From 90b978f752965a675774c6b4c030a935dc8dd32d Mon Sep 17 00:00:00 2001
From: VaniHaripriya <vmudadla@redhat.com>
Date: Fri, 13 Dec 2024 09:21:22 -0600
Subject: [PATCH] UPSTREAM: <carry>:Add ilab kfp pipeline to the DSPO repo

Signed-off-by: VaniHaripriya <vmudadla@redhat.com>
---
 backend/Dockerfile                            |    1 +
 .../sample_pipelines/instructlab.yaml         | 2326 +++++++++++++++++
 2 files changed, 2327 insertions(+)
 create mode 100644 backend/src/apiserver/sample_pipelines/instructlab.yaml

diff --git a/backend/Dockerfile b/backend/Dockerfile
index 05fab08013b..7d88f6b6b87 100644
--- a/backend/Dockerfile
+++ b/backend/Dockerfile
@@ -44,6 +44,7 @@ WORKDIR /bin
 
 COPY --from=builder /opt/app-root/src/backend/src/apiserver/config/ /config
 COPY --from=builder /bin/apiserver /bin/apiserver
+COPY --from=builder /opt/app-root/src/backend/src/apiserver/sample_pipelines /pipelines
 
 RUN chmod +x /bin/apiserver
 
diff --git a/backend/src/apiserver/sample_pipelines/instructlab.yaml b/backend/src/apiserver/sample_pipelines/instructlab.yaml
new file mode 100644
index 00000000000..23b8999c6ea
--- /dev/null
+++ b/backend/src/apiserver/sample_pipelines/instructlab.yaml
@@ -0,0 +1,2326 @@
+# PIPELINE DEFINITION
+# Name: instructlab
+# Description: InstructLab pipeline
+# Inputs:
+#    final_eval_batch_size: str [Default: 'auto']
+#    final_eval_few_shots: int [Default: 5.0]
+#    final_eval_max_workers: str [Default: 'auto']
+#    final_eval_merge_system_user_message: bool [Default: False]
+#    k8s_storage_class_name: str [Default: 'standard']
+#    mt_bench_max_workers: str [Default: 'auto']
+#    mt_bench_merge_system_user_message: bool [Default: False]
+#    sdg_base_model: str [Default: 's3://<BUCKET>/<PATH_TO_MODEL>']
+#    sdg_max_batch_len: int [Default: 20000.0]
+#    sdg_pipeline: str [Default: 'simple']
+#    sdg_repo_branch: str
+#    sdg_repo_pr: int
+#    sdg_repo_url: str [Default: 'https://github.com/instructlab/taxonomy.git']
+#    sdg_sample_size: float [Default: 1.0]
+#    sdg_scale_factor: int [Default: 2.0]
+#    train_effective_batch_size_phase_1: int [Default: 3840.0]
+#    train_effective_batch_size_phase_2: int [Default: 3840.0]
+#    train_learning_rate_phase_1: float [Default: 0.0001]
+#    train_learning_rate_phase_2: float [Default: 0.0001]
+#    train_max_batch_len: int [Default: 20000.0]
+#    train_nnodes: int [Default: 2.0]
+#    train_nproc_per_node: int [Default: 3.0]
+#    train_num_epochs_phase_1: int [Default: 2.0]
+#    train_num_epochs_phase_2: int [Default: 2.0]
+#    train_num_warmup_steps_phase_1: int [Default: 100.0]
+#    train_num_warmup_steps_phase_2: int [Default: 100.0]
+#    train_save_samples: int [Default: 0.0]
+#    train_seed: int [Default: 42.0]
+components:
+  comp-createpvc:
+    executorLabel: exec-createpvc
+    inputDefinitions:
+      parameters:
+        access_modes:
+          description: 'AccessModes to request for the provisioned PVC. May
+
+            be one or more of ``''ReadWriteOnce''``, ``''ReadOnlyMany''``, ``''ReadWriteMany''``,
+            or
+
+            ``''ReadWriteOncePod''``. Corresponds to `PersistentVolumeClaim.spec.accessModes
+            <https://kubernetes.io/docs/concepts/storage/persistent-volumes/#access-modes>`_.'
+          parameterType: LIST
+        annotations:
+          description: Annotations for the PVC's metadata. Corresponds to `PersistentVolumeClaim.metadata.annotations
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+          isOptional: true
+          parameterType: STRUCT
+        pvc_name:
+          description: 'Name of the PVC. Corresponds to `PersistentVolumeClaim.metadata.name
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+            Only one of ``pvc_name`` and ``pvc_name_suffix`` can
+
+            be provided.'
+          isOptional: true
+          parameterType: STRING
+        pvc_name_suffix:
+          description: 'Prefix to use for a dynamically generated name, which
+
+            will take the form ``<argo-workflow-name>-<pvc_name_suffix>``. Only one
+
+            of ``pvc_name`` and ``pvc_name_suffix`` can be provided.'
+          isOptional: true
+          parameterType: STRING
+        size:
+          description: The size of storage requested by the PVC that will be provisioned.
+            For example, ``'5Gi'``. Corresponds to `PersistentVolumeClaim.spec.resources.requests.storage
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.
+          parameterType: STRING
+        storage_class_name:
+          defaultValue: ''
+          description: 'Name of StorageClass from which to provision the PV
+
+            to back the PVC. ``None`` indicates to use the cluster''s default
+
+            storage_class_name. Set to ``''''`` for a statically specified PVC.'
+          isOptional: true
+          parameterType: STRING
+        volume_name:
+          description: 'Pre-existing PersistentVolume that should back the
+
+            provisioned PersistentVolumeClaim. Used for statically
+
+            specified PV only. Corresponds to `PersistentVolumeClaim.spec.volumeName
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.'
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      parameters:
+        name:
+          parameterType: STRING
+  comp-createpvc-2:
+    executorLabel: exec-createpvc-2
+    inputDefinitions:
+      parameters:
+        access_modes:
+          description: 'AccessModes to request for the provisioned PVC. May
+
+            be one or more of ``''ReadWriteOnce''``, ``''ReadOnlyMany''``, ``''ReadWriteMany''``,
+            or
+
+            ``''ReadWriteOncePod''``. Corresponds to `PersistentVolumeClaim.spec.accessModes
+            <https://kubernetes.io/docs/concepts/storage/persistent-volumes/#access-modes>`_.'
+          parameterType: LIST
+        annotations:
+          description: Annotations for the PVC's metadata. Corresponds to `PersistentVolumeClaim.metadata.annotations
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+          isOptional: true
+          parameterType: STRUCT
+        pvc_name:
+          description: 'Name of the PVC. Corresponds to `PersistentVolumeClaim.metadata.name
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+            Only one of ``pvc_name`` and ``pvc_name_suffix`` can
+
+            be provided.'
+          isOptional: true
+          parameterType: STRING
+        pvc_name_suffix:
+          description: 'Prefix to use for a dynamically generated name, which
+
+            will take the form ``<argo-workflow-name>-<pvc_name_suffix>``. Only one
+
+            of ``pvc_name`` and ``pvc_name_suffix`` can be provided.'
+          isOptional: true
+          parameterType: STRING
+        size:
+          description: The size of storage requested by the PVC that will be provisioned.
+            For example, ``'5Gi'``. Corresponds to `PersistentVolumeClaim.spec.resources.requests.storage
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.
+          parameterType: STRING
+        storage_class_name:
+          defaultValue: ''
+          description: 'Name of StorageClass from which to provision the PV
+
+            to back the PVC. ``None`` indicates to use the cluster''s default
+
+            storage_class_name. Set to ``''''`` for a statically specified PVC.'
+          isOptional: true
+          parameterType: STRING
+        volume_name:
+          description: 'Pre-existing PersistentVolume that should back the
+
+            provisioned PersistentVolumeClaim. Used for statically
+
+            specified PV only. Corresponds to `PersistentVolumeClaim.spec.volumeName
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.'
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      parameters:
+        name:
+          parameterType: STRING
+  comp-createpvc-3:
+    executorLabel: exec-createpvc-3
+    inputDefinitions:
+      parameters:
+        access_modes:
+          description: 'AccessModes to request for the provisioned PVC. May
+
+            be one or more of ``''ReadWriteOnce''``, ``''ReadOnlyMany''``, ``''ReadWriteMany''``,
+            or
+
+            ``''ReadWriteOncePod''``. Corresponds to `PersistentVolumeClaim.spec.accessModes
+            <https://kubernetes.io/docs/concepts/storage/persistent-volumes/#access-modes>`_.'
+          parameterType: LIST
+        annotations:
+          description: Annotations for the PVC's metadata. Corresponds to `PersistentVolumeClaim.metadata.annotations
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+          isOptional: true
+          parameterType: STRUCT
+        pvc_name:
+          description: 'Name of the PVC. Corresponds to `PersistentVolumeClaim.metadata.name
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaim>`_.
+            Only one of ``pvc_name`` and ``pvc_name_suffix`` can
+
+            be provided.'
+          isOptional: true
+          parameterType: STRING
+        pvc_name_suffix:
+          description: 'Prefix to use for a dynamically generated name, which
+
+            will take the form ``<argo-workflow-name>-<pvc_name_suffix>``. Only one
+
+            of ``pvc_name`` and ``pvc_name_suffix`` can be provided.'
+          isOptional: true
+          parameterType: STRING
+        size:
+          description: The size of storage requested by the PVC that will be provisioned.
+            For example, ``'5Gi'``. Corresponds to `PersistentVolumeClaim.spec.resources.requests.storage
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.
+          parameterType: STRING
+        storage_class_name:
+          defaultValue: ''
+          description: 'Name of StorageClass from which to provision the PV
+
+            to back the PVC. ``None`` indicates to use the cluster''s default
+
+            storage_class_name. Set to ``''''`` for a statically specified PVC.'
+          isOptional: true
+          parameterType: STRING
+        volume_name:
+          description: 'Pre-existing PersistentVolume that should back the
+
+            provisioned PersistentVolumeClaim. Used for statically
+
+            specified PV only. Corresponds to `PersistentVolumeClaim.spec.volumeName
+            <https://kubernetes.io/docs/reference/kubernetes-api/config-and-storage-resources/persistent-volume-claim-v1/#PersistentVolumeClaimSpec>`_.'
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      parameters:
+        name:
+          parameterType: STRING
+  comp-data-processing-op:
+    executorLabel: exec-data-processing-op
+    inputDefinitions:
+      parameters:
+        knowledge_path:
+          defaultValue: /data/knowledge
+          isOptional: true
+          parameterType: STRING
+        max_batch_len:
+          defaultValue: 20000.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        max_seq_len:
+          defaultValue: 4096.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        model_path:
+          defaultValue: /model
+          isOptional: true
+          parameterType: STRING
+        sdg_path:
+          defaultValue: /data/sdg
+          isOptional: true
+          parameterType: STRING
+        skills_path:
+          defaultValue: /data/skills
+          isOptional: true
+          parameterType: STRING
+  comp-deletepvc:
+    executorLabel: exec-deletepvc
+    inputDefinitions:
+      parameters:
+        pvc_name:
+          description: Name of the PVC to delete. Supports passing a runtime-generated
+            name, such as a name provided by ``kubernetes.CreatePvcOp().outputs['name']``.
+          parameterType: STRING
+  comp-deletepvc-2:
+    executorLabel: exec-deletepvc-2
+    inputDefinitions:
+      parameters:
+        pvc_name:
+          description: Name of the PVC to delete. Supports passing a runtime-generated
+            name, such as a name provided by ``kubernetes.CreatePvcOp().outputs['name']``.
+          parameterType: STRING
+  comp-deletepvc-3:
+    executorLabel: exec-deletepvc-3
+    inputDefinitions:
+      parameters:
+        pvc_name:
+          description: Name of the PVC to delete. Supports passing a runtime-generated
+            name, such as a name provided by ``kubernetes.CreatePvcOp().outputs['name']``.
