Directed Acyclic Workflow Graph Scheduling
Would you like fully reproducible and reusable experiments that run on HPC clusters as seamlessly as on your machine? Do you have to comment out large parts of your pipelines whenever something failed? Tired of writing and submitting Slurm scripts? Then dawgz
is made for you!
The dawgz
package provides a lightweight and intuitive Python interface to declare jobs along with their dependencies, requirements, settings, etc. A single line of code is then needed to execute automatically all or part of the workflow, while complying to the dependencies. Importantly, dawgz
can also hand over the execution to resource management backends like Slurm, which enables to execute the same workflow on your machine and HPC clusters.
Installation
The dawgz
package is available on PyPi, which means it is installable via pip
.
pip install dawgz
Alternatively, if you need the latest features, you can install it using
pip install git+https://github.com/francois-rozet/dawgz
Getting started
In dawgz
, a job is a Python function decorated by @dawgz.job
. This decorator allows to define the job's parameters, like its name, whether it is a job array, the resources it needs, etc. The job's dependencies are declared with the @dawgz.after
decorator. At last, the dawgz.schedule
function takes care of scheduling the jobs and their dependencies, with a selected backend. For more information, check out the interface and the examples.
Follows a small example demonstrating how one could use dawgz
to calculate π
(very roughly) using the Monte Carlo method. We define two jobs: generate
and estimate
. The former is a job array, meaning that it is executed concurrently for all values of i = 0
up to tasks - 1
. It also defines a postcondition ensuring that the file pi_{i}.npy
exists after the job's completion. The job estimate
has generate
as dependency, meaning it should only start after generate
succeeded.
import glob
import numpy as np
import os
from dawgz import job, after, ensure, schedule
samples = 10000
tasks = 5
@ensure(lambda i: os.path.exists(f"pi_{i}.npy"))
@job(array=tasks, cpus=1, ram="2GB", time="5:00")
def generate(i: int):
print(f"Task {i + 1} / {tasks}")
x = np.random.random(samples)
y = np.random.random(samples)
within_circle = x**2 + y**2 <= 1
np.save(f"pi_{i}.npy", within_circle)
@after(generate)
@job(cpus=2, ram="4GB", time="15:00")
def estimate():
files = glob.glob("pi_*.npy")
stack = np.vstack([np.load(f) for f in files])
pi_estimate = stack.mean() * 4
print(f"π ≈ {pi_estimate}")
schedule(estimate, name="pi.py", backend="async")
Running this script with the 'async'
backend displays
$ python examples/pi.py
Task 1 / 5
Task 2 / 5
Task 3 / 5
Task 4 / 5
Task 5 / 5
π ≈ 3.141865
Alternatively, on a Slurm HPC cluster, changing the backend to 'slurm'
results in the following job queue.
$ squeue -u username
JOBID PARTITION NAME USER ST TIME NODES NODELIST(REASON)
1868832 all estimate username PD 0:00 1 (Dependency)
1868831_[2-4] all generate username PD 0:00 1 (Resources)
1868831_0 all generate username R 0:01 1 node-x
1868831_1 all generate username R 0:01 1 node-y
In addition to the Python interface, dawgz
provides a simple command-line interface (CLI) to list the scheduled workflows, the jobs of a workflow or the output(s) of a job.
$ dawgz
Name ID Date Backend Jobs Errors
-- ------ -------- ------------------- --------- ------ --------
0 pi.py 8094aa20 2022-02-28 16:37:58 async 2 0
1 pi.py 9cc409fd 2022-02-28 16:38:33 slurm 2 0
$ dawgz 1
Name ID State
-- ------------- ------- -------------------------
0 generate[0-4] 1868831 COMPLETED,PENDING,RUNNING
1 estimate 1868832 PENDING
$ dawgz 1 0
Name State Output
-- ----------- --------- ----------
0 generate[0] COMPLETED Task 1 / 5
1 generate[1] COMPLETED Task 2 / 5
2 generate[2] RUNNING
3 generate[3] RUNNING
4 generate[4] PENDING
Interface
Decorators
The package provides four decorators:
-
@dawgz.job
registers a function as a job, with its settings (name, array, resources, ...). It should always be the first (lowest) decorator. In the following example, a
is a job with the name 'A'
and a time limit of one hour.
@job(name="A", time="01:00:00")
def a():
All keyword arguments other than name
, array
and array_throttle
are passed as settings to the scheduler. For example, with the slurm
backend, the following would lead to a job array of 64 tasks, with a maximum of 3 simultaneous tasks running exclusively on tesla
or quadro
partitions.
@job(array=64, array_throttle=3, partition="tesla,quadro")
Importantly, a job is shipped with its context, meaning that modifying global variables after it has been created does not affect its execution.
-
@dawgz.after
adds one or more dependencies to a job. By default, the job waits for its dependencies to complete with success. The desired status can be set to "success"
(default), "failure"
or "any"
. In the following example, b
waits for a
to complete with "failure"
.
@after(a, status="failure")
@job
def b():
-
@dawgz.waitfor
declares whether the job has to wait for "all"
(default) or "any"
of its dependencies to be satisfied before starting. In the following example, c
waits for either a
or b
to complete (with success).
@after(a, b)
@waitfor("any")
@job
def c():
-
@dawgz.ensure
adds a postcondition to a job, i.e. a condition that must be True
after the execution of the job. Not satisfying all postconditions after execution results in an AssertionError
at runtime. In the following example, d
ensures that the file log.txt
exists.
@ensure(lambda: os.path.exists("log.txt"))
@job
def d():
Traditionally, postconditions are only necessary indicators that a task completed with success. In dawgz
, they are considered both necessary and sufficient indicators. Therefore, postconditions can be used to detect jobs that have already been executed and prune them out of the workflow. To do so, set prune=True
in dawgz.schedule
.
Backends
Currently, dawgz.schedule
supports three backends: async
, dummy
and slurm
.
async
waits asynchronously for dependencies to complete before executing each job. The jobs are executed by the current Python interpreter.dummy
is equivalent to async
, but instead of executing the jobs, prints their name before and after a short (random) sleep time. The main use of dummy
is debugging.slurm
submits the jobs to the Slurm workload manager by automatically generating sbatch
submission scripts.