Red Hat OpenShift makes sense in a lot of contexts. It's one of the most comprehensive solutions for developing and running Kubernetes applications and the frameworks that help build them. If you can think of it, you can likely develop and run it on OpenShift in some way, shape, or form.
Machine Learning Operations or MLOps is a term for operationalizing machine learning (ML) for DevOps and ML engineers. There are many solutions out there for making MLOps easier. For instance, Red Hat has OpenShift Data Science. However, we encourage those in the community who have other innovative ways of doing things to bring those solutions to OpenShift as well. It's designed from the ground up to facilitate that.
This article looks at ZenML. As described on the project page, it is:
an extensible, open-source MLOps framework for creating portable, production-ready machine learning pipelines. By decoupling infrastructure from code, ZenML enables developers across your organization to collaborate more effectively as they develop to production.
It's a perfect candidate to run in the OpenShift ecosystem.
This exercise uses the OpenShift command line utility oc to deploy the ZenML Server via a Docker build strategy to build a zenml-server image. This way, as the ZenML open source project continues to evolve, you'll be able to grow with it and hopefully contribute to the project in a meaningful way as you learn more about it.
Get started
This exercise assumes that you have an existing OpenShift cluster and are logged in via the command line using oc. If you need help getting started with OpenShift, please visit Red Hat OpenShift Getting Started. Once you've got an environment up and running, move on to step 1 below.
Create a new project:
oc new-project zenml
Create a new application:
oc new-app --strategy=docker --binary --name=zenml
Open up your favorite editor and create a Dockerfile with the following contents:
ARG PYTHON_VERSION=3.11
ARG ZENML_VERSION=""
ARG ZENML_NIGHTLY="false"
# Use UBI 8
FROM registry.access.redhat.com/ubi8/ubi AS base
# Install Python and update system packages
RUN yum install -y python311; yum clean all
USER 0
# Set environment variables
ENV PIP_DEFAULT_TIMEOUT=100 \
PIP_DISABLE_PIP_VERSION_CHECK=1 \
PIP_NO_CACHE_DIR=1
WORKDIR /zenml
FROM base AS builder
ARG VIRTUAL_ENV=/opt/venv
ARG ZENML_VERSION
ARG ZENML_NIGHTLY="false"
ENV VIRTUAL_ENV=$VIRTUAL_ENV
RUN python3 -m venv $VIRTUAL_ENV
ENV PATH="$VIRTUAL_ENV/bin:$PATH"
FROM builder as client-builder
ARG ZENML_VERSION
ARG ZENML_NIGHTLY="false"
RUN if [ "$ZENML_NIGHTLY" = "true" ]; then \
PACKAGE_NAME="zenml-nightly"; \
else \
PACKAGE_NAME="zenml"; \
fi \
&& pip install --upgrade pip \
&& pip install ${PACKAGE_NAME}${ZENML_VERSION:+==$ZENML_VERSION} \
&& pip freeze > requirements.txt
FROM builder as server-builder
ARG ZENML_VERSION
ARG ZENML_NIGHTLY="false"
RUN if [ "$ZENML_NIGHTLY" = "true" ]; then \
PACKAGE_NAME="zenml-nightly"; \
else \
PACKAGE_NAME="zenml"; \
fi \
&& pip install --upgrade pip \
&& pip install "${PACKAGE_NAME}[server,secrets-aws,secrets-gcp,secrets-azure,secrets-hashicorp,s3fs,gcsfs,adlfs,connectors-aws,connectors-gcp,connectors-azure]${ZENML_VERSION:+==$ZENML_VERSION}" \
&& pip freeze > requirements.txt
FROM base as client
ARG VIRTUAL_ENV=/opt/venv
ENV PYTHONUNBUFFERED=0 \
PYTHONFAULTHANDLER=1 \
PYTHONHASHSEED=random \
VIRTUAL_ENV=$VIRTUAL_ENV \
ZENML_CONTAINER=1
WORKDIR /zenml
COPY --from=client-builder /opt/venv /opt/venv
COPY --from=client-builder /zenml/requirements.txt /zenml/requirements.txt
ENV PATH="$VIRTUAL_ENV/bin:$PATH"
FROM base AS server
ARG VIRTUAL_ENV=/opt/venv
ARG USERNAME=zenml
ARG USER_UID=1000
ARG USER_GID=$USER_UID
ENV PYTHONUNBUFFERED=1 \
PYTHONFAULTHANDLER=1 \
PYTHONHASHSEED=random \
VIRTUAL_ENV=$VIRTUAL_ENV \
ZENML_CONTAINER=1 \
ZENML_CONFIG_PATH=/zenml/.zenconfig \
ZENML_DEBUG=false \
ZENML_ANALYTICS_OPT_IN=true
WORKDIR /zenml
COPY --from=server-builder /opt/venv /opt/venv
