Release notes
Features, enhancements, resolved issues, and known issues associated with this release
Abstract
Chapter 1. Overview of OpenShift AI
Red Hat OpenShift AI is a platform for data scientists and developers of artificial intelligence and machine learning (AI/ML) applications.
OpenShift AI provides an environment to develop, train, serve, test, and monitor AI/ML models and applications on-premise or in the cloud.
For data scientists, OpenShift AI includes Jupyter and a collection of default notebook images optimized with the tools and libraries required for model development, and the TensorFlow and PyTorch frameworks. Deploy and host your models, integrate models into external applications, and export models to host them in any hybrid cloud environment. You can enhance your data science projects on OpenShift AI by building portable machine learning (ML) workflows with data science pipelines, using Docker containers. You can also accelerate your data science experiments through the use of graphics processing units (GPUs) and Intel Gaudi AI accelerators.
For administrators, OpenShift AI enables data science workloads in an existing Red Hat OpenShift or ROSA environment. Manage users with your existing OpenShift identity provider, and manage the resources available to notebook servers to ensure data scientists have what they require to create, train, and host models. Use accelerators to reduce costs and allow your data scientists to enhance the performance of their end-to-end data science workflows using graphics processing units (GPUs) and Intel Gaudi AI accelerators.
OpenShift AI has two deployment options:
Self-managed software that you can install on-premise or in the cloud. You can install OpenShift AI Self-Managed in a self-managed environment such as OpenShift Container Platform, or in Red Hat-managed cloud environments such as Red Hat OpenShift Dedicated (with a Customer Cloud Subscription for AWS or GCP), Red Hat OpenShift Service on Amazon Web Services (ROSA Classic or ROSA HCP), or Microsoft Azure Red Hat OpenShift.
For information about OpenShift AI as self-managed software on your OpenShift cluster in a connected or a disconnected environment, see Product Documentation for Red Hat OpenShift AI Self-Managed.
A managed cloud service, installed as an add-on in Red Hat OpenShift Dedicated (with a Customer Cloud Subscription for AWS or GCP) or in Red Hat OpenShift Service on Amazon Web Services (ROSA Classic).
For information about OpenShift AI Cloud Service, see Product Documentation for Red Hat OpenShift AI.
For information about OpenShift AI supported software platforms, components, and dependencies, see the Supported configurations Knowledgebase article.
For a detailed view of the 2.16 release lifecycle, including the full support phase window, see the Red Hat OpenShift AI Self-Managed Life Cycle Knowledgebase article.
Chapter 2. New features and enhancements
This section describes new features and enhancements in Red Hat OpenShift AI 2.16.
2.1. New Features
- Customizable serving runtime parameters
- You can now pass parameter values and environment variables to your runtimes when serving a model. Customization of the runtime parameters is particularly important in GenAI use cases involving vLLM.
- Support for deploying quantized models
-
You can use the vLLM ServingRuntime for KServe runtime to deploy models that are quantized for the Marlin kernel. If your model is quantized for Marlin, vLLM automatically uses the Marlin kernel based on the underlying hardware. For other quantized models, you can use the
--quantization=marlin
custom parameter. For information about supported hardware, see Supported Hardware for Quantization Kernels on the vLLM website. - code-server workbench image
The code-server workbench image included in Red Hat OpenShift AI, previously available as a Technology Preview feature, is now generally available. For more information, see Working in code-server.
With the code-server workbench image, you can customize your workbench environment by using a variety of extensions to add new languages, themes, debuggers, and connect to additional services. You can also enhance the efficiency of your data science work with syntax highlighting, auto-indentation, and bracket matching.
NoteElyra-based pipelines are not available with the code-server workbench image.
2.2. Enhancements
- Custom connection types
- Administrators can use the enhanced connections feature to configure custom connections to data sources such as databases, making it easier for users to access data for model development. Additionally, users can access models from repositories such as Hugging Face for model serving, thanks to the built-in connection type for URI-based repositories.
- NVIDIA Triton Inference Server version 24.10 runtime: additional models tested and verified
The NVIDIA Triton Inference Server version 24.10 runtime has been tested with the following models for both KServe (REST and gRPC) and ModelMesh (REST):
- Forest Inference Library (FIL)
- Python
- TensorRT
- Distributed workloads: additional training images tested and verified
Several additional training images are tested and verified:
ROCm-compatible KFTO cluster image
A new ROCm-compatible KFTO cluster image,
quay.io/modh/training:py311-rocm61-torch241
, is tested and verified. This image is compatible with AMD accelerators that are supported by ROCm 6.1.ROCm-compatible Ray cluster images
The ROCm-compatible Ray cluster images
quay.io/modh/ray:2.35.0-py39-rocm61
andquay.io/modh/ray:2.35.0-py311-rocm61
, previously available as a Developer Preview feature, are tested and verified. These images are compatible with AMD accelerators that are supported by ROCm 6.1.CUDA-compatible KFTO image
The CUDA-compatible KFTO cluster image, previously available as a Developer Preview feature, is tested and verified. The image is now available in a new location:
quay.io/modh/training:py311-cuda121-torch241
. This image is compatible with NVIDIA GPUs that are supported by CUDA 12.1.
These images are AMD64 images, which might not work on other architectures. For more information about the latest available training images in Red Hat OpenShift AI, see Red Hat OpenShift AI Supported Configurations.
- Improved search terms for Red Hat OpenShift AI Operator
In the Administrator perspective of the OpenShift console, on the Operators > OperatorHub page, the Red Hat OpenShift AI Operator can now be found by entering any of the following terms in the Filter by keyword search field:
-
AI
-
RHOAI
-
OAI
-
ML
-
Machine Learning
-
Data Science
-
ODH
-
Open Data Hub
-
Chapter 3. Technology Preview features
This section describes Technology Preview features in Red Hat OpenShift AI 2.16. Technology Preview features are not supported with Red Hat production service level agreements (SLAs) and might not be functionally complete. Red Hat does not recommend using them in production. These features provide early access to upcoming product features, enabling customers to test functionality and provide feedback during the development process.
For more information about the support scope of Red Hat Technology Preview features, see Technology Preview Features Support Scope.
- RStudio Server notebook image
With the RStudio Server notebook image, you can access the RStudio IDE, an integrated development environment for R. The R programming language is used for statistical computing and graphics to support data analysis and predictions.
To use the RStudio Server notebook image, you must first build it by creating a secret and triggering the
BuildConfig
, and then enable it in the OpenShift AI UI by editing therstudio-rhel9
image stream. For more information, see Building the RStudio Server workbench images.ImportantDisclaimer: Red Hat supports managing workbenches in OpenShift AI. However, Red Hat does not provide support for the RStudio software. RStudio Server is available through rstudio.org and is subject to their licensing terms. You should review their licensing terms before you use this sample workbench.
- CUDA - RStudio Server notebook image
With the CUDA - RStudio Server notebook image, you can access the RStudio IDE and NVIDIA CUDA Toolkit. The RStudio IDE is an integrated development environment for the R programming language for statistical computing and graphics. With the NVIDIA CUDA toolkit, you can enhance your work by using GPU-accelerated libraries and optimization tools.
To use the CUDA - RStudio Server notebook image, you must first build it by creating a secret and triggering the
BuildConfig
, and then enable it in the OpenShift AI UI by editing therstudio-rhel9
image stream. For more information, see Building the RStudio Server workbench images.ImportantDisclaimer: Red Hat supports managing workbenches in OpenShift AI. However, Red Hat does not provide support for the RStudio software. RStudio Server is available through rstudio.org and is subject to their licensing terms. You should review their licensing terms before you use this sample workbench.
The CUDA - RStudio Server notebook image contains NVIDIA CUDA technology. CUDA licensing information is available in the CUDA Toolkit documentation. You should review their licensing terms before you use this sample workbench.
- Support for AMD GPUs
- The AMD ROCm workbench image adds support for the AMD graphics processing units (GPU) Operator, significantly boosting the processing performance for compute-intensive activities. This feature provides you with access to drivers, development tools, and APIs that support AI workloads and a wide range of models. Additionally, the AMD ROCm workbench image includes machine learning libraries to support AI frameworks such as TensorFlow and PyTorch. The Technology Preview release also provides access to images that can be used to explore serving and training or tuning use cases with AMD GPUs.
- Model Registry
- OpenShift AI now supports the Model Registry Operator. The Model Registry Operator is not installed by default in Technology Preview mode. The model registry is a central repository that contains metadata related to machine learning models from inception to deployment.
- NVIDIA NIM model serving platform
With the NVIDIA NIM model serving platform, you can deploy NVIDIA optimized models using NVIDIA NIM inference services in OpenShift AI. NVIDIA NIM, part of NVIDIA AI Enterprise, is a set of easy-to-use microservices designed for secure, reliable deployment of high-performance AI model inferencing across the cloud, data center and workstations. Supporting a wide range of AI models, including open-source community and NVIDIA AI Foundation models, it ensures seamless, scalable AI inferencing, on-premises or in the cloud, leveraging industry standard APIs. You need an NVIDIA AI Enterprise license key to enable the NVIDIA NIM model serving platform in OpenShift AI.
For more information, see About the NVIDIA NIM model serving platform.
- OCI containers for model storage
You can use OCI storage as an alternative to cloud storage services for model serving. First, you create an OCI container image to contain the model. The image is uploaded to an OCI-compatible registry, such as Quay. Later, when deploying a model, the model serving platform references the repository of the containerized model.
Using an OCI container can provide the following advantages:
- Reduced startup times, because the cluster keeps a cache of downloaded images. Restarting the model pod does not download the model again.
- Lower disk space usage, because the model is not downloaded on each pod replica, assuming pods are scheduled on the same node.
- Enhanced performance when pre-fetching images or asynchronous loading.
- Compatibility and integration, because it can be easily integrated with KServe. No additional dependencies are required and the infrastructure might already be available.
- Support for multinode deployment of very large models
- Serving models over multiple graphical processing unit (GPU) nodes when using a single-model serving runtime is now available as a Technology Preview feature. Deploy your models across multiple GPU nodes to improve efficiency when deploying large models such as large language models (LLMs). For more information, see Deploying models across multiple GPU nodes.
- Support for Intel Gaudi 3 accelerators
- Support for Intel Gaudi 3 accelerators is now available as a Technology Preview feature. The vLLM ServingRuntime with Gaudi accelerators support for KServe runtime is a high-throughput and memory-efficient inference and serving runtime that supports Intel Gaudi accelerators. For more information, see Deploying models on the single-model serving platform.
Chapter 4. Developer Preview features
This section describes Developer Preview features in Red Hat OpenShift AI 2.16. Developer Preview features are not supported by Red Hat in any way and are not functionally complete or production-ready. Do not use Developer Preview features for production or business-critical workloads. Developer Preview features provide early access to functionality in advance of possible inclusion in a Red Hat product offering. Customers can use these features to test functionality and provide feedback during the development process. Developer Preview features might not have any documentation, are subject to change or removal at any time, and have received limited testing. Red Hat might provide ways to submit feedback on Developer Preview features without an associated SLA.
For more information about the support scope of Red Hat Developer Preview features, see Developer Preview Support Scope.
- Support for AppWrapper in Kueue
- AppWrapper support in Kueue is available as a Developer Preview feature. The experimental API enables the use of AppWrapper-based workloads with the distributed workloads feature.
- Distributed InstructLab training
Distributed InstructLab training is available as a Developer Preview feature, enabling enhanced performance for training tasks on distributed environments compared to single-node setups. This feature improves the training efficiency and scalability of InstructLab, allowing users to leverage distributed resources for more effective AI model development.
Key features:
- Data transfer support: Facilitates the movement of synthetically generated data from InstructLab on Red Hat Enterprise Linux AI to S3-compatible storage for efficient access by distributed training tasks.
- Distributed training execution: Enables orchestration of multi-node InstructLab training jobs, leveraging the performance benefits of distributed infrastructure.
- End-to-end documentation: Comprehensive guidance for users to implement the full InstructLab training flow, including data preparation, transfer, and distributed execution. To access the documentation, see Distributed InstructLab Training on RHOAI.
Chapter 5. Limited Availability features
This section describes Limited Availability features in Red Hat OpenShift AI 2.16. Limited Availability means that you can install and receive support for the feature only with specific approval from Red Hat. Without such approval, the feature is unsupported. This applies to all features described in this section.
- Tuning in OpenShift AI
- Tuning in OpenShift AI is available as a Limited Availability feature. The Kubeflow Training Operator and the Hugging Face Supervised Fine-tuning Trainer (SFT Trainer) enable users to fine-tune and train their models easily in a distributed environment. In this release, you can use this feature for models that are based on the PyTorch machine-learning framework.
Chapter 6. Support removals
This section describes major changes in support for user-facing features in Red Hat OpenShift AI. For information about OpenShift AI supported software platforms, components, and dependencies, see Supported configurations.
6.1. Removed functionality
6.1.1. Data science pipelines v1 support removed
Previously, data science pipelines in OpenShift AI were based on KubeFlow Pipelines v1. Starting with OpenShift AI 2.9, data science pipelines are based on KubeFlow Pipelines v2, which uses a different workflow engine. Data science pipelines 2.0 is enabled and deployed by default in OpenShift AI.
Starting with OpenShift AI 2.16, data science pipelines 1.0 resources are no longer supported or managed by OpenShift AI. It is no longer possible to deploy, view, or edit the details of pipelines that are based on data science pipelines 1.0 from either the dashboard or the KFP API server.
OpenShift AI does not automatically migrate existing data science pipelines 1.0 instances to 2.0. If you are upgrading to OpenShift AI 2.16, you must manually migrate your existing data science pipelines 1.0 instances. For more information, see Upgrading to data science pipelines 2.0.
Data science pipelines 2.0 contains an installation of Argo Workflows. OpenShift AI does not support direct customer usage of this installation of Argo Workflows. To install or upgrade to OpenShift AI 2.16 with data science pipelines 2.0, ensure that there is no existing installation of Argo Workflows on your cluster.
6.1.2. Pipeline logs for Python scripts running in Elyra pipelines are no longer stored in S3
Logs are no longer stored in S3-compatible storage for Python scripts which are running in Elyra pipelines. From OpenShift AI version 2.11, you can view these logs in the pipeline log viewer in the OpenShift AI dashboard.
For this change to take effect, you must use the Elyra runtime images provided in the 2024.1 or 2024.2 workbench images.
If you have an older workbench image version, update the Version selection field to 2024.1
or 2024.2
, as described in Updating a project workbench.
Updating your workbench image version will clear any existing runtime image selections for your pipeline. After you have updated your workbench version, open your workbench IDE and update the properties of your pipeline to select a runtime image.
6.1.3. Embedded subscription channel no longer used
Starting with OpenShift AI 2.8, the embedded
subscription channel is no longer used. You can no longer select the embedded
channel for a new installation of the Operator. For more information about subscription channels, see Installing the Red Hat OpenShift AI Operator.
6.1.4. Version 1.2 notebook container images for workbenches are no longer supported
When you create a workbench, you specify a notebook container image to use with the workbench. Starting with OpenShift AI 2.5, when you create a new workbench, version 1.2 notebook container images are not available to select. Workbenches that are already running with a version 1.2 notebook image continue to work normally. However, Red Hat recommends that you update your workbench to use the latest notebook container image.
6.1.5. Beta subscription channel no longer used
Starting with OpenShift AI 2.5, the beta
subscription channel is no longer used. You can no longer select the beta
channel for a new installation of the Operator. For more information about subscription channels, see Installing the Red Hat OpenShift AI Operator.
6.1.6. HabanaAI workbench image removal
Support for the HabanaAI 1.10 workbench image has been removed. New installations of OpenShift AI from version 2.14 do not include the HabanaAI workbench image. However, if you upgrade OpenShift AI from a previous version, the HabanaAI workbench image remains available, and existing HabanaAI workbench images continue to function.
6.2. Deprecated functionality
6.2.1. Deprecated cluster configuration parameters
When using the CodeFlare SDK to run distributed workloads in Red Hat OpenShift AI, the following parameters in the Ray cluster configuration are now deprecated and should be replaced with the new parameters as indicated.
Deprecated parameter | Replaced by |
---|---|
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You can also use the new extended_resource_mapping
and overwrite_default_resource_mapping
parameters, as appropriate. For more information about these new parameters, see the CodeFlare SDK documentation (external).
6.3. Planned support removal
- Admin groups restructure
-
Currently, cluster administrators can configure OpenShift AI administration access to the dashboard by using the
groupsConfig
option in the OpenShiftOdhDashboardConfig
custom resource (CR). In an upcoming release, OpenShift AI administration functionality will be moved from theOdhDashboardConfig
CR to a new CR on the OpenShift cluster. The purpose of this notice is to let you know in advance that your workflows (for example, GitOps workflows) that include interactions with theOdhDashboardConfig
CR will likely be impacted by this change. Details of this change will be provided when available.
Chapter 7. Resolved issues
The following notable issues are resolved in Red Hat OpenShift AI 2.16. Security updates, bug fixes, and enhancements for Red Hat OpenShift AI 2.16 are released as asynchronous errata. All OpenShift AI errata advisories are published on the Red Hat Customer Portal.
7.1. Issues resolved in Red Hat OpenShift AI 2.16
RHOAIENG-15033 - Model registry instances do not restart or update after upgrade from OpenShift AI 2.14 to 2.15
When you upgrade from OpenShift AI 2.14.z to 2.15, existing instances of the model registry component are not updated, which causes the instance pods to use older images than the ones referenced by the operator pod. This issue does not occur when you upgrade to 2.16.
RHOAIENG-15008 - Error when creating a bias metric from the CLI without a request name
Previously, the user interface sometimes displayed an error message when you viewed bias metrics if the requestName
parameter was not set. If you used the user interface to view bias metrics, but wanted to configure them through the CLI, you had to specify a requestName
parameter within your payload. This issue is now resolved.
RHOAIENG-14986 - Incorrect package path causes copy_demo_nbs
to fail
Previously, the copy_demo_nbs()
function of the CodeFlare SDK failed because of an incorrect path to the SDK package. Running this function resulted in a FileNotFound
error. This issue is now resolved.
RHOAIENG-14552 - Workbench or notebook OAuth proxy fails with FIPS on OCP 4.16
Previously, when using OpenShift 4.16 or newer in a FIPS-enabled cluster, connecting to a running workbench failed because the connection between the internal component oauth-proxy
and the OpenShift ingress failed with a TLS handshake error. When opening a workbench, the browser showed an "Application is not available" screen without any additional diagnostics. This issue is now resolved.
RHOAIENG-14095 - The dashboard is temporarily unavailable after the installing OpenShift AI Operator
Previously, after you installed the OpenShift AI Operator, the OpenShift AI dashboard was unavailable for approximately three minutes. As a result, a Cannot read properties of undefined page sometimes appeared. This issue is now resolved.
RHOAIENG-13633 - Cannot set a serving platform for a project without first deploying a model from outside of the model registry
Previously, you could not set a serving platform for a project without first deploying a model from outside of the model registry. You could not deploy a model from a model registry to a project unless the project already had single-model or multi-model serving selected. The only way to select single-model or multi-model serving from the OpenShift AI UI was to first deploy a model or model server from outside the registry. This issue is now resolved.
RHOAIENG-545 - Cannot specify a generic default node runtime image in JupyterLab pipeline editor
Previously, when you edited an Elyra pipeline in the JupyterLab IDE pipeline editor, and you clicked the PIPELINE PROPERTIES tab, and scrolled to the Generic Node Defaults section and edited the Runtime Image field, your changes were not saved. This issue is now resolved.
Chapter 8. Known issues
This section describes known issues in Red Hat OpenShift AI 2.16 and any known methods of working around these issues.