+          parameterType: STRING
+  comp-git-clone-op:
+    executorLabel: exec-git-clone-op
+    inputDefinitions:
+      parameters:
+        repo_branch:
+          parameterType: STRING
+        repo_pr:
+          parameterType: NUMBER_INTEGER
+        repo_url:
+          parameterType: STRING
+        taxonomy_path:
+          defaultValue: /data/taxonomy
+          isOptional: true
+          parameterType: STRING
+  comp-importer:
+    executorLabel: exec-importer
+    inputDefinitions:
+      parameters:
+        uri:
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        artifact:
+          artifactType:
+            schemaTitle: system.Model
+            schemaVersion: 0.0.1
+  comp-knowledge-processed-data-to-artifact-op:
+    executorLabel: exec-knowledge-processed-data-to-artifact-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          defaultValue: /data/knowledge
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        knowledge_processed_data:
+          artifactType:
+            schemaTitle: system.Dataset
+            schemaVersion: 0.0.1
+  comp-model-to-pvc-op:
+    executorLabel: exec-model-to-pvc-op
+    inputDefinitions:
+      artifacts:
+        model:
+          artifactType:
+            schemaTitle: system.Model
+            schemaVersion: 0.0.1
+      parameters:
+        pvc_path:
+          defaultValue: /model
+          isOptional: true
+          parameterType: STRING
+  comp-pvc-to-model-op:
+    executorLabel: exec-pvc-to-model-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        model:
+          artifactType:
+            schemaTitle: system.Model
+            schemaVersion: 0.0.1
+  comp-pvc-to-mt-bench-op:
+    executorLabel: exec-pvc-to-mt-bench-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        mt_bench_output:
+          artifactType:
+            schemaTitle: system.Artifact
+            schemaVersion: 0.0.1
+  comp-pytorchjob-manifest-op:
+    executorLabel: exec-pytorchjob-manifest-op
+    inputDefinitions:
+      parameters:
+        effective_batch_size:
+          defaultValue: 3840.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        input_pvc_name:
+          parameterType: STRING
+        learning_rate:
+          defaultValue: 0.0001
+          isOptional: true
+          parameterType: NUMBER_DOUBLE
+        max_batch_len:
+          defaultValue: 20000.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        model_pvc_name:
+          parameterType: STRING
+        name_suffix:
+          parameterType: STRING
+        nnodes:
+          defaultValue: 2.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        nproc_per_node:
+          defaultValue: 3.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        num_epochs:
+          defaultValue: 2.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        num_warmup_steps:
+          defaultValue: 800.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        output_pvc_name:
+          parameterType: STRING
+        phase_num:
+          parameterType: NUMBER_INTEGER
+        save_samples:
+          defaultValue: 0.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        seed:
+          defaultValue: 42.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+  comp-pytorchjob-manifest-op-2:
+    executorLabel: exec-pytorchjob-manifest-op-2
+    inputDefinitions:
+      parameters:
+        effective_batch_size:
+          defaultValue: 3840.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        input_pvc_name:
+          parameterType: STRING
+        learning_rate:
+          defaultValue: 0.0001
+          isOptional: true
+          parameterType: NUMBER_DOUBLE
+        max_batch_len:
+          defaultValue: 20000.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        model_pvc_name:
+          parameterType: STRING
+        name_suffix:
+          parameterType: STRING
+        nnodes:
+          defaultValue: 2.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        nproc_per_node:
+          defaultValue: 3.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        num_epochs:
+          defaultValue: 2.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        num_warmup_steps:
+          defaultValue: 800.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        output_pvc_name:
+          parameterType: STRING
+        phase_num:
+          parameterType: NUMBER_INTEGER
+        save_samples:
+          defaultValue: 0.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+        seed:
+          defaultValue: 42.0
+          isOptional: true
+          parameterType: NUMBER_INTEGER
+  comp-run-final-eval-op:
+    executorLabel: exec-run-final-eval-op
+    inputDefinitions:
+      parameters:
+        base_branch:
+          parameterType: STRING
+        base_model_dir:
+          parameterType: STRING
+        batch_size:
+          parameterType: STRING
+        candidate_branch:
+          parameterType: STRING
+        candidate_model:
+          isOptional: true
+          parameterType: STRING
+        few_shots:
+          parameterType: NUMBER_INTEGER
+        max_workers:
+          parameterType: STRING
+        merge_system_user_message:
+          parameterType: BOOLEAN
+        sdg_path:
+          defaultValue: /input/sdg
+          isOptional: true
+          parameterType: STRING
+        taxonomy_path:
+          defaultValue: /input/taxonomy
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        mmlu_branch_output:
+          artifactType:
+            schemaTitle: system.Artifact
+            schemaVersion: 0.0.1
+        mt_bench_branch_output:
+          artifactType:
+            schemaTitle: system.Artifact
+            schemaVersion: 0.0.1
+  comp-run-mt-bench-op:
+    executorLabel: exec-run-mt-bench-op
+    inputDefinitions:
+      parameters:
+        best_score_file:
+          isOptional: true
+          parameterType: STRING
+        max_workers:
+          parameterType: STRING
+        merge_system_user_message:
+          parameterType: BOOLEAN
+        models_folder:
+          parameterType: STRING
+        output_path:
+          defaultValue: /output/mt_bench_data.json
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      parameters:
+        best_model:
+          parameterType: STRING
+        best_score:
+          parameterType: NUMBER_DOUBLE
+  comp-sdg-op:
+    executorLabel: exec-sdg-op
+    inputDefinitions:
+      parameters:
+        num_instructions_to_generate:
+          parameterType: NUMBER_INTEGER
+        pipeline:
+          parameterType: STRING
+        repo_branch:
+          parameterType: STRING
+        repo_pr:
+          parameterType: NUMBER_INTEGER
+        sdg_path:
+          defaultValue: /data/sdg
+          isOptional: true
+          parameterType: STRING
+        sdg_sampling_size:
+          defaultValue: 1.0
+          isOptional: true
+          parameterType: NUMBER_DOUBLE
+        taxonomy_path:
+          defaultValue: /data/taxonomy
+          isOptional: true
+          parameterType: STRING
+  comp-sdg-to-artifact-op:
+    executorLabel: exec-sdg-to-artifact-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          defaultValue: /data/sdg
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        sdg:
+          artifactType:
+            schemaTitle: system.Dataset
+            schemaVersion: 0.0.1
+  comp-skills-processed-data-to-artifact-op:
+    executorLabel: exec-skills-processed-data-to-artifact-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          defaultValue: /data/skills
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        skills_processed_data:
+          artifactType:
+            schemaTitle: system.Dataset
+            schemaVersion: 0.0.1
+  comp-taxonomy-to-artifact-op:
+    executorLabel: exec-taxonomy-to-artifact-op
+    inputDefinitions:
+      parameters:
+        pvc_path:
+          defaultValue: /data/taxonomy
+          isOptional: true
+          parameterType: STRING
+    outputDefinitions:
+      artifacts:
+        taxonomy:
+          artifactType:
+            schemaTitle: system.Dataset
+            schemaVersion: 0.0.1
+deploymentSpec:
+  executors:
+    exec-createpvc:
+      container:
+        image: argostub/createpvc
+    exec-createpvc-2:
+      container:
+        image: argostub/createpvc
+    exec-createpvc-3:
+      container:
+        image: argostub/createpvc
+    exec-data-processing-op:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - data_processing_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef data_processing_op(\n    model_path: str = \"/model\",\n    sdg_path:\
+          \ str = \"/data/sdg\",\n    skills_path: str = \"/data/skills\",\n    knowledge_path:\
+          \ str = \"/data/knowledge\",\n    max_seq_len: Optional[int] = 4096,\n \
+          \   max_batch_len: Optional[int] = 20000,\n):\n    import os\n\n    import\
+          \ instructlab.training.data_process as dp\n    from instructlab.training\
+          \ import (\n        DataProcessArgs,\n        TrainingArgs,\n    )\n\n \
+          \   # define training-specific arguments\n    skill_training_args = TrainingArgs(\n\
+          \        # define data-specific arguments\n        model_path=model_path,\n\
+          \        data_path=f\"{sdg_path}/skills_train_msgs*.jsonl\",\n        data_output_dir=skills_path,\n\
+          \        # define model-trianing parameters\n        max_seq_len=max_seq_len,\n\
+          \        max_batch_len=max_batch_len,\n        # XXX(shanand): We don't\
+          \ need the following arguments\n        # for data processing. Added them\
+          \ for now to avoid\n        # Pydantic validation errors for TrainingArgs\n\
+          \        ckpt_output_dir=\"data/saved_checkpoints\",\n        num_epochs=2,\n\
+          \        effective_batch_size=3840,\n        save_samples=0,\n        learning_rate=2e-6,\n\
+          \        warmup_steps=800,\n        is_padding_free=True,\n    )\n\n   \
+          \ knowledge_training_args = TrainingArgs(\n        # define data-specific\
+          \ arguments\n        model_path=model_path,\n        data_path=f\"{sdg_path}/knowledge_train_msgs*.jsonl\"\
+          ,\n        data_output_dir=knowledge_path,\n        # define model-trianing\
+          \ parameters\n        max_seq_len=max_seq_len,\n        max_batch_len=max_batch_len,\n\
+          \        # XXX(shanand): We don't need the following arguments\n       \
+          \ # for data processing. Added them for now to avoid\n        # Pydantic\
+          \ validation errors for TrainingArgs\n        ckpt_output_dir=\"data/saved_checkpoints\"\
+          ,\n        num_epochs=2,\n        effective_batch_size=3840,\n        save_samples=0,\n\
+          \        learning_rate=2e-6,\n        warmup_steps=800,\n        is_padding_free=True,\n\
+          \    )\n\n    def data_processing(train_args: TrainingArgs) -> None:\n \
+          \       # early validation logic here\n        if train_args.max_batch_len\
+          \ < train_args.max_seq_len:\n            raise ValueError(\n           \
+          \     f\"the 'max_batch_len' cannot be less than 'max_seq_len': {train_args.max_batch_len=}\
+          \ < {train_args.max_seq_len=}\"\n            )\n\n            # process\
+          \ the training data\n        if not os.path.exists(train_args.data_output_dir):\n\
+          \            os.makedirs(train_args.data_output_dir, exist_ok=True)\n  \
+          \      dp.main(\n            DataProcessArgs(\n                # XXX(osilkin):\
+          \ make a decision here, either:\n                #   1. the CLI is fully\
+          \ responsible for managing where the data is written\n                #\
+          \   2. we never cache it and simply write it to a tmp file every time.\n\
+          \                #\n                # An important reason for why #1 would\
+          \ be preferable is in the case of OpenShift/SELinux\n                # where\
+          \ the user has a defined place for new temporary data to be written.\n \
+          \               data_output_path=train_args.data_output_dir,\n         \
+          \       model_path=train_args.model_path,\n                data_path=train_args.data_path,\n\
+          \                max_seq_len=train_args.max_seq_len,\n                chat_tmpl_path=train_args.chat_tmpl_path,\n\
+          \            )\n        )\n\n    data_processing(train_args=skill_training_args)\n\
+          \    data_processing(train_args=knowledge_training_args)\n\n"
+        image: quay.io/redhat-et/ilab:1.2
+    exec-deletepvc:
+      container:
+        image: argostub/deletepvc
+    exec-deletepvc-2:
+      container:
+        image: argostub/deletepvc
+    exec-deletepvc-3:
+      container:
+        image: argostub/deletepvc
+    exec-git-clone-op:
+      container:
+        args:
+        - 'git clone {{$.inputs.parameters[''repo_url'']}} {{$.inputs.parameters[''taxonomy_path'']}}
+          && cd {{$.inputs.parameters[''taxonomy_path'']}} && if [ -n "{{$.inputs.parameters[''repo_branch'']}}"
+          ]; then git fetch origin {{$.inputs.parameters[''repo_branch'']}} && git
+          checkout {{$.inputs.parameters[''repo_branch'']}}; elif [ -n "{{$.inputs.parameters[''repo_pr'']}}"
+          ] && [ {{$.inputs.parameters[''repo_pr'']}} -gt 0 ]; then git fetch origin
+          pull/{{$.inputs.parameters[''repo_pr'']}}/head:{{$.inputs.parameters[''repo_pr'']}}
+          && git checkout {{$.inputs.parameters[''repo_pr'']}}; fi '
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-importer:
+      importer:
+        artifactUri:
+          runtimeParameter: uri
+        typeSchema:
+          schemaTitle: system.Model
+          schemaVersion: 0.0.1
+    exec-knowledge-processed-data-to-artifact-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['knowledge_processed_data'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-model-to-pvc-op:
+      container:
+        args:
+        - cp -r {{$.inputs.artifacts['model'].path}}/* {{$.inputs.parameters['pvc_path']}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-pvc-to-model-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['model'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-pvc-to-mt-bench-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['mt_bench_output'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-pytorchjob-manifest-op:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - pytorchjob_manifest_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef pytorchjob_manifest_op(\n    model_pvc_name: str,\n    input_pvc_name:\
+          \ str,\n    output_pvc_name: str,\n    name_suffix: str,\n    # path_to_model:\
+          \ str,\n    phase_num: int,\n    nproc_per_node: int = 3,\n    nnodes: int\
+          \ = 2,\n    num_epochs: int = 2,\n    effective_batch_size: int = 3840,\n\
+          \    learning_rate: float = 1e-4,\n    num_warmup_steps: int = 800,\n  \
