at a time.

Complex (Step-by-Step) Execution

The reason to execute the tasks one-by-one is that you can apply the correct resouces

The tasks in the pipeline are:

  • libexposon.tasks.map_sasa_sparse - compute the SASA of each atom in each trajectory and store the result as a sparse, compressed array (npz format). Parallelization uses OMP_NUM_THREADS, typically all availiable on linux, or 1 on macos (since clang doesn't support openmp).
  • libexposon.tasks.condense_sparse_sidechain_sasas - condense the SASA of each atom into a single SASA for each residue, threads used: 1.
  • libexposon.tasks.assemble_sasa_h5 - combine each trajectory's residue SASA into a single enspara RaggedArray.
  • libexposon.tasks.cluster_features - use k-medoids to cluster the set of
  • libexposon.tasks.implied_timescales - compute implied timescales plots. Parallelization uses OMP_NUM_THREADS, typically all availiable on linux, or 1 on macos (since clang doesn't support openmp).
  • libexposon.tasks.write_struct_ctrs - write each center structure (from cluster_features) to a single trajectory on disk.

Depending on the task, on a high-performance computing clusters with slurm, I start with the following:

sbatch --array=0-9 --job-name sasa --exclusive --mem 8G --wrap 'jug execute sasa-msms.py --aggressive-unload --target libexposon.tasks.map_sasa_sparse'

This asks for 10 (--array-0-9) full (--exclusive) nodes each with 8GB (--mem 8G) or more or memory. Each will load one of the libexposon.tasks.map_sasa_sparse tasks, run it, and save the result, and then purge the result from memory (--aggressive-unload).

Then, because it's pretty low-compute, I'll do something like this for libexposon.tasks.condense_sparse_sidechain_sasas :

parallel -N0 nice jug execute sasa-msms.py  --target libexposon.tasks.condense_sparse_sidechain_sasas --aggressive-unload ::: {1..8}

There's only one libexposon.tasks.assemble_sasa_h5 job per target, so that's easy:

jug execute sasa-msms.py --target libexposon.tasks.assemble_sasa_h5

Clustering is a bit more complicated. If you want to use more than one node (with MPI) you need MPI installed (e.g. MPICH) as well as mpi4py, which isn't installed by default in requriements.txt. If you don't need MPI, queue your clustering job with something like:

sbatch --job-name exposon-cluster --exclusive --wrap 'jug execute sasa-msms.py --target libexposon.tasks.cluster_features'

if you're using MPI, you can say something like:

sbatch --job-name exposon-cluster --exclusive --nodes=4 --cpus-per-task 24 --wrap 'jug execute sasa-msms.py --target libexposon.tasks.cluster_features'

to ask for 4 nodes (--nodes=4) with 24 cores each (--cpus-per-task 24). This will, of course, differ based on your queueing system

About

Use the parallelization framework jug to build exposons!

Topics

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages