Machine Learning (ML) Pipeline Instance

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A Machine Learning (ML) Pipeline Instance is a data processing workflow instance that supports the delivery of ML-based systems.



References

2024

  • Perplexity
    • A Machine Learning (ML) Workflow Instance is a structured sequence of steps designed to develop, train, evaluate, and deploy machine learning models. This workflow ensures that data is processed efficiently and models are built and maintained effectively to deliver ML-based solutions. Here is a detailed breakdown of the typical stages involved in an ML workflow instance:
      1. 1. Problem Definition: The first step involves clearly defining the problem to be solved and establishing the project goals. This includes understanding the business context, identifying relevant data sources, and defining key performance metrics[4].
      2. 2. Data Collection: Data collection involves gathering relevant data from various sources. This could include databases, sensors, web scraping, or APIs. The quality and relevance of the data collected are crucial as they directly impact the model's performance[3][7].
      3. 3. Data Preprocessing: Data preprocessing is a critical step that involves cleaning, transforming, and preparing the data for analysis. This may include tasks such as removing missing values, normalizing data, and converting categorical data into numerical formats. The goal is to ensure the data is in a suitable format for training the machine learning model[1][2][16].
      4. 4. Exploratory Data Analysis (EDA): EDA involves analyzing the data to uncover patterns, trends, and relationships. This step helps in understanding the characteristics of the data and informs decisions about feature selection and model selection strategies[4][17].
      5. 5. Data Splitting: The processed data is typically split into three sets: training, validation, and test datasets. The training set is used to train the model, the validation set is used to fine-tune the model, and the test set is used to evaluate the model's performance on unseen data[3][10].
      6. 6. Model Selection and Training: In this phase, appropriate machine learning algorithms are selected based on the problem requirements and data characteristics. The selected models are then trained using the training dataset. This step also involves feature engineering and hyperparameter tuning to optimize the model's performance[2][4][7].
      7. 7. Model Evaluation and Tuning: The trained models are evaluated using validation techniques such as cross-validation. This step involves assessing the model's performance using suitable evaluation metrics and tuning the model's hyperparameters to improve its accuracy and generalizability[4][7].
      8. 8. Model Deployment: Once the model is trained and evaluated, it is deployed into a production environment. This involves integrating the model into existing systems and setting up the necessary infrastructure to handle predictions on new data. Deployment can be done for real-time (online) predictions or batch predictions[1][2][14].
      9. 9. Model Monitoring and Maintenance: After deployment, the model's performance is continuously monitored to ensure it remains effective. This includes tracking prediction accuracy, detecting data drifts, and retraining the model as needed to adapt to new data and maintain performance[2][14].
      10. 10. Model Performance Logging: Every inference request and its outcome are logged to maintain a record of the model's performance over time. This helps in identifying any issues and making necessary adjustments to the model or the workflow[2].
    • Conclusion: A well-defined ML workflow instance is essential for the successful implementation of machine learning solutions. It ensures that each step, from data collection to model deployment and monitoring, is systematically executed, leading to efficient and effective ML-based solutions[1][2][4][7].
    • Citations:
[1] https://www.projectpro.io/recipes/prepare-machine-learning-workflow-in-python
[2] https://ml-ops.org/content/end-to-end-ml-workflow
[3] https://www.run.ai/guides/machine-learning-engineering/machine-learning-workflow
[4] https://www.purestorage.com/uk/knowledge/machine-learning-workflow.html
[5] https://www.dataversity.net/machine-learning-solutions/
[6] https://blog.nimblebox.ai/machine-learning-workflow
[7] https://www.codingdojo.com/blog/machine-learning-workflow
[8] https://mindtitan.com/resources/blog/machine-learning-solutions/
[9] https://aws.amazon.com/compare/the-difference-between-artificial-intelligence-and-machine-learning/
[10] https://towardsdatascience.com/workflow-of-a-machine-learning-project-ec1dba419b94