+          \  save_samples: int = 0,\n    max_batch_len: int = 20000,\n    seed: int\
+          \ = 42,\n):\n    import inspect\n    import os\n    import time\n\n    import\
+          \ kubernetes\n    import urllib3\n    import yaml\n\n    def list_phase1_final_model():\n\
+          \        model_dir = \"/output/phase_1/model/hf_format\"\n        models\
+          \ = os.listdir(model_dir)\n        newest_idx = max(\n            (os.path.getmtime(f\"\
+          {model_dir}/{model}\"), i)\n            for i, model in enumerate(models)\n\
+          \        )[-1]\n        newest_model = models[newest_idx]\n        return\
+          \ f\"{model_dir}/{newest_model}\"\n\n    name = f\"train-phase-{phase_num}-{name_suffix.rstrip('-sdg')}\"\
+          \n\n    if phase_num == 1:\n        path_to_model = \"/input_model\"\n \
+          \       path_to_data = \"/input_data/knowledge/data.jsonl\"\n    elif phase_num\
+          \ == 2:\n        path_to_model = list_phase1_final_model()\n        path_to_data\
+          \ = \"/input_data/skills/data.jsonl\"\n    else:\n        raise RuntimeError(f\"\
+          Unsupported value of {phase_num=}\")\n\n    image = \"quay.io/redhat-et/ilab:1.2\"\
+          \n\n    manifest = inspect.cleandoc(\n        f\"\"\"\n        apiVersion:\
+          \ kubeflow.org/v1\n        kind: PyTorchJob\n        metadata:\n       \
+          \   name: {name}\n        spec:\n          nprocPerNode: \\\"{nproc_per_node}\\\
+          \"\n          pytorchReplicaSpecs:\n            Master:\n              replicas:\
+          \ 1\n              restartPolicy: OnFailure\n              template:\n \
+          \               metadata:\n                  annotations:\n            \
+          \        sidecar.istio.io/inject: 'false'\n                spec:\n     \
+          \             containers:\n                    - args:\n               \
+          \         - |\n                          echo \"Running phase {phase_num}\"\
+          \n                          echo \"Using {path_to_model} model for training\"\
+          \n                          echo \"Using {path_to_data} data for training\"\
+          \n                          mkdir -p /output/phase_{phase_num}/model;\n\
+          \                          mkdir -p /output/data;\n                    \
+          \      torchrun --nnodes {nnodes} \\\n                              --nproc_per_node\
+          \ {nproc_per_node} \\\n                              --node_rank \\$(RANK)\
+          \ \\\n                              --rdzv_endpoint \\$(MASTER_ADDR):\\\
+          $(MASTER_PORT) \\\n                              -m instructlab.training.main_ds\
+          \ \\\n                              --model_name_or_path={path_to_model}\
+          \ \\\n                              --data_path={path_to_data} \\\n    \
+          \                          --output_dir=/output/phase_{phase_num}/model\
+          \ \\\n                              --num_epochs={num_epochs} \\\n     \
+          \                         --effective_batch_size={effective_batch_size}\
+          \ \\\n                              --learning_rate={learning_rate} \\\n\
+          \                              --num_warmup_steps={num_warmup_steps} \\\n\
+          \                              --save_samples={save_samples} \\\n      \
+          \                        --log_level=INFO \\\n                         \
+          \     --max_batch_len={max_batch_len} \\\n                             \
+          \ --seed={seed} \\\n                              --cpu_offload_optimizer\
+          \ \\\n                              --cpu_offload_params \\\n          \
+          \                    --distributed_training_framework fsdp \\\n        \
+          \                      --is_granite \\\n                              --checkpoint_at_epoch\n\
+          \                      command:\n                        - /bin/bash\n \
+          \                       - '-c'\n                        - '--'\n       \
+          \               image: {image}\n                      name: pytorch\n  \
+          \                    volumeMounts:\n                        - mountPath:\
+          \ /input_data\n                          name: input-data\n            \
+          \              readOnly: true\n                        - mountPath: /input_model\n\
+          \                          name: model\n                          readOnly:\
+          \ true\n                        - mountPath: /output\n                 \
+          \         name: output\n                      env:\n                   \
+          \     - name: NNODES\n                          value: \\\"{nnodes}\\\"\n\
+          \                        - name: NPROC_PER_NODE\n                      \
+          \    value: \\\"{nproc_per_node}\\\"\n                        - name: XDG_CACHE_HOME\n\
+          \                          value: /tmp\n                        - name:\
+          \ TRITON_CACHE_DIR\n                          value: /tmp\n            \
+          \            - name: HF_HOME\n                          value: /tmp\n  \
+          \                      - name: TRANSFORMERS_CACHE\n                    \
+          \      value: /tmp\n                      resources:\n                 \
+          \       requests:\n                          cpu: 8\n                  \
+          \        \"nvidia.com/gpu\": {nproc_per_node}\n                        limits:\n\
+          \                          cpu: 8\n                          \"nvidia.com/gpu\"\
+          : {nproc_per_node}\n                  volumes:\n                    - name:\
+          \ input-data\n                      persistentVolumeClaim:\n           \
+          \             claimName: {input_pvc_name}\n                    - name: model\n\
+          \                      persistentVolumeClaim:\n                        claimName:\
+          \ {model_pvc_name}\n                    - name: output\n               \
+          \       persistentVolumeClaim:\n                        claimName: {output_pvc_name}\n\
+          \            Worker:\n              replicas: {nnodes-1}\n             \
+          \ restartPolicy: OnFailure\n              template:\n                metadata:\n\
+          \                  annotations:\n                    sidecar.istio.io/inject:\
+          \ 'false'\n                spec:\n                  containers:\n      \
+          \              - args:\n                        - |\n                  \
+          \        echo \"Running phase {phase_num}\"\n                          echo\
+          \ \"Using {path_to_model} model for training\"\n                       \
+          \   echo \"Using {path_to_data} data for training\"\n                  \
+          \        mkdir -p /tmp/model;\n                          torchrun --nnodes\
+          \ {nnodes} \\\n                            --nproc_per_node {nproc_per_node}\
+          \ \\\n                            --node_rank \\$(RANK) \\\n           \
+          \                 --rdzv_endpoint \\$(MASTER_ADDR):\\$(MASTER_PORT) \\\n\
+          \                            -m instructlab.training.main_ds \\\n      \
+          \                      --model_name_or_path={path_to_model} \\\n       \
+          \                     --data_path={path_to_data} \\\n                  \
+          \          --output_dir=/tmp/model \\\n                            --num_epochs={num_epochs}\
+          \ \\\n                            --effective_batch_size={effective_batch_size}\
+          \ \\\n                            --learning_rate={learning_rate} \\\n \
+          \                           --num_warmup_steps={num_warmup_steps} \\\n \
+          \                           --save_samples={save_samples} \\\n         \
+          \                   --log_level=INFO \\\n                            --max_batch_len={max_batch_len}\
+          \ \\\n                            --seed={seed} \\\n                   \
+          \         --cpu_offload_optimizer \\\n                            --cpu_offload_params\
+          \ \\\n                            --distributed_training_framework fsdp\
+          \ \\\n                            --is_granite \\\n                    \
+          \        --checkpoint_at_epoch\n                      command:\n       \
+          \                 - /bin/bash\n                        - '-c'\n        \
+          \                - '--'\n                      image: {image}\n        \
+          \              name: pytorch\n                      volumeMounts:\n    \
+          \                    - mountPath: /input_data\n                        \
+          \  name: input-data\n                          readOnly: true\n        \
+          \                - mountPath: /input_model\n                          name:\
+          \ model\n                          readOnly: true\n                    \
+          \    - mountPath: /output\n                          name: output\n    \
+          \                      readOnly: true\n                      env:\n    \
+          \                    - name: NNODES\n                          value: \\\
+          \"{nnodes}\\\"\n                        - name: NPROC_PER_NODE\n       \
+          \                   value: \\\"{nproc_per_node}\\\"\n                  \
+          \      - name: XDG_CACHE_HOME\n                          value: /tmp\n \
+          \                       - name: TRITON_CACHE_DIR\n                     \
+          \     value: /tmp\n                        - name: HF_HOME\n           \
+          \               value: /tmp\n                        - name: TRANSFORMERS_CACHE\n\
+          \                          value: /tmp\n                      resources:\n\
+          \                        requests:\n                          cpu: 8\n \
+          \                         \"nvidia.com/gpu\": {nproc_per_node}\n       \
+          \                 limits:\n                          cpu: 8\n          \
+          \                \"nvidia.com/gpu\": {nproc_per_node}\n                \
+          \  volumes:\n                    - name: input-data\n                  \
+          \    persistentVolumeClaim:\n                        claimName: {input_pvc_name}\n\
+          \                    - name: model\n                      persistentVolumeClaim:\n\
+          \                        claimName: {model_pvc_name}\n                 \
+          \   - name: output\n                      persistentVolumeClaim:\n     \
+          \                   claimName: {output_pvc_name}\n        \"\"\"\n    )\n\
+          \n    try:\n        manifest_yaml = yaml.safe_load(manifest)\n    except\
+          \ yaml.YAMLError as exc:\n        raise RuntimeError(f\"Error parsing manifest:\
+          \ {exc}\") from exc\n\n    # Discover the namespace in which the pod is\
+          \ running\n    with open(\n        \"/var/run/secrets/kubernetes.io/serviceaccount/namespace\"\
+          , \"r\", encoding=\"utf-8\"\n    ) as f:\n        namespace = f.read().strip()\n\
+          \        print(f\"The pod is running in the namespace: {namespace}\")\n\n\
+          \    try:\n        kubernetes.config.load_kube_config()\n        print(\"\
+          Loaded kube config\")\n    except kubernetes.config.ConfigException:\n \
+          \       print(\"Failed to load kube config. Trying in-cluster config\")\n\
+          \        kubernetes.config.load_incluster_config()\n\n    api = kubernetes.client.CustomObjectsApi()\n\
+          \    try:\n        api.create_namespaced_custom_object(\n            group=\"\
+          kubeflow.org\",\n            version=\"v1\",\n            namespace=namespace,\n\
+          \            plural=\"pytorchjobs\",\n            body=manifest_yaml,\n\
+          \        )\n    except kubernetes.client.rest.ApiException as exc:\n   \
+          \     if exc.status == 409:\n            print(\n                \"{} '{}/{}'\
+          \ already exists.\".format(\n                    manifest_yaml[\"kind\"\
+          ],\n                    namespace,\n                    manifest_yaml[\"\
+          metadata\"][\"name\"],\n                )\n            )\n        else:\n\
+          \            raise\n\n    # Get the CR status and wait for it to be completed\n\
+          \    w = kubernetes.watch.Watch()\n    exit_flag = False\n    start_time\
+          \ = time.time()\n    timeout_seconds = 24 * 60 * 60  # 24 hours\n\n    while\
+          \ not exit_flag:  # Keep the watch active\n        if time.time() - start_time\
+          \ > timeout_seconds:\n            raise RuntimeError(\n                \"\
+          Timeout (24h) reached waiting for the PytorchJob to complete.\"\n      \
+          \      )\n\n        try:\n            print(\"Watching for PytorchJob\"\
+          )\n            for event in w.stream(\n                api.list_namespaced_custom_object,\n\
+          \                group=\"kubeflow.org\",\n                version=\"v1\"\
+          ,\n                namespace=namespace,\n                plural=\"pytorchjobs\"\
+          ,\n                timeout_seconds=60,  # Timeout after 1 minute\n     \
+          \       ):\n                pytorchjob_event = event[\"object\"]\n     \
+          \           if (\n                    pytorchjob_event[\"metadata\"][\"\
+          name\"]\n                    != manifest_yaml[\"metadata\"][\"name\"]\n\
+          \                ):\n                    continue\n                pytorchjob_name\
+          \ = pytorchjob_event[\"metadata\"][\"name\"]\n\n                if (\n \
+          \                   \"status\" not in pytorchjob_event\n               \
+          \     or \"conditions\" not in pytorchjob_event[\"status\"]\n          \
+          \      ):\n                    continue\n                print(\n      \
+          \              f\"PytorchJob: {pytorchjob_name} - {pytorchjob_event['status'].get('conditions',\
+          \ 'No conditions yet')}\"\n                )\n                for job_condition\
+          \ in reversed(pytorchjob_event[\"status\"][\"conditions\"]):\n         \
+          \           if job_condition[\"type\"] == \"Succeeded\":\n             \
+          \           print(\n                            f\"PytorchJob '{pytorchjob_name}'\
+          \ completed successfully: {job_condition['reason']}\"\n                \
+          \        )\n                        print(f\"Training phase {phase_num}\
+          \ completed.\")\n                        w.stop()\n                    \
+          \    exit_flag = True\n                        # Break here to avoid going\
+          \ into other conditions, we are done\n                        break\n  \
+          \                  elif job_condition[\"type\"] == \"Failed\":\n       \
+          \                 print(\n                            f\"PytorchJob '{pytorchjob_name}'\
+          \ failed: {job_condition['reason']}\"\n                        )\n     \
+          \                   w.stop()\n                        raise RuntimeError(\"\
+          Job failed.\")\n        except kubernetes.client.exceptions.ApiException\
+          \ as e:\n            print(f\"API exception occurred: {str(e)}\")\n    \
+          \        time.sleep(5)  # Backoff before retrying\n        # Catches the\
+          \ following error:\n        # urllib3.exceptions.ProtocolError: (\"Connection\
+          \ broken: InvalidChunkLength\n        except urllib3.exceptions.ProtocolError\
+          \ as e:\n            print(f\"Connection broken reconnecting the watcher\
+          \ {str(e)}\")\n            time.sleep(5)  # Backoff before retrying\n  \
+          \      finally:\n            w.stop()\n\n"
+        image: quay.io/modh/odh-generic-data-science-notebook:v3-2024b-20241111
+    exec-pytorchjob-manifest-op-2:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - pytorchjob_manifest_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef pytorchjob_manifest_op(\n    model_pvc_name: str,\n    input_pvc_name:\
+          \ str,\n    output_pvc_name: str,\n    name_suffix: str,\n    # path_to_model:\
+          \ str,\n    phase_num: int,\n    nproc_per_node: int = 3,\n    nnodes: int\
+          \ = 2,\n    num_epochs: int = 2,\n    effective_batch_size: int = 3840,\n\
+          \    learning_rate: float = 1e-4,\n    num_warmup_steps: int = 800,\n  \
+          \  save_samples: int = 0,\n    max_batch_len: int = 20000,\n    seed: int\
+          \ = 42,\n):\n    import inspect\n    import os\n    import time\n\n    import\
+          \ kubernetes\n    import urllib3\n    import yaml\n\n    def list_phase1_final_model():\n\
+          \        model_dir = \"/output/phase_1/model/hf_format\"\n        models\
+          \ = os.listdir(model_dir)\n        newest_idx = max(\n            (os.path.getmtime(f\"\
+          {model_dir}/{model}\"), i)\n            for i, model in enumerate(models)\n\
+          \        )[-1]\n        newest_model = models[newest_idx]\n        return\
+          \ f\"{model_dir}/{newest_model}\"\n\n    name = f\"train-phase-{phase_num}-{name_suffix.rstrip('-sdg')}\"\
+          \n\n    if phase_num == 1:\n        path_to_model = \"/input_model\"\n \
+          \       path_to_data = \"/input_data/knowledge/data.jsonl\"\n    elif phase_num\
+          \ == 2:\n        path_to_model = list_phase1_final_model()\n        path_to_data\
+          \ = \"/input_data/skills/data.jsonl\"\n    else:\n        raise RuntimeError(f\"\
+          Unsupported value of {phase_num=}\")\n\n    image = \"quay.io/redhat-et/ilab:1.2\"\
+          \n\n    manifest = inspect.cleandoc(\n        f\"\"\"\n        apiVersion:\
+          \ kubeflow.org/v1\n        kind: PyTorchJob\n        metadata:\n       \
+          \   name: {name}\n        spec:\n          nprocPerNode: \\\"{nproc_per_node}\\\
+          \"\n          pytorchReplicaSpecs:\n            Master:\n              replicas:\
+          \ 1\n              restartPolicy: OnFailure\n              template:\n \
+          \               metadata:\n                  annotations:\n            \
+          \        sidecar.istio.io/inject: 'false'\n                spec:\n     \
+          \             containers:\n                    - args:\n               \
+          \         - |\n                          echo \"Running phase {phase_num}\"\
+          \n                          echo \"Using {path_to_model} model for training\"\
+          \n                          echo \"Using {path_to_data} data for training\"\
+          \n                          mkdir -p /output/phase_{phase_num}/model;\n\
+          \                          mkdir -p /output/data;\n                    \
+          \      torchrun --nnodes {nnodes} \\\n                              --nproc_per_node\
+          \ {nproc_per_node} \\\n                              --node_rank \\$(RANK)\
+          \ \\\n                              --rdzv_endpoint \\$(MASTER_ADDR):\\\
+          $(MASTER_PORT) \\\n                              -m instructlab.training.main_ds\
+          \ \\\n                              --model_name_or_path={path_to_model}\
+          \ \\\n                              --data_path={path_to_data} \\\n    \
+          \                          --output_dir=/output/phase_{phase_num}/model\
+          \ \\\n                              --num_epochs={num_epochs} \\\n     \
+          \                         --effective_batch_size={effective_batch_size}\
+          \ \\\n                              --learning_rate={learning_rate} \\\n\
+          \                              --num_warmup_steps={num_warmup_steps} \\\n\
+          \                              --save_samples={save_samples} \\\n      \
+          \                        --log_level=INFO \\\n                         \
+          \     --max_batch_len={max_batch_len} \\\n                             \
+          \ --seed={seed} \\\n                              --cpu_offload_optimizer\
+          \ \\\n                              --cpu_offload_params \\\n          \
+          \                    --distributed_training_framework fsdp \\\n        \
+          \                      --is_granite \\\n                              --checkpoint_at_epoch\n\
+          \                      command:\n                        - /bin/bash\n \
+          \                       - '-c'\n                        - '--'\n       \
+          \               image: {image}\n                      name: pytorch\n  \
+          \                    volumeMounts:\n                        - mountPath:\
+          \ /input_data\n                          name: input-data\n            \
+          \              readOnly: true\n                        - mountPath: /input_model\n\
+          \                          name: model\n                          readOnly:\
+          \ true\n                        - mountPath: /output\n                 \
+          \         name: output\n                      env:\n                   \
+          \     - name: NNODES\n                          value: \\\"{nnodes}\\\"\n\
+          \                        - name: NPROC_PER_NODE\n                      \
+          \    value: \\\"{nproc_per_node}\\\"\n                        - name: XDG_CACHE_HOME\n\
+          \                          value: /tmp\n                        - name:\
+          \ TRITON_CACHE_DIR\n                          value: /tmp\n            \
+          \            - name: HF_HOME\n                          value: /tmp\n  \
+          \                      - name: TRANSFORMERS_CACHE\n                    \
+          \      value: /tmp\n                      resources:\n                 \
+          \       requests:\n                          cpu: 8\n                  \
+          \        \"nvidia.com/gpu\": {nproc_per_node}\n                        limits:\n\
+          \                          cpu: 8\n                          \"nvidia.com/gpu\"\
+          : {nproc_per_node}\n                  volumes:\n                    - name:\
+          \ input-data\n                      persistentVolumeClaim:\n           \
+          \             claimName: {input_pvc_name}\n                    - name: model\n\
+          \                      persistentVolumeClaim:\n                        claimName:\
+          \ {model_pvc_name}\n                    - name: output\n               \
+          \       persistentVolumeClaim:\n                        claimName: {output_pvc_name}\n\
+          \            Worker:\n              replicas: {nnodes-1}\n             \
+          \ restartPolicy: OnFailure\n              template:\n                metadata:\n\
+          \                  annotations:\n                    sidecar.istio.io/inject:\
+          \ 'false'\n                spec:\n                  containers:\n      \
+          \              - args:\n                        - |\n                  \
+          \        echo \"Running phase {phase_num}\"\n                          echo\
+          \ \"Using {path_to_model} model for training\"\n                       \
+          \   echo \"Using {path_to_data} data for training\"\n                  \
+          \        mkdir -p /tmp/model;\n                          torchrun --nnodes\
+          \ {nnodes} \\\n                            --nproc_per_node {nproc_per_node}\
+          \ \\\n                            --node_rank \\$(RANK) \\\n           \
+          \                 --rdzv_endpoint \\$(MASTER_ADDR):\\$(MASTER_PORT) \\\n\
+          \                            -m instructlab.training.main_ds \\\n      \
+          \                      --model_name_or_path={path_to_model} \\\n       \
+          \                     --data_path={path_to_data} \\\n                  \
+          \          --output_dir=/tmp/model \\\n                            --num_epochs={num_epochs}\
+          \ \\\n                            --effective_batch_size={effective_batch_size}\
+          \ \\\n                            --learning_rate={learning_rate} \\\n \
+          \                           --num_warmup_steps={num_warmup_steps} \\\n \
+          \                           --save_samples={save_samples} \\\n         \
+          \                   --log_level=INFO \\\n                            --max_batch_len={max_batch_len}\
+          \ \\\n                            --seed={seed} \\\n                   \
+          \         --cpu_offload_optimizer \\\n                            --cpu_offload_params\
+          \ \\\n                            --distributed_training_framework fsdp\
+          \ \\\n                            --is_granite \\\n                    \
+          \        --checkpoint_at_epoch\n                      command:\n       \
+          \                 - /bin/bash\n                        - '-c'\n        \
+          \                - '--'\n                      image: {image}\n        \
+          \              name: pytorch\n                      volumeMounts:\n    \
+          \                    - mountPath: /input_data\n                        \
+          \  name: input-data\n                          readOnly: true\n        \
+          \                - mountPath: /input_model\n                          name:\
+          \ model\n                          readOnly: true\n                    \
+          \    - mountPath: /output\n                          name: output\n    \
+          \                      readOnly: true\n                      env:\n    \
+          \                    - name: NNODES\n                          value: \\\
+          \"{nnodes}\\\"\n                        - name: NPROC_PER_NODE\n       \
+          \                   value: \\\"{nproc_per_node}\\\"\n                  \
+          \      - name: XDG_CACHE_HOME\n                          value: /tmp\n \
+          \                       - name: TRITON_CACHE_DIR\n                     \
+          \     value: /tmp\n                        - name: HF_HOME\n           \
+          \               value: /tmp\n                        - name: TRANSFORMERS_CACHE\n\
+          \                          value: /tmp\n                      resources:\n\
+          \                        requests:\n                          cpu: 8\n \
+          \                         \"nvidia.com/gpu\": {nproc_per_node}\n       \
+          \                 limits:\n                          cpu: 8\n          \
+          \                \"nvidia.com/gpu\": {nproc_per_node}\n                \
+          \  volumes:\n                    - name: input-data\n                  \
+          \    persistentVolumeClaim:\n                        claimName: {input_pvc_name}\n\
+          \                    - name: model\n                      persistentVolumeClaim:\n\
+          \                        claimName: {model_pvc_name}\n                 \
+          \   - name: output\n                      persistentVolumeClaim:\n     \
+          \                   claimName: {output_pvc_name}\n        \"\"\"\n    )\n\
+          \n    try:\n        manifest_yaml = yaml.safe_load(manifest)\n    except\
+          \ yaml.YAMLError as exc:\n        raise RuntimeError(f\"Error parsing manifest:\
+          \ {exc}\") from exc\n\n    # Discover the namespace in which the pod is\
+          \ running\n    with open(\n        \"/var/run/secrets/kubernetes.io/serviceaccount/namespace\"\
+          , \"r\", encoding=\"utf-8\"\n    ) as f:\n        namespace = f.read().strip()\n\
+          \        print(f\"The pod is running in the namespace: {namespace}\")\n\n\
+          \    try:\n        kubernetes.config.load_kube_config()\n        print(\"\
+          Loaded kube config\")\n    except kubernetes.config.ConfigException:\n \
+          \       print(\"Failed to load kube config. Trying in-cluster config\")\n\
+          \        kubernetes.config.load_incluster_config()\n\n    api = kubernetes.client.CustomObjectsApi()\n\
+          \    try:\n        api.create_namespaced_custom_object(\n            group=\"\
+          kubeflow.org\",\n            version=\"v1\",\n            namespace=namespace,\n\
+          \            plural=\"pytorchjobs\",\n            body=manifest_yaml,\n\
+          \        )\n    except kubernetes.client.rest.ApiException as exc:\n   \
+          \     if exc.status == 409:\n            print(\n                \"{} '{}/{}'\
+          \ already exists.\".format(\n                    manifest_yaml[\"kind\"\
+          ],\n                    namespace,\n                    manifest_yaml[\"\
+          metadata\"][\"name\"],\n                )\n            )\n        else:\n\
+          \            raise\n\n    # Get the CR status and wait for it to be completed\n\
+          \    w = kubernetes.watch.Watch()\n    exit_flag = False\n    start_time\
+          \ = time.time()\n    timeout_seconds = 24 * 60 * 60  # 24 hours\n\n    while\
+          \ not exit_flag:  # Keep the watch active\n        if time.time() - start_time\
+          \ > timeout_seconds:\n            raise RuntimeError(\n                \"\
+          Timeout (24h) reached waiting for the PytorchJob to complete.\"\n      \
+          \      )\n\n        try:\n            print(\"Watching for PytorchJob\"\
+          )\n            for event in w.stream(\n                api.list_namespaced_custom_object,\n\
+          \                group=\"kubeflow.org\",\n                version=\"v1\"\
+          ,\n                namespace=namespace,\n                plural=\"pytorchjobs\"\
+          ,\n                timeout_seconds=60,  # Timeout after 1 minute\n     \
+          \       ):\n                pytorchjob_event = event[\"object\"]\n     \
+          \           if (\n                    pytorchjob_event[\"metadata\"][\"\
+          name\"]\n                    != manifest_yaml[\"metadata\"][\"name\"]\n\
