Operationalization of Machine Learning with Serverless Architecture: An Industrial Operationalization of Machine Learning with Serverless Architecture: An Industrial Implementation for Harmonized System Code Prediction

πŸ“… 2026-02-19
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πŸ€– AI Summary
This work addresses customs clearance delays in global trade caused by ambiguous product descriptions and frequent updates to Harmonized System (HS) codes. To tackle this challenge, the authors propose a serverless MLOps framework that leverages event-driven pipelines and managed services to enable end-to-end, model-agnostic machine learning lifecycle management. The architecture supports automatic scaling, reproducible training, auditable deployment, and automated A/B testing, ensuring secure and seamless model transitions. By integrating custom text embeddings with models such as Text-CNN, the system achieves 98% accuracy on real-world HS code prediction tasks, meeting stringent service-level agreement (SLA) requirements. This approach significantly reduces long-term operational costs and establishes an efficient, cost-effective, and reproducible deployment paradigm for industrial-scale machine learning systems.

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πŸ“ Abstract
This paper presents a serverless MLOps framework orchestrating the complete ML lifecycle from data ingestion, training, deployment, monitoring, and retraining to using event-driven pipelines and managed services. The architecture is model-agnostic, supporting diverse inference patterns through standardized interfaces, enabling rapid adaptation without infrastructure overhead. We demonstrate practical applicability through an industrial implementation for Harmonized System (HS) code prediction, a compliance-critical task where short, unstructured product descriptions are mapped to standardized codes used by customs authorities in global trade. Frequent updates and ambiguous descriptions make classification challenging, with errors causing shipment delays and financial losses. Our solution uses a custom text embedding encoder and multiple deep learning architectures, with Text-CNN achieving 98 percent accuracy on ground truth data. Beyond accuracy, the pipeline ensures reproducibility, auditability, and SLA adherence under variable loads via auto-scaling. A key feature is automated A/B testing, enabling dynamic model selection and safe promotion in production. Cost-efficiency drives model choice; while transformers may achieve similar accuracy, their long-term operational costs are significantly higher. Deterministic classification with predictable latency and explainability is prioritized, though the architecture remains extensible to transformer variants and LLM-based inference. The paper first introduces the deep learning architectures with simulations and model comparisons, then discusses industrialization through serverless architecture, demonstrating automated retraining, prediction, and validation of HS codes. This work provides a replicable blueprint for operationalizing ML using serverless architecture, enabling enterprises to scale while optimizing performance and economics.
Problem

Research questions and friction points this paper is trying to address.

MLOps
Serverless Architecture
Harmonized System Code Prediction
Industrial Machine Learning
Text Classification
Innovation

Methods, ideas, or system contributions that make the work stand out.

Serverless MLOps
Model-agnostic Architecture
Automated A/B Testing
HS Code Prediction
Cost-efficient Inference
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