EMMM:跟踪机器学习实验的统一元模型

S. Idowu, D. Strüber, T. Berger
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引用次数: 2

摘要

用于管理资产的传统软件工程工具——特别是版本控制系统——不足以管理机器学习模型开发实验中使用的各种资产类型。改善机器学习资产管理的两种可能途径包括:1)采用专用的机器学习实验管理工具,这些工具在支持诸如版本控制、可追溯性、可审计性、协作和可再现性等问题方面越来越受欢迎;2)开发新的和改进的版本控制工具,支持针对机器学习资产定制的特定领域操作。作为对改善这两条路径上的资产管理的贡献,本工作提出了实验管理元模型(EMMM),这是一个元模型,它统一了从系统选择的机器学习实验管理工具中提取的概念结构和关系。我们解释了元模型的概念和关系,并用实际实验数据对其进行了评价。提出的元模型基于Eclipse建模框架(EMF)及其元建模语言Ecore,用于对模型结构进行编码。我们的元模型可以作为从业者和研究人员的具体蓝图,用于改进现有工具并开发具有本机支持机器学习特定资产和操作的新工具。
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EMMM: A Unified Meta-Model for Tracking Machine Learning Experiments
Traditional software engineering tools for managing assets—specifically, version control systems—are inadequate to manage the variety of asset types used in machine-learning model development experiments. Two possible paths to improve the management of machine learning assets include 1) Adopting dedicated machine-learning experiment management tools, which are gaining popularity for supporting concerns such as versioning, traceability, auditability, collaboration, and reproducibility; 2) Developing new and improved version control tools with support for domain-specific operations tailored to machine learning assets. As a contribution to improving asset management on both paths, this work presents Experiment Management Meta-Model (EMMM), a meta-model that unifies the conceptual structures and relationships extracted from systematically selected machine-learning experiment management tools. We explain the meta-model’s concepts and relationships and evaluate it using real experiment data. The proposed meta-model is based on the Eclipse Modeling Framework (EMF) with its meta-modeling language, Ecore, to encode model structures. Our meta-model can be used as a concrete blueprint for practitioners and researchers to improve existing tools and develop new tools with native support for machine-learning-specific assets and operations.
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