+          \                ):\n                    continue\n                pytorchjob_name\
+          \ = pytorchjob_event[\"metadata\"][\"name\"]\n\n                if (\n \
+          \                   \"status\" not in pytorchjob_event\n               \
+          \     or \"conditions\" not in pytorchjob_event[\"status\"]\n          \
+          \      ):\n                    continue\n                print(\n      \
+          \              f\"PytorchJob: {pytorchjob_name} - {pytorchjob_event['status'].get('conditions',\
+          \ 'No conditions yet')}\"\n                )\n                for job_condition\
+          \ in reversed(pytorchjob_event[\"status\"][\"conditions\"]):\n         \
+          \           if job_condition[\"type\"] == \"Succeeded\":\n             \
+          \           print(\n                            f\"PytorchJob '{pytorchjob_name}'\
+          \ completed successfully: {job_condition['reason']}\"\n                \
+          \        )\n                        print(f\"Training phase {phase_num}\
+          \ completed.\")\n                        w.stop()\n                    \
+          \    exit_flag = True\n                        # Break here to avoid going\
+          \ into other conditions, we are done\n                        break\n  \
+          \                  elif job_condition[\"type\"] == \"Failed\":\n       \
+          \                 print(\n                            f\"PytorchJob '{pytorchjob_name}'\
+          \ failed: {job_condition['reason']}\"\n                        )\n     \
+          \                   w.stop()\n                        raise RuntimeError(\"\
+          Job failed.\")\n        except kubernetes.client.exceptions.ApiException\
+          \ as e:\n            print(f\"API exception occurred: {str(e)}\")\n    \
+          \        time.sleep(5)  # Backoff before retrying\n        # Catches the\
+          \ following error:\n        # urllib3.exceptions.ProtocolError: (\"Connection\
+          \ broken: InvalidChunkLength\n        except urllib3.exceptions.ProtocolError\
+          \ as e:\n            print(f\"Connection broken reconnecting the watcher\
+          \ {str(e)}\")\n            time.sleep(5)  # Backoff before retrying\n  \
+          \      finally:\n            w.stop()\n\n"
+        image: quay.io/modh/odh-generic-data-science-notebook:v3-2024b-20241111
+    exec-run-final-eval-op:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - run_final_eval_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef run_final_eval_op(\n    mmlu_branch_output: Output[Artifact],\n\
+          \    mt_bench_branch_output: Output[Artifact],\n    base_model_dir: str,\n\
+          \    base_branch: str,\n    candidate_branch: str,\n    max_workers: str,\n\
+          \    few_shots: int,\n    batch_size: str,\n    merge_system_user_message:\
+          \ bool,\n    candidate_model: str = None,\n    taxonomy_path: str = \"/input/taxonomy\"\
+          ,\n    sdg_path: str = \"/input/sdg\",\n):\n    import json\n    import\
+          \ os\n    import subprocess\n\n    import torch\n    from instructlab.eval.mmlu\
+          \ import MMLUBranchEvaluator\n    from instructlab.eval.mt_bench import\
+          \ MTBenchBranchEvaluator\n    from instructlab.model.evaluate import qa_pairs_to_qna_to_avg_scores,\
+          \ sort_score\n\n    if judge_ca_cert := os.getenv(\"JUDGE_CA_CERT_PATH\"\
+          ):\n        import httpx\n        import openai\n\n        # Create a custom\
+          \ HTTP client\n        class CustomHttpClient(httpx.Client):\n         \
+          \   def __init__(self, *args, **kwargs):\n                # Use the custom\
+          \ CA certificate\n                kwargs.setdefault(\"verify\", judge_ca_cert)\n\
+          \                super().__init__(*args, **kwargs)\n\n        # Create a\
+          \ new OpenAI class that uses the custom HTTP client\n        class CustomOpenAI(openai.OpenAI):\n\
+          \            def __init__(self, *args, **kwargs):\n                custom_client\
+          \ = CustomHttpClient()\n                super().__init__(http_client=custom_client,\
+          \ *args, **kwargs)\n\n        # Monkey patch the OpenAI class in the openai\
+          \ module, so that the eval lib can use it\n        openai.OpenAI = CustomOpenAI\n\
+          \n    print(\"Starting Final Eval...\")\n\n    def launch_vllm(\n      \
+          \  model_path: str, gpu_count: int, retries: int = 120, delay: int = 10\n\
+          \    ) -> tuple:\n        import subprocess\n        import sys\n      \
+          \  import time\n\n        import requests\n        from instructlab.model.backends.common\
+          \ import free_tcp_ipv4_port\n\n        free_port = free_tcp_ipv4_port(\"\
+          127.0.0.1\")\n        port = str(free_port)\n        vllm_server = f\"http://127.0.0.1:{port}/v1\"\
+          \n\n        command = [\n            sys.executable,\n            \"-m\"\
+          ,\n            \"vllm.entrypoints.openai.api_server\",\n            \"--port\"\
+          ,\n            port,\n            \"--model\",\n            model_path,\n\
+          \        ]\n        if gpu_count > 0:\n            command += [\n      \
+          \          \"--tensor-parallel-size\",\n                str(gpu_count),\n\
+          \            ]\n\n        process = subprocess.Popen(args=command)\n\n \
+          \       print(f\"Waiting for vLLM server to start at {vllm_server}...\"\
+          )\n\n        for attempt in range(retries):\n            try:\n        \
+          \        response = requests.get(f\"{vllm_server}/models\", timeout=10)\n\
+          \                if response.status_code == 200:\n                    print(f\"\
+          vLLM server is up and running at {vllm_server}.\")\n                   \
+          \ return process, vllm_server\n            except requests.ConnectionError:\n\
+          \                pass\n\n            print(\n                f\"Server not\
+          \ available yet, retrying in {delay} seconds (Attempt {attempt + 1}/{retries})...\"\
+          \n            )\n            time.sleep(delay)\n\n        raise RuntimeError(\n\
+          \            f\"Failed to start vLLM server at {vllm_server} after {retries}\
+          \ retries.\"\n        )\n\n    def shutdown_vllm(process: subprocess.Popen,\
+          \ timeout: int = 20):\n        import subprocess\n\n        from instructlab.model.backends.vllm\
+          \ import wait_for_stable_vram\n\n        try:\n            process.terminate()\n\
+          \            process.wait(timeout=timeout)\n\n            if process.poll()\
+          \ is None:\n                print(f\"Forcefully killing vLLM server process\
+          \ with PID: {process.pid}\")\n                process.kill()\n\n       \
+          \     print(f\"Successfully stopped vLLM server with PID: {process.pid}\"\
+          )\n\n        except subprocess.TimeoutExpired:\n            print(\n   \
+          \             f\"Timeout expired. Forcefully killing vLLM server with PID:\
+          \ {process.pid}\"\n            )\n            process.kill()  # Force kill\
+          \ the process if over timeout\n\n        # Note from instructlab/model/backends/vllm.py\n\
+          \        # vLLM relies on stable VRAM,  residual reclamation activity\n\
+          \        # can lead to crashes on restart. To prevent this add a\n     \
+          \   # short delay (typically ~ 10 seconds, max 30) to verify stability.\n\
+          \        wait_for_stable_vram(30)\n\n    # For standalone mode\n    if candidate_model\
+          \ is None:\n        # logic to get the best model from the models folder\
+          \ and results\n        pass\n\n    ######################################################################\n\
+          \    # branch_eval_summary_to_json creates a json object from output of\
+          \ instructlab/eval\n    # TODO: Add this to the instructlab/eval or instructlab/instructlab\
+          \ repository\n    def branch_eval_summary_to_json(\n        improvements:\
+          \ list[tuple[str, float, float, float]],\n        regressions: list[tuple[str,\
+          \ float, float, float]],\n        no_changes: list[tuple[str, float]],\n\
+          \        new=None,\n    ) -> str:\n        # Generates a JSON object from\
+          \ the _branch benchmark evaluations\n\n        import json\n\n        summary\
+          \ = {\"improvements\": [], \"regressions\": [], \"no_changes\": [], \"new\"\
+          : []}\n\n        if len(improvements) > 0:\n            improvements.sort(key=sort_score,\
+          \ reverse=True)\n            for improvement in improvements:\n        \
+          \        task, delta, base_score, new_score = improvement\n            \
+          \    summary[\"improvements\"].append(\n                    {\n        \
+          \                \"task\": task,\n                        \"base_score\"\
+          : round(base_score, 2),\n                        \"new_score\": round(new_score,\
+          \ 2),\n                        \"delta\": delta,\n                    }\n\
+          \                )\n\n        if len(regressions) > 0:\n            regressions.sort(key=sort_score)\n\
+          \            for regression in regressions:\n                task, delta,\
+          \ base_score, new_score = regression\n                summary[\"regressions\"\
+          ].append(\n                    {\n                        \"task\": task,\n\
+          \                        \"base_score\": round(base_score, 2),\n       \
+          \                 \"new_score\": round(new_score, 2),\n                \
+          \        \"delta\": delta,\n                    }\n                )\n\n\
+          \        if len(no_changes) > 0:\n            for entry in no_changes:\n\
+          \                task, avg_score = entry\n                summary[\"no_changes\"\
+          ].append(\n                    {\"task\": task, \"average_score\": round(avg_score,\
+          \ 2)}\n                )\n\n        if new is not None and len(new) > 0:\n\
+          \            for entry in new:\n                _, avg_score = entry\n \
+          \               summary[\"new\"].append(\n                    {\"qna\":\
+          \ qna, \"average_score\": round(avg_score, 2)}\n                )\n\n  \
+          \      return json.dumps(summary, indent=4)\n\n    ######################################################################\n\
+          \    print(\"Checking GPUs...\")\n    gpu_available = torch.cuda.is_available()\n\
+          \    gpu_name = (\n        torch.cuda.get_device_name(torch.cuda.current_device())\n\
+          \        if gpu_available\n        else \"No GPU available\"\n    )\n  \
+          \  gpu_count = torch.cuda.device_count() if gpu_available else 0\n\n   \
+          \ print(f\"GPU Available: {gpu_available}, Using: {gpu_name}\")\n\n    if\
+          \ batch_size.isdigit():\n        batch_size = int(batch_size)\n\n    # MMLU_BRANCH\n\
+          \n    # This is very specific to 'ilab generate', necessary because the\
+          \ data generation and\n    # model evaluation are taking place in separate\
+          \ environments.\n    def update_test_lines_in_files(base_dir):\n       \
+          \ import os\n\n        import yaml\n\n        for root, _, files in os.walk(base_dir):\n\
+          \            for file_name in files:\n                if file_name.startswith(\"\
+          knowledge_\") and file_name.endswith(\n                    \"_task.yaml\"\
+          \n                ):\n                    file_path = os.path.join(root,\
+          \ file_name)\n\n                    with open(file_path, \"r\", encoding=\"\
+          utf-8\") as file:\n                        task_yaml = yaml.load(file, Loader=yaml.Loader)\n\
+          \n                    current_test_file_path = task_yaml[\"dataset_kwargs\"\
+          ][\"data_files\"][\n                        \"test\"\n                 \
+          \   ]\n                    current_test_file_path_parts = current_test_file_path.split(\"\
+          /\")\n                    new_test_file_path = f\"{root}/{current_test_file_path_parts[-1]}\"\
+          \n                    task_yaml[\"dataset_kwargs\"][\"data_files\"][\"test\"\
+          ] = (\n                        new_test_file_path\n                    )\n\
+          \                    with open(file_path, \"w\", encoding=\"utf-8\") as\
+          \ file:\n                        yaml.dump(task_yaml, file)\n\n    # find_node_dataset_directories\
+          \ to find sdg output node_datasets_*\n    def find_node_dataset_directories(base_dir:\
+          \ str):\n        import os\n        import re\n\n        # This is specific\
+          \ to ilab/eval output\n        pattern = r\"node_datasets_\"\n        matching_dirs\
+          \ = []\n        regex = re.compile(pattern)\n\n        for root, dirs, _\
+          \ in os.walk(base_dir):\n            for directory in dirs:\n          \
+          \      if regex.search(directory):\n                    matching_dirs.append(os.path.join(root,\
+          \ directory))\n\n        # From 'ilab sdg' the knowledge_*_task.yaml files\
+          \ have a line that references where the SDG took place.\n        # This\
+          \ needs to be updated to run elsewhere.\n        # The line is:\n      \
+          \  #    test: /path/to/where/sdg/occured/node_datasets_*\n        # TODO:\
+          \ update sdg repo: https://github.com/instructlab/sdg/blob/366814b3e89e28c98c0d2a276ad0759c567d2798/src/instructlab/sdg/eval_data.py#L84-%23L114\n\
+          \        update_test_lines_in_files(base_dir)\n        return matching_dirs\n\
+          \n    print(\"Starting MMLU_Branch...\")\n\n    mmlu_tasks = [\"mmlu_pr\"\
+          ]\n\n    node_dataset_dirs = find_node_dataset_directories(sdg_path)\n\n\
+          \    # This assumes generated filesystem from ilab sdg, which\n    # generates\
+          \ a node_datasets_ directory for MMLU custom tasks data\n    if node_dataset_dirs:\n\
+          \        tasks_dir = node_dataset_dirs[0]\n\n        mmlu_branch_evaluators\
+          \ = [\n            MMLUBranchEvaluator(\n                model_path=candidate_model,\n\
+          \                tasks_dir=tasks_dir,\n                tasks=mmlu_tasks,\n\
+          \                few_shots=few_shots,\n                batch_size=batch_size,\n\
+          \            ),\n            MMLUBranchEvaluator(\n                model_path=base_model_dir,\n\
+          \                tasks_dir=tasks_dir,\n                tasks=mmlu_tasks,\n\
+          \                few_shots=few_shots,\n                batch_size=batch_size,\n\
+          \            ),\n        ]\n        m_paths = [candidate_model, base_model_dir]\n\
+          \        overall_scores = []\n        individual_scores_list = []\n    \
+          \    for i, evaluator in enumerate(mmlu_branch_evaluators):\n          \