COPY --from=server-builder /zenml/requirements.txt /zenml/requirements.txt
RUN groupadd --gid $USER_GID $USERNAME \
&& useradd --uid $USER_UID --gid $USER_GID -m $USERNAME \
&& mkdir -p /zenml/.zenconfig/local_stores/default_zen_store \
&& chgrp -R 0 /zenml \
&& chmod -R g=u /zenml
ENV PATH="$VIRTUAL_ENV/bin:/home/$USERNAME/.local/bin:$PATH"
USER $USERNAME
EXPOSE 8080
ENTRYPOINT ["uvicorn", "zenml.zen_server.zen_server_api:app", "--log-level", "debug", "--no-server-header", "--proxy-headers", "--forwarded-allow-ips", "*"]
CMD ["--port", "8080", "--host", "0.0.0.0"]
Now use that Dockerfile to build an image and deploy it to a pod in OpenShift:
oc start-build zenml --from-dir <path to Dockerfile>
Wait for the build to complete. You can check it by executing the following command:
oc logs build/zenml-1 -f
You can now create the service and associated routes to access the ZenML Server.
First, create a service:
oc expose deployment/zenml --port 8080
Next, create a route to access the ZenML Server:
oc create route edge zenml --service=zenml --insecure-policy='Allow'
Now you can run the following command to see what you've created:
oc get svc,route
You should see something similar to this:
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
service/zenml ClusterIP 172.30.38.137 <none> 8080/TCP 26s
NAME HOST/PORT PATH SERVICES PORT TERMINATION WILDCARD
route.route.openshift.io/zenml zenml-zenml.apps.cluster.example.com zenml <all> edge/Allow None
At this point, you can now access the ZenML Server Web UI via the OpenShift route you created in the previous step in the browser of your choice. For instance, I would use the following in my address bar:
http://zenml-zenml.apps.cluster.example.com
Once the login comes up, log in with Username "default" and leave the password blank. Then press the Log In button.
After providing your e-mail for ZenML (or not), move on to the next page and click on Pipelines and you should see a dashboard similar to this once you have done a run or two:
Simple
Congratulations! Now you have ZenML Server running on OpenShift. You can explore the ZenML open source project and all its possibilities on GitHub. Good luck. Have fun!
Want more?
Please let us know if you'd like to see more MLOps with OpenShift in the future. In the meantime, watch a couple of Red Hatters talk about MLOps over coffee:
OpenShift Coffee Break: MLOps with OpenShift
And if you're interested in getting some hands-on with Red Hat Open Data Science, check out this OpenShift Developer Sandbox activity:
How to create a natural language processing (NLP) application using OpenShift Data Science
You can also visit the upstream Open Data Hub to get more involved in the open source AI on Hybrid Cloud action.
Sobre el autor
Más como éste
Looking ahead to 2026: Red Hat’s view across the hybrid cloud
Red Hat to acquire Chatterbox Labs: Frequently Asked Questions
Technically Speaking | Platform engineering for AI agents
Technically Speaking | Driving healthcare discoveries with AI
Navegar por canal
Automatización
Las últimas novedades en la automatización de la TI para los equipos, la tecnología y los entornos
Inteligencia artificial
Descubra las actualizaciones en las plataformas que permiten a los clientes ejecutar cargas de trabajo de inteligecia artificial en cualquier lugar
Nube híbrida abierta
Vea como construimos un futuro flexible con la nube híbrida
Seguridad
Vea las últimas novedades sobre cómo reducimos los riesgos en entornos y tecnologías
Edge computing
Conozca las actualizaciones en las plataformas que simplifican las operaciones en el edge
Infraestructura
Vea las últimas novedades sobre la plataforma Linux empresarial líder en el mundo
Aplicaciones
Conozca nuestras soluciones para abordar los desafíos más complejos de las aplicaciones
Virtualización
El futuro de la virtualización empresarial para tus cargas de trabajo locales o en la nube
