Abstract
Machine learning (ML) continues to permeate all layers of academia, industry
and society. Despite its successes, mental frameworks to capture and represent
machine learning workflows in a consistent and coherent manner are lacking. For
instance, the de facto process modeling standard, Business Process Model and
Notation (BPMN), managed by the Object Management Group, is widely accepted and
applied. However, it is short of specific support to represent machine learning
workflows. Further, the number of heterogeneous tools for deployment of machine
learning solutions can easily overwhelm practitioners. Research is needed to
align the process from modeling to deploying ML workflows.
We analyze requirements for standard based conceptual modeling for machine
learning workflows and their serverless deployment. Confronting the
shortcomings with respect to consistent and coherent modeling of ML workflows
in a technology independent and interoperable manner, we extend BPMN's
Meta-Object Facility (MOF) metamodel and the corresponding notation and
introduce BPMN4sML (BPMN for serverless machine learning). Our extension
BPMN4sML follows the same outline referenced by the Object Management Group
(OMG) for BPMN. We further address the heterogeneity in deployment by proposing
a conceptual mapping to convert BPMN4sML models to corresponding deployment
models using TOSCA.
BPMN4sML allows technology-independent and interoperable modeling of machine
learning workflows of various granularity and complexity across the entire
machine learning lifecycle. It aids in arriving at a shared and standardized
language to communicate ML solutions. Moreover, it takes the first steps toward
enabling conversion of ML workflow model diagrams to corresponding deployment
models for serverless deployment via TOSCA.
Description
BPMN4sML: A BPMN Extension for Serverless Machine Learning. Technology Independent and Interoperable Modeling of Machine Learning Workflows and their Serverless Deployment Orchestration
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