+          \  m_path = m_paths[i]\n            print(\"Launching Vllm...\")\n     \
+          \       vllm_process, vllm_server = launch_vllm(m_path, gpu_count)\n   \
+          \         overall_score, individual_scores = evaluator.run(vllm_server)\n\
+          \            overall_scores.append(overall_score)\n            individual_scores_list.append(individual_scores)\n\
+          \            print(\"Stopping Vllm\")\n            shutdown_vllm(vllm_process)\n\
+          \n        # TODO: update instructlab/instructlab model/evaluate.py\n   \
+          \     # so this logic can be imported outside of the CLI\n        overall_score\
+          \ = overall_scores[0]\n        base_overall_score = overall_scores[1]\n\
+          \        individual_scores = individual_scores_list[0]\n        base_individual_scores\
+          \ = individual_scores_list[1]\n\n        improvements, regressions, no_changes\
+          \ = [], [], []\n        for task, score in individual_scores.items():\n\
+          \            base_score = base_individual_scores[task]\n            s =\
+          \ score[\"score\"]\n            b_s = base_score[\"score\"]\n          \
+          \  d = round(s - b_s, 2)\n            if s > b_s:\n                improvements.append((task,\
+          \ d, b_s, s))\n            elif b_s > s:\n                regressions.append((task,\
+          \ d, b_s, s))\n            else:\n                no_changes.append((task,\
+          \ s))\n\n        summary = branch_eval_summary_to_json(\n            improvements,\n\
+          \            regressions,\n            no_changes,\n        )\n\n      \
+          \  mmlu_branch_data = {\n            \"report_title\": \"KNOWLEDGE EVALUATION\
+          \ REPORT\",\n            \"max_score\": \"1.0\",\n            \"model\"\
+          : candidate_model,\n            \"model_score\": round(overall_score, 2),\n\
+          \            \"base_model\": base_model_dir,\n            \"base_model_score\"\
+          : round(base_overall_score, 2),\n            \"summary\": summary,\n   \
+          \     }\n\n        with open(mmlu_branch_output.path, \"w\", encoding=\"\
+          utf-8\") as f:\n            json.dump(mmlu_branch_data, f, indent=4)\n \
+          \   else:\n        print(\"No MMLU tasks directories found, skipping MMLU_branch\
+          \ evaluation.\")\n\n    # MT_BENCH_BRANCH\n\n    print(\"Starting MT_BENCH_BRANCH\
+          \ ...\")\n\n    judge_api_key = os.getenv(\"JUDGE_API_KEY\", \"\")\n   \
+          \ judge_model_name = os.getenv(\"JUDGE_NAME\")\n    judge_endpoint = os.getenv(\"\
+          JUDGE_ENDPOINT\")\n\n    output_dir = \"/tmp/eval_output\"\n\n    # TODO:\
+          \ candidate_branch must be in same repo, not a fork, or, can compare main\
+          \ branch against candidate, base models\n    base_branch = base_branch or\
+          \ \"main\"\n    candidate_branch = candidate_branch or \"main\"\n\n    ######################################################################\n\
+          \    # TODO: Update ilab/model/evaluate evaluate def logic to allow for\
+          \ external judge model\n    # and when that happens, much of this logic\
+          \ can be imported from the 'evaluate' definition:\n    # https://github.com/instructlab/instructlab/blob/83ca501ecdd858677380046e2a56da5b2f3f14e7/src/instructlab/model/evaluate.py#L504\n\
+          \    #\n    # With instructlab, model_name is synonomous with model_path\n\
+          \    mt_bench_evaluators = [\n        MTBenchBranchEvaluator(\n        \
+          \    model_name=candidate_model,\n            judge_model_name=judge_model_name,\n\
+          \            taxonomy_git_repo_path=taxonomy_path,\n            branch=candidate_branch,\n\
+          \            output_dir=output_dir,\n            merge_system_user_message=merge_system_user_message,\n\
+          \        ),\n        MTBenchBranchEvaluator(\n            model_name=base_model_dir,\n\
+          \            judge_model_name=judge_model_name,\n            taxonomy_git_repo_path=taxonomy_path,\n\
+          \            branch=base_branch,\n            output_dir=output_dir,\n \
+          \           merge_system_user_message=merge_system_user_message,\n     \
+          \   ),\n    ]\n\n    # ilab/evaluate uses a magic word for its mt_bench\
+          \ evaluator  - 'auto'\n    # with 'auto', number of gpus allocated for serving\
+          \ is calculated based on environment\n    # https://github.com/instructlab/eval/blob/main/src/instructlab/eval/mt_bench.py#L36\n\
+          \    if max_workers == \"auto\":\n        try:\n            usable_cpu_count\
+          \ = len(os.sched_getaffinity(0)) // 2\n        except AttributeError:\n\
+          \            import multiprocessing\n\n            usable_cpu_count = multiprocessing.cpu_count()\
+          \ // 2\n        max_workers = usable_cpu_count\n\n    branches = [candidate_branch,\
+          \ base_branch]\n    m_paths = [candidate_model, base_model_dir]\n    qa_pairs_and_errors\
+          \ = []\n    for i, evaluator in enumerate(mt_bench_evaluators):\n      \
+          \  branch = branches[i]\n        m_path = m_paths[i]\n\n        print(\n\
+          \            f\"Generating questions and reference answers from qna files\
+          \ for branch {branch}...\"\n        )\n        vllm_process, vllm_server\
+          \ = launch_vllm(m_path, gpu_count)\n\n        evaluator.gen_answers(\n \
+          \           server_url=vllm_server,\n            serving_gpus=gpu_count,\n\
+          \            max_workers=max_workers,\n        )\n\n        shutdown_vllm(vllm_process)\n\
+          \n        print(f\"Evaluating answers for branch {branch}...\")\n      \
+          \  overall_score, qa_pairs, error_rate = evaluator.judge_answers(\n    \
+          \        server_url=judge_endpoint,\n            api_key=judge_api_key,\n\
+          \            serving_gpus=gpu_count,\n            max_workers=max_workers,\n\
+          \        )\n\n        qa_pairs_and_errors.append((overall_score, qa_pairs,\
+          \ error_rate))\n\n    overall_score, qa_pairs, error_rate = qa_pairs_and_errors[0]\n\
+          \    base_overall_score, base_qa_pairs, base_error_rate = qa_pairs_and_errors[1]\n\
+          \n    qna_to_avg_scores = qa_pairs_to_qna_to_avg_scores(qa_pairs)\n    base_qna_to_avg_scores\
+          \ = qa_pairs_to_qna_to_avg_scores(base_qa_pairs)\n\n    improvements, regressions,\
+          \ no_changes, new_qnas = [], [], [], []\n\n    for qna, avg_score in qna_to_avg_scores.items():\n\
+          \        base_avg_score = base_qna_to_avg_scores.get(qna)\n        if base_avg_score\
+          \ is not None:\n            if avg_score > base_avg_score:\n           \
+          \     improvements.append(\n                    (\n                    \
+          \    qna,\n                        round(avg_score - base_avg_score, 2),\n\
+          \                        base_avg_score,\n                        avg_score,\n\
+          \                    )\n                )\n            elif avg_score ==\
+          \ base_avg_score:\n                no_changes.append((qna, avg_score))\n\
+          \            else:\n                regressions.append(\n              \
+          \      (\n                        qna,\n                        round(avg_score\
+          \ - base_avg_score, 2),\n                        base_avg_score,\n     \
+          \                   avg_score,\n                    )\n                )\n\
+          \        else:\n            new_qnas.append((qna, avg_score))\n\n    error_rate\
+          \ = (error_rate + base_error_rate) / 2\n    if error_rate > 0:\n       \
+          \ error_rate = round(error_rate, 2)\n\n    summary = branch_eval_summary_to_json(\n\
+          \        improvements,\n        regressions,\n        no_changes,\n    \
+          \    new_qnas,\n    )\n\n    mt_bench_branch_data = {\n        \"report_title\"\
+          : \"SKILLS EVALUATION REPORT\",\n        \"model\": candidate_model,\n \
+          \       \"judge_model\": judge_model_name,\n        \"max_score\": \"10.0\"\
+          ,\n        \"overall_score\": overall_score,\n        \"base_overall_score\"\
+          : base_overall_score,\n        \"error_rate\": error_rate,\n        \"summary\"\
+          : summary,\n    }\n\n    with open(mt_bench_branch_output.path, \"w\", encoding=\"\
+          utf-8\") as f:\n        json.dump(mt_bench_branch_data, f, indent=4)\n\n"
+        env:
+        - name: HOME
+          value: /tmp
+        - name: HF_HOME
+          value: /tmp
+        image: quay.io/redhat-et/ilab:1.2
+        resources:
+          accelerator:
+            count: '1'
+            type: nvidia.com/gpu
+    exec-run-mt-bench-op:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - run_mt_bench_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef run_mt_bench_op(\n    merge_system_user_message: bool,\n    #\
+          \ generate_answers,judgment uses a magic word for its mt_bench evaluator\
+          \  - 'auto'\n    # with 'auto', number of gpus allocated for serving is\
+          \ calculated based on environment\n    # https://github.com/instructlab/eval/blob/main/src/instructlab/eval/mt_bench.py#L36\n\
+          \    max_workers: str,\n    models_folder: str,\n    output_path: str =\
+          \ \"/output/mt_bench_data.json\",\n    best_score_file: Optional[str] =\
+          \ None,\n) -> NamedTuple(\"outputs\", best_model=str, best_score=float):\n\
+          \    import json\n    import os\n    import subprocess\n\n    import torch\n\
+          \    from instructlab.eval.mt_bench import MTBenchEvaluator\n\n    if judge_ca_cert\
+          \ := os.getenv(\"JUDGE_CA_CERT_PATH\"):\n        import httpx\n        import\
+          \ openai\n\n        # Create a custom HTTP client\n        class CustomHttpClient(httpx.Client):\n\
+          \            def __init__(self, *args, **kwargs):\n                # Use\
+          \ the custom CA certificate\n                kwargs.setdefault(\"verify\"\
+          , judge_ca_cert)\n                super().__init__(*args, **kwargs)\n\n\
+          \        # Create a new OpenAI class that uses the custom HTTP client\n\
+          \        class CustomOpenAI(openai.OpenAI):\n            def __init__(self,\
+          \ *args, **kwargs):\n                custom_client = CustomHttpClient()\n\
+          \                super().__init__(http_client=custom_client, *args, **kwargs)\n\
+          \n        # Monkey patch the OpenAI class in the openai module, so that\
+          \ the eval lib can use it\n        openai.OpenAI = CustomOpenAI\n\n    def\
+          \ launch_vllm(\n        model_path: str, gpu_count: int, retries: int =\
+          \ 120, delay: int = 10\n    ) -> tuple:\n        import subprocess\n   \
+          \     import sys\n        import time\n\n        import requests\n     \
+          \   from instructlab.model.backends.common import free_tcp_ipv4_port\n\n\
+          \        free_port = free_tcp_ipv4_port(\"127.0.0.1\")\n        port = str(free_port)\n\
+          \        vllm_server = f\"http://127.0.0.1:{port}/v1\"\n\n        command\
+          \ = [\n            sys.executable,\n            \"-m\",\n            \"\
+          vllm.entrypoints.openai.api_server\",\n            \"--port\",\n       \
+          \     port,\n            \"--model\",\n            model_path,\n       \
+          \ ]\n        if gpu_count > 0:\n            command += [\n             \
+          \   \"--tensor-parallel-size\",\n                str(gpu_count),\n     \
+          \       ]\n\n        process = subprocess.Popen(args=command)\n\n      \
+          \  print(f\"Waiting for vLLM server to start at {vllm_server}...\")\n\n\
+          \        for attempt in range(retries):\n            try:\n            \
+          \    response = requests.get(f\"{vllm_server}/models\")\n              \
+          \  if response.status_code == 200:\n                    print(f\"vLLM server\
+          \ is up and running at {vllm_server}.\")\n                    return process,\
+          \ vllm_server\n            except requests.ConnectionError:\n          \
+          \      pass\n\n            print(\n                f\"Server not available\
+          \ yet, retrying in {delay} seconds (Attempt {attempt + 1}/{retries})...\"\
+          \n            )\n            time.sleep(delay)\n\n        raise RuntimeError(\n\
+          \            f\"Failed to start vLLM server at {vllm_server} after {retries}\
+          \ retries.\"\n        )\n\n    def shutdown_vllm(process: subprocess.Popen,\
+          \ timeout: int = 20):\n        import subprocess\n\n        from instructlab.model.backends.vllm\
+          \ import wait_for_stable_vram\n\n        try:\n            process.terminate()\n\
+          \            process.wait(timeout=timeout)\n\n            if process.poll()\
+          \ is None:\n                print(f\"Forcefully killing vLLM server process\
+          \ with PID: {process.pid}\")\n                process.kill()\n\n       \
+          \     print(f\"Successfully stopped vLLM server with PID: {process.pid}\"\
+          )\n\n        except subprocess.TimeoutExpired:\n            print(\n   \
+          \             f\"Timeout expired. Forcefully killing vLLM server with PID:\
+          \ {process.pid}\"\n            )\n            process.kill()  # Force kill\
+          \ the process if over timeout\n        except Exception as e:\n        \
+          \    print(f\"Failed to stop process with PID {process.pid}. Error: {e}\"\
+          )\n        # Note from instructlab/model/backends/vllm.py\n        # vLLM\
+          \ relies on stable VRAM,  residual reclamation activity\n        # can lead\
+          \ to crashes on restart. To prevent this add a\n        # short delay (typically\
+          \ ~ 10 seconds, max 30) to verify stability.\n        wait_for_stable_vram(30)\n\
+          \n    gpu_available = torch.cuda.is_available()\n    gpu_name = (\n    \
+          \    torch.cuda.get_device_name(torch.cuda.current_device())\n        if\
+          \ gpu_available\n        else \"No GPU available\"\n    )\n    gpu_count\
+          \ = torch.cuda.device_count() if gpu_available else 0\n\n    print(f\"GPU\
+          \ Available: {gpu_available}, {gpu_name}\")\n\n    models_list = os.listdir(models_folder)\n\
+          \n    judge_api_key = os.getenv(\"JUDGE_API_KEY\", \"\")\n    judge_model_name\
+          \ = os.getenv(\"JUDGE_NAME\")\n    judge_endpoint = os.getenv(\"JUDGE_ENDPOINT\"\
+          )\n\n    scores = {}\n    all_mt_bench_data = []\n\n    # generate_answers,judgment\
+          \ uses a magic word for its mt_bench evaluator  - 'auto'\n    # with 'auto',\
+          \ number of gpus allocated for serving is calculated based on environment\n\
+          \    # https://github.com/instructlab/eval/blob/main/src/instructlab/eval/mt_bench.py#L36\n\
+          \    if max_workers == \"auto\":\n        try:\n            usable_cpu_count\