RHOAIENG-16484 - vLLM server engine for Gaudi accelerators fails after a period of inactivity
When using the vLLM ServingRuntime with Gaudi accelerators support for KServe model-serving runtime on a cluster equipped with Gaudi hardware, the vLLM server fails with a TimeoutError
message after a period of inactivity where it is not processing continuous inference requests.
- Workaround
- None.
RHOAIENG-16146 - Connection sometimes not preselected when deploying a model from model registry
When deploying a model from a model registry, the object storage connection (previously called data connection) might not be preselected. The behavior depends on how many S3-compatible object storage connections in the target project match the location of the registered model version being deployed.
- If the project has no matching connection: When you are prompted to create a connection, the location fields are not prefilled and the alert explaining the prefilling behavior is not shown.
-
If the project has multiple matching connections: In the connections list, the matching connections are not marked as
Recommended
.
If there is exactly one matching connection, the problem does not occur because the connection is correctly preselected.
- Workaround
The workaround depends on the number of matching connections as follows:
- If the project has no matching connection: Manually re-enter the model location details.
- If the project has multiple matching connections: Inspect your connections in the project’s Connections view and select the connection that matches your preferred model location.
RHOAIENG-15982 - Replicas not created correctly in multinode deployment when pipelineParallelSize
parameter updated
When you update the pipelineParallelSize
parameter in a multinode deployment, new replicas are not created correctly. Instead, the existing ReplicaSet’s replicas are modified, causing the new deployment to malfunction.
- Workaround
-
Remove the existing InferenceService CR and create an InferenceService CR with the updated
pipelineParallelSize
value.
RHOAIENG-15773 - Cannot add a new model registry user
When managing the permissions of a model registry, you cannot add a new user, group, or project as described in Managing model registry permissions. An HTTP request failed
error is displayed.
- Workaround
Create a RoleBinding and add the appropriate labels, as follows:
- Log in to the OpenShift console as a cluster administrator.
- In the Administrator perspective, click User Management → RoleBindings.
Create a RoleBinding as follows:
- Click Create binding.
- In the Binding type section, ensure that the Namespace role binding (RoleBinding) option is selected.
In the RoleBinding section:
- Enter any name for the binding. This name is not used.
- From the Namespace list, select rhoai-model-registries.
-
In the Role section, from the Role name list, select registry-user-[registryname], where
[registryname]
is the resource name of the model registry that you want to manage access for. In the Subject section:
- Select the User, Group, or ServiceAccount option, as appropriate.
Specify the name of the user, group, or service account that you want to provide with access.
To add all service accounts in a project, which is equivalent to adding a project in the dashboard, select the Group option and enter system:serviceaccounts:[namespace] as the group name, where
[namespace]
is the namespace of your project.
- Click Create. The Details tab for the new RoleBinding is displayed.
Add labels to the new RoleBinding as follows:
- Click Actions → Edit labels.
Add the following labels, where
[registryname]
is the resource name of the model registry that you want to manage access for:-
component=model-registry
-
app.kubernetes.io/name=[registryname]
-
- Click Save.
Verify that your changes were applied correctly:
- Log in to Red Hat OpenShift AI.
- Click Settings → Model registry settings.
- Click Manage permissions beside the model registry that you are managing access for.
- Verify that your new permissions are displayed.
RHOAIENG-11371 - Incorrect run status reported for runs using ExitHandler
When using pipeline exit handlers (dsl.ExitHandler
), if a task inside the handle fails but the exit task succeeds, the overall pipeline run status is inaccurately reported as Succeeded
instead of Failed
.
- Workaround
- None.
RHOAIENG-8102 - Incorrect requested resources reported when cluster has multiple cluster queues
When a cluster has multiple cluster queues, the resources requested by all projects is incorrectly reported as zero instead of the true value.
- Workaround
- None.
RHOAIENG-15123 (also documented as RHOAIENG-10790 and RHOAIENG-14265) - Pipelines schedule might fail after upgrading
When you upgrade to OpenShift AI 2.16, data science pipeline scheduled runs that existed before the upgrade might fail to execute, resulting in an error message in the task pod.
- Workaround
- Follow the steps in the How to resolve scheduled pipeline run failures after upgrading to Red Hat OpenShift AI 2.16.0 Knowledgebase solution.
RHOAIENG-14271 - Compatibility errors occur when using different Python versions in Ray clusters with Jupyter notebooks
When you use Python version 3.11 in a Jupyter notebook, and then create a Ray cluster, the cluster defaults to a workbench image that contains Ray version 2.35 and Python version 3.9. This mismatch can cause compatibility errors, as the Ray Python client requires a Python version that matches your workbench configuration.
- Workaround
-
Use a workbench image with your Ray cluster that contains a matching Python version with the
ClusterConfiguration
argument.
RHOAIENG-14197 - Tooltip text for CPU and Memory graphs is clipped and therefore unreadable
When you hover the cursor over the CPU and Memory graphs in the Top resource-consuming distributed workloads section on the Project metrics tab of the Distributed Workloads Metrics page, the tooltip text is clipped, and therefore unreadable.
- Workaround
- View the project metrics for your distributed workloads within the CPU and Memory graphs themselves.
RHOAIENG-12516 - fast
releases are available in unintended release channels
Due to a known issue with the stream image delivery process, fast
releases are currently available on unintended streaming channels, for example, stable
, and stable-x.y
. For accurate release type, channel, and support lifecycle information, refer to the Life-cycle Dates table on the Red Hat OpenShift AI Self-Managed Life Cycle page.
- Workaround
- None.
RHOAIENG-12233 - The chat_template
parameter is required when using the /v1/chat/completions
endpoint
When configuring the vLLM ServingRuntime for KServe runtime and querying a model using the /v1/chat/completions
endpoint, the model fails with the following 400 Bad Request
error:
As of transformers v4.44, default chat template is no longer allowed, so you must provide a chat template if the tokenizer does not define one
Transformers v4.44.2 is shipped with vLLM v0.5.5. As of vLLM v0.5.5, you must provide a chat template while querying a model using the /v1/chat/completions
endpoint.
- Workaround
If your model does not include a predefined chat template, you can use the
chat-template
command-line parameter to specify a chat template in your custom vLLM runtime, as shown in the example. Replace<CHAT_TEMPLATE>
with the path to your template.containers: - args: - --chat-template=<CHAT_TEMPLATE>
You can use the chat templates that are available as
.jinja
files in https://github.com/opendatahub-io/vllm/tree/main/examples or with the vLLM image under/apps/data/template
. For more information, see Chat templates.
RHOAIENG-11024 - Resources entries get wiped out after removing opendatahub.io/managed annotation
Manually removing the opendatahub.io/managed
annotation from any component deployment YAML file might cause resource
entry values in the file to be erased.
