maestro
is an R package for creating and orchestrating
many data pipelines in R. If you have several batch jobs/pipelines that
you want to schedule and monitor from within a single R project, then
maestro
is for you. All you do is decorate R
functions with special roxygen2
tags and then execute an
orchestrator script:
Running data pipelines is an essential component of data engineering.
It is not unusual to have dozens of pipelines that need to run at
different frequencies, and when you go to deploy these pipelines
scheduling and monitoring them quickly becomes unwieldy. Perhaps you’ve
considered moving to heftier orchestration suites such as Airflow,
Dagster, and others which require learning entirely new skills and pose
their own challenges with deployment. maestro
allows you to
orchestrate your pipelines entirely in R. All you then need is an
environment to deploy your maestro
project.
A pipeline is some process that takes raw data (often from an external source) and moves it somewhere else often transforming it along the way. Think of a pipeline as a factory assembly line where data is the raw material. As this data travels along the pipeline, it undergoes various transformations—such as cleaning, aggregation, and analysis—making it increasingly refined and valuable. The refined product is then stored in a new location where it can be used either by an end consumer or another pipeline. The prototypical type of pipeline in data engineering is ETL (Extract, Transform, Load), where data is extracted from a source, transformed, then loaded into storage.
The pipeline needs to run regularly and automatically to process new data. Most analytic workloads undergo batch processing - the processing of data in discrete timed batches. In scheduled batch processing, you as the engineer decide how often you want your pipeline to run (every day at 12:00?, every hour on the 15th minute?).
In maestro
a pipeline is an R function with
roxygen2
comments for scheduling and configuration:
An orchestrator is a process that triggers pipelines to run. Think of it as the factory manager who turns on various assembly lines as needed. It also monitors all the pipelines to ensure smooth operation. Just like the factory manager, the orchestrator operates in “shifts” and so needs to be scheduled to perform it’s job too.
Importantly, maestro
needs to know how often you’re
going to run the orchestrator. Unlike most orchestration tools out
there, maestro
isn’t intended to be continuously running,
which saves you on compute resources. But this means that pipelines
won’t necessarily run exactly when they’re scheduled to. This
is a concept we call rounded scheduling.
Let’s say we have a pipeline scheduled to run hourly on the 02 minute mark (e.g., 01:02, 02:02, etc.), and our orchestrator runs every hour on the 00 minute. When the orchestrator runs, it’ll be slightly before the pipeline scheduled time, but it’ll trigger the pipeline anyway because it’s close enough within the frequency of the orchestrator. If instead our orchestrator ran every 15 minutes, it’d still only execute the pipeline once in the hour. But if we underprovisioned the orchestrator and ran it only every day, then the pipeline would only execute once a day. So an important guideline is that the orchestrator needs to run at least as frequency as your highest frequency pipeline.
In maestro
an orchestrator is an R script or Quarto like
this:
By passing the orch_frequency = "1 hour"
to
run_schedule()
, we’re saying that we intend to run the
orchestrator every 1 hour.
targets is
a “pipeline tool for statistics and data science in R”. If you have
multiple connected components of a pipeline, targets
skips
computation of tasks that are up-to-date. targets
seems to
be primarily used for projects with a single output (e.g., model,
document) where there are multiple steps that cumulatively take a long
time to complete. In contrast, maestro
is focused on
projects with multiple independent pipelines. Moreover,
maestro
pipelines are primarily used when the
up-to-dateness of the source data is unknown (e.g., coming from
an API or database), unlike in targets
where it determines
the up-to-dateness based on the contents of a file.
Dagster is an “open source
orchestration platform for the development, production, and observation
of data assets”. Like maestro
, dagster uses decorators
(special comments) to configure data assets (functions). Unlike
maestro
, dagster is primarily for chaining together
dependent components of a multi-step pipeline - a DAG. It also supports
a developer UI and is more fully developed than maestro
at
the current time.
DAGs are supported in maestro
by defining
maestroInputs
and maestroOutputs
tags, but
maestro
is still predominately geared toward projects with
multiple pipelines running simultaneously or on different schedules.
While maestro
can be used for almost any data
engineering task that can be performed in R, there are cases where it is
less appropriate to use it.
maestro
does not support streaming (i.e., continuous) or
event-driven pipelines. Only batch processes can be run in
maestro
.
Although there is no hard limit to the number of pipelines you can
run in maestro
(and there are ways of maximizing its
efficiency as the number of pipelines increases, such as using multiple
cores), we advise against using maestro
to run
this many pipelines - at least not in a single project. There
are several reasons for this: (1) the orchestrator execution time will
be become a problem even with multiple cores; (2) organizing and keeping
track of this many pipelines in a single R project becomes difficult;
(3) the number of dependencies to manage in the project will likely
balloon.
If you wish to continue using maestro
in this scenario,
then our recommendation is to split the jobs into multiple projects all
running on maestro
.
Nevertheless, if you have hundreds of jobs to run it’s likely an
indicator that your enterprise has matured out of maestro
into something a bit more sophisticated.
If you have pipelines that need to run every minute or less you may want to look for a solution that supports near real time or real time data processing. The orchestrator may have trouble keeping up if it’s scheduled to run this often.
maestro
is for R pipelines only. Using
reticulate
may help with Python in a pinch though.