+          \ = len(os.sched_getaffinity(0)) // 2\n        except AttributeError:\n\
+          \            import multiprocessing\n\n            usable_cpu_count = multiprocessing.cpu_count()\
+          \ // 2\n        max_workers = usable_cpu_count\n\n    # modify model_list\
+          \ to ignore any jsonl files present in the directory\n    models_list =\
+          \ [model for model in models_list if not model.endswith(\".jsonl\")]\n \
+          \   for model_name in models_list:\n        print(f\"Serving candidate model:\
+          \ {model_name}\")\n        model_path = f\"{models_folder}/{model_name}\"\
+          \n\n        vllm_process, vllm_server = launch_vllm(model_path, gpu_count)\n\
+          \n        # model ID is the model_path value in vLLM\n        evaluator\
+          \ = MTBenchEvaluator(\n            model_name=model_path,\n            judge_model_name=judge_model_name,\n\
+          \            output_dir=\"/tmp/eval_output\",\n            merge_system_user_message=merge_system_user_message,\n\
+          \        )\n\n        evaluator.gen_answers(\n            server_url=vllm_server,\n\
+          \            serving_gpus=gpu_count,\n            max_workers=max_workers,\n\
+          \        )\n\n        shutdown_vllm(vllm_process)\n\n        overall_score,\
+          \ qa_pairs, turn_scores, error_rate = evaluator.judge_answers(\n       \
+          \     server_url=judge_endpoint,\n            api_key=judge_api_key,\n \
+          \           serving_gpus=gpu_count,\n            max_workers=max_workers,\n\
+          \        )\n\n        mt_bench_data = {\n            \"report_title\": \"\
+          SKILLS EVALUATION REPORT\",\n            \"model\": model_path,\n      \
+          \      \"judge_model\": judge_model_name,\n            \"overall_score\"\
+          : overall_score,\n            \"turn_scores\": turn_scores,\n          \
+          \  \"qa_scores\": qa_pairs,\n            \"error_rate\": error_rate,\n \
+          \       }\n\n        all_mt_bench_data.append(mt_bench_data)\n        scores[model_path]\
+          \ = overall_score\n\n    with open(output_path, \"w\", encoding=\"utf-8\"\
+          ) as f:\n        json.dump(all_mt_bench_data, f, indent=4)\n\n    outputs\
+          \ = NamedTuple(\"outputs\", best_model=str, best_score=float)\n    best_model\
+          \ = max(scores, key=scores.get)\n    best_score = scores[best_model]\n \
+          \   if best_score_file:\n        with open(best_score_file, \"w\", encoding=\"\
+          utf-8\") as f:\n            json.dump({\"best_model\": best_model, \"best_score\"\
+          : best_score}, f, indent=4)\n\n    # Rename the best model directory to\
+          \ \"candidate_model\" for the next step\n    # So we know which model to\
+          \ use for the final evaluation\n    if os.path.exists(os.path.join(models_folder,\
+          \ \"candidate_model\")):\n        print(\"candidate_model already exists.\
+          \ Skipping renaming\")\n    else:\n        os.rename(\n            os.path.join(models_folder,\
+          \ best_model),\n            os.path.join(models_folder, \"candidate_model\"\
+          ),\n        )\n\n    return outputs(best_model=best_model, best_score=best_score)\n\
+          \n"
+        env:
+        - name: HOME
+          value: /tmp
+        - name: HF_HOME
+          value: /tmp
+        image: quay.io/redhat-et/ilab:1.2
+        resources:
+          accelerator:
+            count: '1'
+            type: nvidia.com/gpu
+    exec-sdg-op:
+      container:
+        args:
+        - --executor_input
+        - '{{$}}'
+        - --function_to_execute
+        - sdg_op
+        command:
+        - sh
+        - -ec
+        - 'program_path=$(mktemp -d)
+
+
+          printf "%s" "$0" > "$program_path/ephemeral_component.py"
+
+          _KFP_RUNTIME=true python3 -m kfp.dsl.executor_main                         --component_module_path                         "$program_path/ephemeral_component.py"                         "$@"
+
+          '
+        - "\nimport kfp\nfrom kfp import dsl\nfrom kfp.dsl import *\nfrom typing import\
+          \ *\n\ndef sdg_op(\n    num_instructions_to_generate: int,\n    pipeline:\
+          \ str,\n    repo_branch: Optional[str],\n    repo_pr: Optional[int],\n \
+          \   taxonomy_path: str = \"/data/taxonomy\",\n    sdg_path: str = \"/data/sdg\"\
+          ,\n    sdg_sampling_size: float = 1.0,\n):\n    from os import getenv, path\n\
+          \n    import openai\n    import yaml\n    from instructlab.sdg import generate_data\n\
+          \    from instructlab.sdg.utils.taxonomy import read_taxonomy\n\n    def\
+          \ set_precomputed_skills_data_ratio(sampling_size: float):\n        skills_recipe\
+          \ = \"/usr/share/instructlab/sdg/default_data_recipes/skills.yaml\"\n  \
+          \      if path.exists(skills_recipe):\n            with open(skills_recipe,\
+          \ \"r\") as file:\n                skills_yaml = yaml.load(file, Loader=yaml.Loader)\n\
+          \n            skills_yaml[\"datasets\"][0][\"sampling_size\"] = sampling_size\n\
+          \n            with open(skills_recipe, \"w\", encoding=\"utf-8\") as file:\n\
+          \                yaml.dump(skills_yaml, file)\n\n    api_key = getenv(\"\
+          api_key\")\n    model = getenv(\"model\")\n    endpoint = getenv(\"endpoint\"\
+          )\n\n    if sdg_ca_cert := getenv(\"SDG_CA_CERT_PATH\"):\n        import\
+          \ httpx\n\n        custom_http_client = httpx.Client(verify=sdg_ca_cert)\n\
+          \        client = openai.OpenAI(\n            base_url=endpoint, api_key=api_key,\
+          \ http_client=custom_http_client\n        )\n    else:\n        client =\
+          \ openai.OpenAI(base_url=endpoint, api_key=api_key)\n\n    taxonomy_base\
+          \ = \"main\" if repo_branch or (repo_pr and int(repo_pr) > 0) else \"empty\"\
+          \n\n    print(\"Generating synthetic dataset for:\")\n    print()\n    print(read_taxonomy(taxonomy_path,\
+          \ taxonomy_base))\n\n    set_precomputed_skills_data_ratio(sampling_size=sdg_sampling_size)\n\
+          \n    # generate_data has a magic word for its taxonomy_base argument -\
+          \ 'empty'\n    # it allows generating from the whole repo, see:\n    # https://github.com/instructlab/sdg/blob/c6a9e74a1618b1077cd38e713b8aaed8b7c0c8ce/src/instructlab/sdg/utils/taxonomy.py#L230\n\
+          \    generate_data(\n        client=client,\n        num_instructions_to_generate=num_instructions_to_generate,\n\
+          \        output_dir=sdg_path,\n        taxonomy=taxonomy_path,\n       \
+          \ taxonomy_base=taxonomy_base,\n        model_name=model,\n        pipeline=pipeline,\n\
+          \        chunk_word_count=1000,\n        server_ctx_size=4096,\n    )\n\n"
+        env:
+        - name: HOME
+          value: /tmp
+        - name: HF_HOME
+          value: /tmp
+        image: quay.io/redhat-et/ilab:1.2
+    exec-sdg-to-artifact-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['sdg'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-skills-processed-data-to-artifact-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['skills_processed_data'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+    exec-taxonomy-to-artifact-op:
+      container:
+        args:
+        - cp -r {{$.inputs.parameters['pvc_path']}} {{$.outputs.artifacts['taxonomy'].path}}
+        command:
+        - /bin/sh
+        - -c
+        image: registry.access.redhat.com/ubi9/toolbox
+pipelineInfo:
+  description: InstructLab pipeline
+  displayName: InstructLab
+  name: instructlab
+root:
+  dag:
+    tasks:
+      createpvc:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-createpvc
+        inputs:
+          parameters:
+            access_modes:
+              runtimeValue:
+                constant:
+                - ReadWriteMany
+            pvc_name_suffix:
+              runtimeValue:
+                constant: -sdg
+            size:
+              runtimeValue:
+                constant: 10Gi
+            storage_class_name:
+              componentInputParameter: k8s_storage_class_name
+        taskInfo:
+          name: createpvc
+      createpvc-2:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-createpvc-2
+        inputs:
+          parameters:
+            access_modes:
+              runtimeValue:
+                constant:
+                - ReadWriteMany
+            pvc_name_suffix:
+              runtimeValue:
+                constant: -model-cache
+            size:
+              runtimeValue:
+                constant: 100Gi
+            storage_class_name:
+              componentInputParameter: k8s_storage_class_name
+        taskInfo:
+          name: createpvc-2
+      createpvc-3:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-createpvc-3
+        inputs:
+          parameters:
+            access_modes:
+              runtimeValue:
+                constant:
+                - ReadWriteMany
+            pvc_name_suffix:
+              runtimeValue:
+                constant: -output
+            size:
+              runtimeValue:
+                constant: 100Gi
+            storage_class_name:
+              componentInputParameter: k8s_storage_class_name
+        taskInfo:
+          name: createpvc-3
+      data-processing-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-data-processing-op
+        dependentTasks:
+        - createpvc
+        - createpvc-2
+        - model-to-pvc-op
+        - sdg-op
+        inputs:
+          parameters:
+            max_batch_len:
+              componentInputParameter: sdg_max_batch_len
+        taskInfo:
+          name: data-processing-op
+      deletepvc:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-deletepvc
+        dependentTasks:
+        - createpvc-3
+        - pvc-to-model-op
+        - pvc-to-mt-bench-op
+        - run-final-eval-op
+        inputs:
+          parameters:
+            pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-3
+        taskInfo:
+          name: deletepvc
+      deletepvc-2:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-deletepvc-2
+        dependentTasks:
+        - createpvc
+        - run-final-eval-op
+        inputs:
+          parameters:
+            pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc
+        taskInfo:
+          name: deletepvc-2
+      deletepvc-3:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-deletepvc-3
+        dependentTasks:
+        - createpvc-2
+        - run-final-eval-op
+        inputs:
+          parameters:
+            pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-2
+        taskInfo:
+          name: deletepvc-3
+      git-clone-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-git-clone-op
+        dependentTasks:
+        - createpvc
+        inputs:
+          parameters:
+            repo_branch:
+              componentInputParameter: sdg_repo_branch
+            repo_pr:
+              componentInputParameter: sdg_repo_pr
+            repo_url:
+              componentInputParameter: sdg_repo_url
+        taskInfo:
+          name: git-clone-op
+      importer:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-importer
+        inputs:
+          parameters:
+            uri:
+              componentInputParameter: sdg_base_model
+        taskInfo:
+          name: importer
+      knowledge-processed-data-to-artifact-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-knowledge-processed-data-to-artifact-op
+        dependentTasks:
+        - createpvc
+        - data-processing-op
+        taskInfo:
+          name: knowledge-processed-data-to-artifact-op
+      model-to-pvc-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-model-to-pvc-op
+        dependentTasks:
+        - createpvc-2
+        - importer
+        inputs:
+          artifacts:
+            model:
+              taskOutputArtifact:
+                outputArtifactKey: artifact
+                producerTask: importer
+        taskInfo:
+          name: model-to-pvc-op
+      pvc-to-model-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-pvc-to-model-op
+        dependentTasks:
+        - createpvc-3
+        - run-mt-bench-op
+        inputs:
+          parameters:
+            pvc_path:
+              runtimeValue:
+                constant: /output/phase_2/model/hf_format/candidate_model
+        taskInfo:
+          name: pvc-to-model-op
+      pvc-to-mt-bench-op:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-pvc-to-mt-bench-op
+        dependentTasks:
+        - createpvc-3
+        - run-mt-bench-op
+        inputs:
+          parameters:
+            pvc_path:
+              runtimeValue:
+                constant: /output/mt_bench_data.json
+        taskInfo:
+          name: pvc-to-mt-bench-op
+      pytorchjob-manifest-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-pytorchjob-manifest-op
+        dependentTasks:
+        - createpvc
+        - createpvc-2
+        - createpvc-3
+        - data-processing-op
+        - model-to-pvc-op
+        inputs:
+          parameters:
+            effective_batch_size:
+              componentInputParameter: train_effective_batch_size_phase_1
+            input_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc
+            learning_rate:
+              componentInputParameter: train_learning_rate_phase_1
+            max_batch_len:
+              componentInputParameter: train_max_batch_len
+            model_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-2
+            name_suffix:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc
+            nnodes:
+              componentInputParameter: train_nnodes
+            nproc_per_node:
+              componentInputParameter: train_nproc_per_node
+            num_epochs:
+              componentInputParameter: train_num_epochs_phase_1
+            num_warmup_steps:
+              componentInputParameter: train_num_warmup_steps_phase_1
+            output_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-3
+            phase_num:
+              runtimeValue:
+                constant: 1.0
+            save_samples:
+              componentInputParameter: train_save_samples
+            seed:
+              componentInputParameter: train_seed
+        taskInfo:
+          name: pytorchjob-manifest-op
+      pytorchjob-manifest-op-2:
+        cachingOptions: {}
+        componentRef:
+          name: comp-pytorchjob-manifest-op-2
+        dependentTasks:
+        - createpvc
+        - createpvc-2
+        - createpvc-3
+        - pytorchjob-manifest-op
+        inputs:
+          parameters:
+            effective_batch_size:
+              componentInputParameter: train_effective_batch_size_phase_2
+            input_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc
+            learning_rate:
+              componentInputParameter: train_learning_rate_phase_2
+            max_batch_len:
+              componentInputParameter: train_max_batch_len