- Workaround
To remove the annotation from a deployment, use the following steps to delete the deployment.
The controller pod for the component will redeploy automatically with default values.
- Log in to the OpenShift console as a cluster administrator.
- In the Administrator perspective, click Workloads > Deployments.
-
From the Project list, select
redhat-ods-applications
. - Click the options menu beside the deployment for which you want to remove the annotation.
- Click Delete Deployment.
RHOAIENG-8294 - CodeFlare error when upgrading OpenShift AI 2.8 to version 2.10 or later
If you try to upgrade OpenShift AI 2.8 to version 2.10 or later, the following error message is shown for the CodeFlare component, due to a mismatch with the AppWrapper
custom resource definition (CRD) version.
ReconcileCompletedWithComponentErrors DataScienceCluster resource reconciled with component errors: 1 error occurred: * CustomResourceDefinition.apiextensions.k8s.io "appwrappers.workload.codeflare.dev" is invalid: status.storedVersions[0]: Invalid value: "v1beta1": must appear in spec.versions
- Workaround
Delete the existing
AppWrapper
CRD:$ oc delete crd appwrappers.workload.codeflare.dev
Wait for about 20 seconds, and then ensure that a new
AppWrapper
CRD is automatically applied, as shown in the following example:$ oc get crd appwrappers.workload.codeflare.dev NAME CREATED AT appwrappers.workload.codeflare.dev 2024-11-22T18:35:04Z
RHOAIENG-7947 - Model serving fails during query in KServe
If you initially install the ModelMesh component and enable the multi-model serving platform, but later install the KServe component and enable the single-model serving platform, inference requests to models deployed on the single-model serving platform might fail. In these cases, inference requests return a 404 - Not Found
error and the logs for the odh-model-controller
deployment object show a Reconciler
error message.
- Workaround
-
In OpenShift, restart the
odh-model-controller
deployment object.
RHOAIENG-7716 - Pipeline condition group status does not update
When you run a pipeline that has condition groups, for example, dsl.lf
, the UI displays a Running
status for the groups, even after the pipeline execution is complete.
- Workaround
You can confirm if a pipeline is still running by checking that no child tasks remain active.
- From the OpenShift AI dashboard, click Data Science Pipelines → Runs.
- From the Project list, click your data science project.
- From the Runs tab, click the pipeline run that you want to check the status of.
Expand the condition group and click a child task.
A panel that contains information about the child task is displayed
On the panel, click the Task details tab.
The Status field displays the correct status for the child task.
RHOAIENG-6486 - Pod labels, annotations, and tolerations cannot be configured when using the Elyra JupyterLab extension with the TensorFlow 2024.1 notebook image
When using the Elyra JupyterLab extension with the TensorFlow 2024.1 notebook image, you cannot configure pod labels, annotations, or tolerations from an executed pipeline. This is due to a dependency conflict with the kfp and tf2onnx packages.
- Workaround
If you are working with the TensorFlow 2024.1 notebook image, after you have completed your work, change the assigned workbench notebook image to the Standard Data Science 2024.1 notebook image.
In the Pipeline properties tab in the Elyra JupyterLab extension, set the Tensorflow runtime image as the default runtime image for the pipeline node individually, along with the relevant pod label, annotation or toleration, for each pipeline node.
RHOAIENG-6435 - Distributed workloads resources are not included in Project metrics
When you click Distributed Workloads Metrics > Project metrics and view the Requested resources section, the Requested by all projects value currently excludes the resources for distributed workloads that have not yet been admitted to the queue.
- Workaround
- None.
RHOAIENG-6409 - Cannot save parameter
errors appear in pipeline logs for successful runs
When you run a pipeline more than once with data science pipelines 2.0, Cannot save parameter
errors appear in the pipeline logs for successful pipeline runs. You can safely ignore these errors.
- Workaround
- None.
RHOAIENG-12294 (previously documented as RHOAIENG-4812) - Distributed workload metrics exclude GPU metrics
In this release of OpenShift AI, the distributed workload metrics exclude GPU metrics.
- Workaround
- None.
RHOAIENG-4570 - Existing Argo Workflows installation conflicts with install or upgrade
Data science pipelines 2.0 contains an installation of Argo Workflows. OpenShift AI does not support direct customer usage of this installation of Argo Workflows. To install or upgrade OpenShift AI with data science pipelines 2.0, ensure that there is no existing installation of Argo Workflows on your cluster. For more information, see Migrating to data science pipelines 2.0.
- Workaround
-
Remove the existing Argo Workflows installation or set
datasciencepipelines
toRemoved
, and then proceed with the installation or upgrade.
RHOAIENG-3913 - Red Hat OpenShift AI Operator incorrectly shows Degraded
condition of False
with an error
If you have enabled the KServe component in the DataScienceCluster (DSC) object used by the OpenShift AI Operator, but have not installed the dependent Red Hat OpenShift Service Mesh and Red Hat OpenShift Serverless Operators, the kserveReady
condition in the DSC object correctly shows that KServe is not ready. However, the Degraded
condition incorrectly shows a value of False
.
- Workaround
- Install the Red Hat OpenShift Serverless and Red Hat OpenShift Service Mesh Operators, and then recreate the DSC.
RHOAIENG-3025 - OVMS expected directory layout conflicts with the KServe StoragePuller layout
When you use the OpenVINO Model Server (OVMS) runtime to deploy a model on the single-model serving platform (which uses KServe), there is a mismatch between the directory layout expected by OVMS and that of the model-pulling logic used by KServe. Specifically, OVMS requires the model files to be in the /<mnt>/models/1/
directory, while KServe places them in the /<mnt>/models/
directory.
- Workaround
Perform the following actions:
-
In your S3-compatible storage bucket, place your model files in a directory called
1/
, for example,/<s3_storage_bucket>/models/1/<model_files>
. To use the OVMS runtime to deploy a model on the single-model serving platform, choose one of the following options to specify the path to your model files:
-
If you are using the OpenShift AI dashboard to deploy your model, in the Path field for your data connection, use the
/<s3_storage_bucket>/models/
format to specify the path to your model files. Do not specify the1/
directory as part of the path. -
If you are creating your own
InferenceService
custom resource to deploy your model, configure the value of thestorageURI
field as/<s3_storage_bucket>/models/
. Do not specify the1/
directory as part of the path.
-
If you are using the OpenShift AI dashboard to deploy your model, in the Path field for your data connection, use the
-
In your S3-compatible storage bucket, place your model files in a directory called
KServe pulls model files from the subdirectory in the path that you specified. In this case, KServe correctly pulls model files from the /<s3_storage_bucket>/models/1/
directory in your S3-compatible storage.
