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MCP.directory

mlops-observability

by fmind
14
0
Source

Guide to implement full stack observability including reproducibility, lineage, monitoring, alerting, and explainability.

Install

mkdir -p .claude/skills/mlops-observability && curl -L -o skill.zip "https://mcp.directory/api/skills/download/2019" && unzip -o skill.zip -d .claude/skills/mlops-observability && rm skill.zip

Installs to .claude/skills/mlops-observability

About this skill

MLOps Observability

Goal

To implement a "Glass Box" system where every result is Reproducible, every asset has Lineage, and system health is Monitored, Alerted on, and Explained.

Prerequisites

  • Language: Python
  • Context: Production monitoring and debugging.
  • Platform Suggestion: MLflow, SHAP, Evidently, ...

Instructions

1. Guarantee Reproducibility

Consistency is key. For instance:

  1. Randomness: Set seeds for random, numpy, torch, tensorflow.
  2. Environment: Use docker and locked dependencies (uv.lock).
  3. Builds: Use justfile with uv build --build-constraint for deterministic wheels.
  4. Code: Track git commit hash for every run.

2. Track Data Lineage

Know the origin of your data. For instance:

  1. Datasets: Create MLflow Datasets with mlflow.data.from_pandas.
  2. Logging: Log inputs to MLflow context with mlflow.log_input.
  3. Versioning: Version data files (e.g., data/v1.csv) or use DVC.
  4. Transformations: Log preprocessing parameters mapping data versions to model versions.

3. Monitoring & Drift Detection

Watch for silent failures. For instance:

  1. Validation: Use MLflow Evaluate to gate models against quality thresholds.
  2. Drift: Use evidently to compare reference (training) vs current (production) data.
    • Detect Data Drift (input distribution changes) and Concept Drift (relationship changes).
  3. System: Enable MLflow System Metrics (log_system_metrics=True) for CPU/GPU.

4. Alerting

Don't stare at dashboards. For instance:

  1. Local: Use plyer for desktop notifications during long training runs.
  2. Production: Use PagerDuty (critical) or Slack (warnings).
  3. Thresholds: Use Static (fixed value) or Dynamic (anomaly detection) rules.
  4. Action: Alerts must link to a dashboard or playbook.

5. Explainability (XAI)

Trust but verify. For instance:

  1. Global: Use Feature Importance (e.g., Random Forest) to understand overall logic.
  2. Local: Use SHAP values to explain individual predictions.
  3. Artifacts: Save explanations (plots/tables) as MLflow artifacts.

6. Infrastructure & Costs

Optimize resources. For instance:

  1. Tags: Tag runs with project, env, user.
  2. Costs: Log run_time and instance type to estimate ROI.

Self-Correction Checklist

  • Seeds: Are random seeds fixed?
  • Inputs: Are input datasets logged to MLflow?
  • System Metrics: Is log_system_metrics enabled?
  • Explanations: Are SHAP values generated?
  • Alerts: Are thresholds defined for failures?

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