+            model_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-2
+            name_suffix:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc
+            nnodes:
+              componentInputParameter: train_nnodes
+            nproc_per_node:
+              componentInputParameter: train_nproc_per_node
+            num_epochs:
+              componentInputParameter: train_num_epochs_phase_2
+            num_warmup_steps:
+              componentInputParameter: train_num_warmup_steps_phase_2
+            output_pvc_name:
+              taskOutputParameter:
+                outputParameterKey: name
+                producerTask: createpvc-3
+            phase_num:
+              runtimeValue:
+                constant: 2.0
+            save_samples:
+              componentInputParameter: train_save_samples
+            seed:
+              componentInputParameter: train_seed
+        taskInfo:
+          name: pytorchjob-manifest-op-2
+      run-final-eval-op:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-run-final-eval-op
+        dependentTasks:
+        - createpvc
+        - createpvc-2
+        - createpvc-3
+        - run-mt-bench-op
+        inputs:
+          parameters:
+            base_branch:
+              componentInputParameter: sdg_repo_branch
+            base_model_dir:
+              runtimeValue:
+                constant: /model/
+            batch_size:
+              componentInputParameter: final_eval_batch_size
+            candidate_branch:
+              componentInputParameter: sdg_repo_branch
+            candidate_model:
+              runtimeValue:
+                constant: /output/phase_2/model/hf_format/candidate_model
+            few_shots:
+              componentInputParameter: final_eval_few_shots
+            max_workers:
+              componentInputParameter: final_eval_max_workers
+            merge_system_user_message:
+              componentInputParameter: final_eval_merge_system_user_message
+        taskInfo:
+          name: run-final-eval-op
+      run-mt-bench-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-run-mt-bench-op
+        dependentTasks:
+        - createpvc-3
+        - pytorchjob-manifest-op-2
+        inputs:
+          parameters:
+            max_workers:
+              componentInputParameter: mt_bench_max_workers
+            merge_system_user_message:
+              componentInputParameter: mt_bench_merge_system_user_message
+            models_folder:
+              runtimeValue:
+                constant: /output/phase_2/model/hf_format
+        taskInfo:
+          name: run-mt-bench-op
+      sdg-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-sdg-op
+        dependentTasks:
+        - createpvc
+        - git-clone-op
+        inputs:
+          parameters:
+            num_instructions_to_generate:
+              componentInputParameter: sdg_scale_factor
+            pipeline:
+              componentInputParameter: sdg_pipeline
+            repo_branch:
+              componentInputParameter: sdg_repo_branch
+            repo_pr:
+              componentInputParameter: sdg_repo_pr
+            sdg_sampling_size:
+              componentInputParameter: sdg_sample_size
+        taskInfo:
+          name: sdg-op
+      sdg-to-artifact-op:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-sdg-to-artifact-op
+        dependentTasks:
+        - createpvc
+        - git-clone-op
+        - sdg-op
+        taskInfo:
+          name: sdg-to-artifact-op
+      skills-processed-data-to-artifact-op:
+        cachingOptions: {}
+        componentRef:
+          name: comp-skills-processed-data-to-artifact-op
+        dependentTasks:
+        - createpvc
+        - data-processing-op
+        taskInfo:
+          name: skills-processed-data-to-artifact-op
+      taxonomy-to-artifact-op:
+        cachingOptions:
+          enableCache: true
+        componentRef:
+          name: comp-taxonomy-to-artifact-op
+        dependentTasks:
+        - createpvc
+        - git-clone-op
+        - sdg-op
+        taskInfo:
+          name: taxonomy-to-artifact-op
+  inputDefinitions:
+    parameters:
+      final_eval_batch_size:
+        defaultValue: auto
+        description: Final model evaluation parameter for MMLU. Batch size for evaluation.
+          Valid values are a positive integer or 'auto' to select the largest batch
+          size that will fit in memory.
+        isOptional: true
+        parameterType: STRING
+      final_eval_few_shots:
+        defaultValue: 5.0
+        description: Final model evaluation parameter for MMLU. Number of question-answer
+          pairs provided in the context preceding the question used for evaluation.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      final_eval_max_workers:
+        defaultValue: auto
+        description: Final model evaluation parameter for MT Bench Branch. Number
+          of workers to use for evaluation with mt_bench or mt_bench_branch. Must
+          be a positive integer or 'auto'.
+        isOptional: true
+        parameterType: STRING
+      final_eval_merge_system_user_message:
+        defaultValue: false
+        description: Final model evaluation parameter for MT Bench Branch. Boolean
+          indicating whether to merge system and user messages (required for Mistral
+          based judges)
+        isOptional: true
+        parameterType: BOOLEAN
+      k8s_storage_class_name:
+        defaultValue: standard
+        description: A Kubernetes StorageClass name for persistent volumes. Selected
+          StorageClass must support RWX PersistentVolumes.
+        isOptional: true
+        parameterType: STRING
+      mt_bench_max_workers:
+        defaultValue: auto
+        description: MT Bench parameter. Number of workers to use for evaluation with
+          mt_bench or mt_bench_branch. Must be a positive integer or 'auto'.
+        isOptional: true
+        parameterType: STRING
+      mt_bench_merge_system_user_message:
+        defaultValue: false
+        description: MT Bench parameter. Boolean indicating whether to merge system
+          and user messages (required for Mistral based judges)
+        isOptional: true
+        parameterType: BOOLEAN
+      sdg_base_model:
+        defaultValue: s3://<BUCKET>/<PATH_TO_MODEL>
+        description: SDG parameter. LLM model used to generate the synthetic dataset
+        isOptional: true
+        parameterType: STRING
+      sdg_max_batch_len:
+        defaultValue: 20000.0
+        description: SDG parameter. Maximum tokens per gpu for each batch that will
+          be handled in a single step.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      sdg_pipeline:
+        defaultValue: simple
+        description: 'SDG parameter. Data generation pipeline to use. Available: ''simple'',
+          ''full'', or a valid path to a directory of pipeline workflow YAML files.
+          Note that ''full'' requires a larger teacher model, Mixtral-8x7b.'
+        isOptional: true
+        parameterType: STRING
+      sdg_repo_branch:
+        description: SDG parameter. Points to a branch within the taxonomy git repository.
+          If set, has priority over sdg_repo_pr
+        isOptional: true
+        parameterType: STRING
+      sdg_repo_pr:
+        description: SDG parameter. Points to a pull request against the taxonomy
+          git repository
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      sdg_repo_url:
+        defaultValue: https://github.com/instructlab/taxonomy.git
+        description: SDG parameter. Points to a taxonomy git repository
+        isOptional: true
+        parameterType: STRING
+      sdg_sample_size:
+        defaultValue: 1.0
+        description: SDG parameter. Represents the sdg skills recipe sampling size
+          as percentage in decimal form.
+        isOptional: true
+        parameterType: NUMBER_DOUBLE
+      sdg_scale_factor:
+        defaultValue: 2.0
+        description: SDG parameter. The total number of instructions to be generated.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_effective_batch_size_phase_1:
+        defaultValue: 3840.0
+        description: Training parameter for in Phase 1. The number of samples in a
+          batch that the model should see before its parameters are updated.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_effective_batch_size_phase_2:
+        defaultValue: 3840.0
+        description: Training parameter for in Phase 2. The number of samples in a
+          batch that the model should see before its parameters are updated.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_learning_rate_phase_1:
+        defaultValue: 0.0001
+        description: Training parameter for in Phase 1. How fast we optimize the weights
+          during gradient descent. Higher values may lead to unstable learning performance.
+          It's generally recommended to have a low learning rate with a high effective
+          batch size.
+        isOptional: true
+        parameterType: NUMBER_DOUBLE
+      train_learning_rate_phase_2:
+        defaultValue: 0.0001
+        description: Training parameter for in Phase 2. How fast we optimize the weights
+          during gradient descent. Higher values may lead to unstable learning performance.
+          It's generally recommended to have a low learning rate with a high effective
+          batch size.
+        isOptional: true
+        parameterType: NUMBER_DOUBLE
+      train_max_batch_len:
+        defaultValue: 20000.0
+        description: Training parameter. Maximum tokens per gpu for each batch that
+          will be handled in a single step.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_nnodes:
+        defaultValue: 2.0
+        description: Training parameter. Number of nodes/workers to train on.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_nproc_per_node:
+        defaultValue: 3.0
+        description: Training parameter. Number of GPUs per each node/worker to use
+          for training.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_num_epochs_phase_1:
+        defaultValue: 2.0
+        description: Training parameter for in Phase 1. Number of epochs to run training.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_num_epochs_phase_2:
+        defaultValue: 2.0
+        description: Training parameter for in Phase 2. Number of epochs to run training.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_num_warmup_steps_phase_1:
+        defaultValue: 100.0
+        description: Training parameter for in Phase 1. The number of steps a model
+          should go through before reaching the full learning rate. We start at 0
+          and linearly climb up to train_learning_rate.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_num_warmup_steps_phase_2:
+        defaultValue: 100.0
+        description: Training parameter for in Phase 2. The number of steps a model
+          should go through before reaching the full learning rate. We start at 0
+          and linearly climb up to train_learning_rate.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_save_samples:
+        defaultValue: 0.0
+        description: Training parameter. Number of samples the model should see before
+          saving a checkpoint.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+      train_seed:
+        defaultValue: 42.0
+        description: Training parameter. Random seed for initializing training.
+        isOptional: true
+        parameterType: NUMBER_INTEGER
+schemaVersion: 2.1.0
+sdkVersion: kfp-2.9.0
+---
+platforms:
+  kubernetes:
+    deploymentSpec:
+      executors:
+        exec-data-processing-op:
+          imagePullSecret:
+          - secretName: redhat-et-ilab-botty-pull-secret
+          pvcMount:
+          - mountPath: /model
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-2
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+        exec-git-clone-op:
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+        exec-knowledge-processed-data-to-artifact-op:
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+        exec-model-to-pvc-op:
+          pvcMount:
+          - mountPath: /model
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-2
+        exec-pvc-to-model-op:
+          pvcMount:
+          - mountPath: /output
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-3
+        exec-pvc-to-mt-bench-op:
+          pvcMount:
+          - mountPath: /output
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-3
+        exec-pytorchjob-manifest-op-2:
+          pvcMount:
+          - mountPath: /output
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-3
+        exec-run-final-eval-op:
+          configMapAsEnv:
+          - configMapName: judge-server
+            keyToEnv:
+            - configMapKey: endpoint
+              envVar: JUDGE_ENDPOINT
+            - configMapKey: model
+              envVar: JUDGE_NAME
+          imagePullSecret:
+          - secretName: redhat-et-ilab-botty-pull-secret
+          pvcMount:
+          - mountPath: /output
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-3
+          - mountPath: /input
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+          - mountPath: /model
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-2
+          secretAsEnv:
+          - keyToEnv:
+            - envVar: JUDGE_API_KEY
+              secretKey: api_key
+            secretName: judge-server
+        exec-run-mt-bench-op:
+          configMapAsEnv:
+          - configMapName: judge-server
+            keyToEnv:
+            - configMapKey: endpoint
+              envVar: JUDGE_ENDPOINT
+            - configMapKey: model
+              envVar: JUDGE_NAME
+          imagePullSecret:
+          - secretName: redhat-et-ilab-botty-pull-secret
+          pvcMount:
+          - mountPath: /output
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc-3
+          secretAsEnv:
+          - keyToEnv:
+            - envVar: JUDGE_API_KEY
+              secretKey: api_key
+            secretName: judge-server
+        exec-sdg-op:
+          configMapAsEnv:
+          - configMapName: teacher-server
+            keyToEnv:
+            - configMapKey: endpoint
+              envVar: endpoint
+            - configMapKey: model
+              envVar: model
+          imagePullSecret:
+          - secretName: redhat-et-ilab-botty-pull-secret
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+          secretAsEnv:
+          - keyToEnv:
+            - envVar: api_key
+              secretKey: api_key
+            secretName: teacher-server
+        exec-sdg-to-artifact-op:
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+        exec-skills-processed-data-to-artifact-op:
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc
+        exec-taxonomy-to-artifact-op:
+          pvcMount:
+          - mountPath: /data
+            taskOutputParameter:
+              outputParameterKey: name
+              producerTask: createpvc