RHOAIENG-3018 - OVMS on KServe does not expose the correct endpoint in the dashboard
When you use the OpenVINO Model Server (OVMS) runtime to deploy a model on the single-model serving platform, the URL shown in the Inference endpoint field for the deployed model is not complete.
- Workaround
-
To send queries to the model, you must add the
/v2/models/_<model-name>_/infer
string to the end of the URL. Replace_<model-name>_
with the name of your deployed model.
RHOAIENG-2759 - Model deployment fails when both secured and regular model servers are present in a project
When you create a second model server in a project where one server is using token authentication, and the other server does not use authentication, the deployment of the second model might fail to start.
- Workaround
- None.
RHOAIENG-2602 - “Average response time" server metric graph shows multiple lines due to ModelMesh pod restart
The Average response time server metric graph shows multiple lines if the ModelMesh pod is restarted.
- Workaround
- None.
RHOAIENG-2585 - UI does not display an error/warning when UWM is not enabled in the cluster
Red Hat OpenShift AI does not correctly warn users if User Workload Monitoring (UWM) is disabled in the cluster. UWM is necessary for the correct functionality of model metrics.
- Workaround
- Manually ensure that UWM is enabled in your cluster, as described in Enabling monitoring for user-defined projects.
RHOAIENG-2555 - Model framework selector does not reset when changing Serving Runtime in form
When you use the Deploy model dialog to deploy a model on the single-model serving platform, if you select a runtime and a supported framework, but then switch to a different runtime, the existing framework selection is not reset. This means that it is possible to deploy the model with a framework that is not supported for the selected runtime.
- Workaround
- While deploying a model, if you change your selected runtime, click the Select a framework list again and select a supported framework.
RHOAIENG-2468 - Services in the same project as KServe might become inaccessible in OpenShift
If you deploy a non-OpenShift AI service in a data science project that contains models deployed on the single-model serving platform (which uses KServe), the accessibility of the service might be affected by the network configuration of your OpenShift cluster. This is particularly likely if you are using the OVN-Kubernetes network plugin in combination with host network namespaces.
- Workaround
Perform one of the following actions:
- Deploy the service in another data science project that does not contain models deployed on the single-model serving platform. Or, deploy the service in another OpenShift project.
In the data science project where the service is, add a network policy to accept ingress traffic to your application pods, as shown in the following example:
apiVersion: networking.k8s.io/v1 kind: NetworkPolicy metadata: name: allow-ingress-to-myapp spec: podSelector: matchLabels: app: myapp ingress: - {}
RHOAIENG-2228 - The performance metrics graph changes constantly when the interval is set to 15 seconds
On the Endpoint performance tab of the model metrics screen, if you set the Refresh interval to 15 seconds and the Time range to 1 hour, the graph results change continuously.
- Workaround
- None.
RHOAIENG-2183 - Endpoint performance graphs might show incorrect labels
In the Endpoint performance tab of the model metrics screen, the graph tooltip might show incorrect labels.
- Workaround
- None.
RHOAIENG-1919 - Model Serving page fails to fetch or report the model route URL soon after its deployment
When deploying a model from the OpenShift AI dashboard, the system displays the following warning message while the Status column of your model indicates success with an OK/green checkmark.
Failed to get endpoint for this deployed model. routes.rout.openshift.io"<model_name>" not found
- Workaround
- Refresh your browser page.
RHOAIENG-404 - No Components Found page randomly appears instead of Enabled page in OpenShift AI dashboard
A No Components Found page might appear when you access the Red Hat OpenShift AI dashboard.
- Workaround
- Refresh the browser page.
RHOAIENG-234 - Unable to view .ipynb files in VSCode in Insecured cluster
When you use the code-server notebook image on Google Chrome in an insecure cluster, you cannot view .ipynb files.
- Workaround
- Use a different browser.
RHOAIENG-1128 - Unclear error message displays when attempting to increase the size of a Persistent Volume (PV) that is not connected to a workbench
When attempting to increase the size of a Persistent Volume (PV) that is not connected to a workbench, an unclear error message is displayed.
- Workaround
- Verify that your PV is connected to a workbench before attempting to increase the size.
RHOAIENG-497 - Removing DSCI Results In OpenShift Service Mesh CR Being Deleted Without User Notification
If you delete the DSCInitialization
resource, the OpenShift Service Mesh CR is also deleted. A warning message is not shown.
- Workaround
- None.
RHOAIENG-282 - Workload should not be dispatched if required resources are not available
Sometimes a workload is dispatched even though a single machine instance does not have sufficient resources to provision the RayCluster successfully. The AppWrapper
CRD remains in a Running
state and related pods are stuck in a Pending
state indefinitely.
- Workaround
- Add extra resources to the cluster.
RHOAIENG-131 - gRPC endpoint not responding properly after the InferenceService reports as Loaded
When numerous InferenceService
instances are generated and directed requests, Service Mesh Control Plane (SMCP) becomes unresponsive. The status of the InferenceService
instance is Loaded
, but the call to the gRPC endpoint returns with errors.
- Workaround
-
Edit the
ServiceMeshControlPlane
custom resource (CR) to increase the memory limit of the Istio egress and ingress pods.
RHOAIENG-130 - Synchronization issue when the model is just launched
When the status of the KServe container is Ready
, a request is accepted even though the TGIS container is not ready.
- Workaround
- Wait a few seconds to ensure that all initialization has completed and the TGIS container is actually ready, and then review the request output.
RHOAIENG-3115 - Model cannot be queried for a few seconds after it is shown as ready
Models deployed using the multi-model serving platform might be unresponsive to queries despite appearing as Ready in the dashboard. You might see an “Application is not available" response when querying the model endpoint.
- Workaround
- Wait 30-40 seconds and then refresh the page in your browser.
RHOAIENG-1619 (previously documented as DATA-SCIENCE-PIPELINES-165) - Poor error message when S3 bucket is not writable
When you set up a data connection and the S3 bucket is not writable, and you try to upload a pipeline, the error message Failed to store pipelines
is not helpful.
- Workaround
- Verify that your data connection credentials are correct and that you have write access to the bucket you specified.
RHOAIENG-1207 (previously documented as ODH-DASHBOARD-1758) - Error duplicating OOTB custom serving runtimes several times
If you duplicate a model-serving runtime several times, the duplication fails with the Serving runtime name "<name>" already exists
error message.
- Workaround
-
Change the
metadata.name
field to a unique value.
RHOAIENG-1201 (previously documented as ODH-DASHBOARD-1908) - Cannot create workbench with an empty environment variable
When creating a workbench, if you click Add variable but do not select an environment variable type from the list, you cannot create the workbench. The field is not marked as required, and no error message is shown.
- Workaround
- None.
RHOAIENG-432 (previously documented as RHODS-12928) - Using unsupported characters can generate Kubernetes resource names with multiple dashes
When you create a resource and you specify unsupported characters in the name, then each space is replaced with a dash and other unsupported characters are removed, which can result in an invalid resource name.
- Workaround
- None.
RHOAIENG-226 (previously documented as RHODS-12432) - Deletion of the notebook-culler ConfigMap causes Permission Denied on dashboard
If you delete the notebook-controller-culler-config
ConfigMap in the redhat-ods-applications
namespace, you can no longer save changes to the Cluster Settings page on the OpenShift AI dashboard. The save operation fails with an HTTP request has failed
error.
- Workaround
Complete the following steps as a user with
cluster-admin
permissions:-
Log in to your cluster by using the
oc
client. Enter the following command to update the
OdhDashboardConfig
custom resource in theredhat-ods-applications
application namespace:$ oc patch OdhDashboardConfig odh-dashboard-config -n redhat-ods-applications --type=merge -p '{"spec": {"dashboardConfig": {"notebookController.enabled": true}}}'
-
Log in to your cluster by using the
RHOAIENG-133 - Existing workbench cannot run Elyra pipeline after notebook restart
If you use the Elyra JupyterLab extension to create and run data science pipelines within JupyterLab, and you configure the pipeline server after you created a workbench and specified a notebook image within the workbench, you cannot execute the pipeline, even after restarting the notebook.
- Workaround
- Stop the running notebook.
- Edit the workbench to make a small modification. For example, add a new dummy environment variable, or delete an existing unnecessary environment variable. Save your changes.
- Restart the notebook.
- In the left sidebar of JupyterLab, click Runtimes.
- Confirm that the default runtime is selected.
RHOAIENG-11 - Separately installed instance of CodeFlare Operator not supported
In Red Hat OpenShift AI, the CodeFlare Operator is included in the base product and not in a separate Operator. Separately installed instances of the CodeFlare Operator from Red Hat or the community are not supported.
- Workaround
Delete any installed CodeFlare Operators, and install and configure Red Hat OpenShift AI, as described in the Red Hat Knowledgebase solution How to migrate from a separately installed CodeFlare Operator in your data science cluster.
For more information about Red Hat OpenShift AI Operator dependencies, see Red Hat OpenShift AI Supported Configurations.
RHODS-12798 - Pods fail with "unable to init seccomp" error
Pods fail with CreateContainerError
status or Pending
status instead of Running
status, because of a known kernel bug that introduced a seccomp
memory leak. When you check the events on the namespace where the pod is failing, or run the oc describe pod
command, the following error appears:
runc create failed: unable to start container process: unable to init seccomp: error loading seccomp filter into kernel: error loading seccomp filter: errno 524
- Workaround
-
Increase the value of
net.core.bpf_jit_limit
as described in the Red Hat Knowledgebase solution Pods failing with error loading seccomp filter into kernel: errno 524 in OpenShift 4.
KUBEFLOW-177 - Bearer token from application not forwarded by OAuth-proxy
You cannot use an application as a custom workbench image if its internal authentication mechanism is based on a bearer token. The OAuth-proxy configuration removes the bearer token from the headers, and the application cannot work properly.
- Workaround
- None.
RHOAIENG-5646 (previously documented as NOTEBOOKS-218) - Data science pipelines saved from the Elyra pipeline editor reference an incompatible runtime
When you save a pipeline in the Elyra pipeline editor with the format .pipeline
in OpenShift AI version 1.31 or earlier, the pipeline references a runtime that is incompatible with OpenShift AI version 1.32 or later.
As a result, the pipeline fails to run after you upgrade OpenShift AI to version 1.32 or later.
- Workaround
- After you upgrade to OpenShift AI to version 1.32 or later, select the relevant runtime images again.
RHOAIENG-16568 (previously documented as NOTEBOOKS-210) - A notebook fails to export as a PDF file in Jupyter
When you export a notebook as a PDF file in Jupyter, the export process fails with an error.
- Workaround
- None.
RHOAIENG-1210 (previously documented as ODH-DASHBOARD-1699) - Workbench does not automatically restart for all configuration changes
When you edit the configuration settings of a workbench, a warning message appears stating that the workbench will restart if you make any changes to its configuration settings. This warning is misleading because in the following cases, the workbench does not automatically restart:
- Edit name
- Edit description
- Edit, add, or remove keys and values of existing environment variables
- Workaround
- Manually restart the workbench.
RHOAIENG-1208 (previously documented as ODH-DASHBOARD-1741) - Cannot create a workbench whose name begins with a number
If you try to create a workbench whose name begins with a number, the workbench does not start.
- Workaround
- Delete the workbench and create a new one with a name that begins with a letter.
KUBEFLOW-157 - Logging out of JupyterLab does not work if you are already logged out of the OpenShift AI dashboard
If you log out of the OpenShift AI dashboard before you log out of JupyterLab, then logging out of JupyterLab is not successful. For example, if you know the URL for a Jupyter notebook, you are able to open this again in your browser.
- Workaround
- Log out of JupyterLab before you log out of the OpenShift AI dashboard.
RHODS-9789 - Pipeline servers fail to start if they contain a custom database that includes a dash in its database name or username field
When you create a pipeline server that uses a custom database, if the value that you set for the dbname field or username field includes a dash, the pipeline server fails to start.
- Workaround
- Edit the pipeline server to omit the dash from the affected fields.
RHOAIENG-580 (previously documented as RHODS-9412) - Elyra pipeline fails to run if workbench is created by a user with edit permissions
If a user who has been granted edit permissions for a project creates a project workbench, that user sees the following behavior:
-
During the workbench creation process, the user sees an
Error creating workbench
message related to the creation of Kubernetes role bindings. - Despite the preceding error message, OpenShift AI still creates the workbench. However, the error message means that the user will not be able to use the workbench to run Elyra data science pipelines.
If the user tries to use the workbench to run an Elyra pipeline, Jupyter shows an
Error making request
message that describes failed initialization.- Workaround
- A user with administrator permissions (for example, the project owner) must create the workbench on behalf of the user with edit permissions. That user can then use the workbench to run Elyra pipelines.
RHODS-7718 - User without dashboard permissions is able to continue using their running notebooks and workbenches indefinitely
When a Red Hat OpenShift AI administrator revokes a user’s permissions, the user can continue to use their running notebooks and workbenches indefinitely.
- Workaround
- When the OpenShift AI administrator revokes a user’s permissions, the administrator should also stop any running notebooks and workbenches for that user.
RHOAIENG-1157 (previously documented as RHODS-6955) - An error can occur when trying to edit a workbench
When editing a workbench, an error similar to the following can occur:
Error creating workbench Operation cannot be fulfilled on notebooks.kubeflow.org "workbench-name": the object has been modified; please apply your changes to the latest version and try again
- Workaround
- None.
RHOAIENG-1152 (previously documented as RHODS-6356) - The notebook creation process fails for users who have never logged in to the dashboard
The dashboard’s notebook Administration page displays users belonging to the user group and admin group in OpenShift. However, if an administrator attempts to start a notebook server on behalf of a user who has never logged in to the dashboard, the server creation process fails and displays the following error message:
Request invalid against a username that does not exist.
- Workaround
- Request that the relevant user logs into the dashboard.
RHODS-5763 - Incorrect package version displayed during notebook selection
The Start a notebook server page displays an incorrect version number for the Anaconda notebook image.
- Workaround
- None.
RHODS-5543 - When using the NVIDIA GPU Operator, more nodes than needed are created by the Node Autoscaler
When a pod cannot be scheduled due to insufficient available resources, the Node Autoscaler creates a new node. There is a delay until the newly created node receives the relevant GPU workload. Consequently, the pod cannot be scheduled and the Node Autoscaler’s continuously creates additional new nodes until one of the nodes is ready to receive the GPU workload. For more information about this issue, see the Red Hat Knowledgebase solution When using the NVIDIA GPU Operator, more nodes than needed are created by the Node Autoscaler.
- Workaround
-
Apply the
cluster-api/accelerator
label inmachineset.spec.template.spec.metadata
. This causes the autoscaler to consider those nodes as unready until the GPU driver has been deployed.
RHOAIENG-1149 (previously documented RHODS-5216) - The application launcher menu incorrectly displays a link to OpenShift Cluster Manager
Red Hat OpenShift AI incorrectly displays a link to the OpenShift Cluster Manager from the application launcher menu. Clicking this link results in a "Page Not Found" error because the URL is not valid.
- Workaround
- None.
RHOAIENG-1137 (previously documented as RHODS-5251) - Notebook server administration page shows users who have lost permission access
If a user who previously started a notebook server in Jupyter loses their permissions to do so (for example, if an OpenShift AI administrator changes the user’s group settings or removes the user from a permitted group), administrators continue to see the user’s notebook servers on the server Administration page. As a consequence, an administrator is able to restart notebook servers that belong to the user whose permissions were revoked.
- Workaround
- None.
RHODS-4799 - Tensorboard requires manual steps to view
When a user has TensorFlow or PyTorch notebook images and wants to use TensorBoard to display data, manual steps are necessary to include environment variables in the notebook environment, and to import those variables for use in your code.
- Workaround
When you start your notebook server, use the following code to set the value for the TENSORBOARD_PROXY_URL environment variable to use your OpenShift AI user ID.
import os os.environ["TENSORBOARD_PROXY_URL"]= os.environ["NB_PREFIX"]+"/proxy/6006/"
RHODS-4718 - The Intel® oneAPI AI Analytics Toolkits quick start references nonexistent sample notebooks
The Intel® oneAPI AI Analytics Toolkits quick start, located on the Resources page on the dashboard, requires the user to load sample notebooks as part of the instruction steps, but refers to notebooks that do not exist in the associated repository.
- Workaround
- None.
RHODS-4627 - The CronJob responsible for validating Anaconda Professional Edition’s license is suspended and does not run daily
The CronJob responsible for validating Anaconda Professional Edition’s license is automatically suspended by the OpenShift AI operator. As a result, the CronJob does not run daily as scheduled. In addition, when Anaconda Professional Edition’s license expires, Anaconda Professional Edition is not indicated as disabled on the OpenShift AI dashboard.
- Workaround
- None.
RHOAIENG-1141 (previously documented as RHODS-4502) - The NVIDIA GPU Operator tile on the dashboard displays button unnecessarily
GPUs are automatically available in Jupyter after the NVIDIA GPU Operator is installed. The Enable button, located on the NVIDIA GPU Operator tile on the Explore page, is therefore redundant. In addition, clicking the Enable button moves the NVIDIA GPU Operator tile to the Enabled page, even if the Operator is not installed.
- Workaround
- None.
RHOAIENG-1135 (previously documented as RHODS-3985) - Dashboard does not display Enabled page content after ISV operator uninstall
After an ISV operator is uninstalled, no content is displayed on the Enabled page on the dashboard. Instead, the following error is displayed:
Error loading components HTTP request failed
- Workaround
- Wait 30-40 seconds and then refresh the page in your browser.
RHODS-3984 - Incorrect package versions displayed during notebook selection
In the OpenShift AI interface, the Start a notebook server page displays incorrect version numbers for the JupyterLab and Notebook packages included in the oneAPI AI Analytics Toolkit notebook image. The page might also show an incorrect value for the Python version used by this image.
- Workaround
-
When you start your oneAPI AI Analytics Toolkit notebook server, you can check which Python packages are installed on your notebook server and which version of the package you have by running the
!pip list
command in a notebook cell.
RHODS-2956 - Error can occur when creating a notebook instance
When creating a notebook instance in Jupyter, a Directory not found
error appears intermittently. This error message can be ignored by clicking Dismiss.
- Workaround
- None.
RHOAING-1147 (previously documented as RHODS-2881) - Actions on dashboard not clearly visible
The dashboard actions to revalidate a disabled application license and to remove a disabled application tile are not clearly visible to the user. These actions appear when the user clicks on the application tile’s Disabled
label. As a result, the intended workflows might not be clear to the user.
- Workaround
- None.
RHOAIENG-1134 (previously documented as RHODS-2879) - License revalidation action appears unnecessarily
The dashboard action to revalidate a disabled application license appears unnecessarily for applications that do not have a license validation or activation system. In addition, when a user attempts to revalidate a license that cannot be revalidated, feedback is not displayed to state why the action cannot be completed.
- Workaround
- None.
RHOAIENG-2305 (previously documented as RHODS-2650) - Error can occur during Pachyderm deployment
When creating an instance of the Pachyderm operator, a webhook error appears intermittently, preventing the creation process from starting successfully. The webhook error is indicative that, either the Pachyderm operator failed a health check, causing it to restart, or that the operator process exceeded its container’s allocated memory limit, triggering an Out of Memory (OOM) kill.
- Workaround
- Repeat the Pachyderm instance creation process until the error no longer appears.
RHODS-2096 - IBM Watson Studio not available in OpenShift AI
IBM Watson Studio is not available when OpenShift AI is installed on OpenShift Dedicated 4.9 or higher, because it is not compatible with these versions of OpenShift Dedicated.
- Workaround
- Contact Marketplace support for assistance manually configuring Watson Studio on OpenShift Dedicated 4.9 and higher.
Chapter 9. Product features
Red Hat OpenShift AI provides a rich set of features for data scientists and IT operations administrators. To learn more, see Introduction to Red Hat OpenShift AI.