A Case Study of Multimodal, Multi-institutional Data Management for the Combinatorial Materials Science Community

IF 2.4 3区 材料科学 Q3 ENGINEERING, MANUFACTURING Integrating Materials and Manufacturing Innovation Pub Date : 2024-03-22 DOI:10.1007/s40192-024-00345-7
Sarah I. Allec, Eric S. Muckley, Nathan S. Johnson, Christopher K. H. Borg, Dylan J. Kirsch, Joshua Martin, Rohit Pant, Ichiro Takeuchi, Andrew S. Lee, James E. Saal, Logan Ward, Apurva Mehta
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Abstract

Although the convergence of high-performance computing, automation, and machine learning has significantly altered the materials design timeline, transformative advances in functional materials and acceleration of their design will require addressing the deficiencies that currently exist in materials informatics, particularly a lack of standardized experimental data management. The challenges associated with experimental data management are especially true for combinatorial materials science, where advancements in automation of experimental workflows have produced datasets that are often too large and too complex for human reasoning. The data management challenge is further compounded by the multimodal and multi-institutional nature of these datasets, as they tend to be distributed across multiple institutions and can vary substantially in format, size, and content. Furthermore, modern materials engineering requires the tuning of not only composition but also of phase and microstructure to elucidate processing–structure–property–performance relationships. To adequately map a materials design space from such datasets, an ideal materials data infrastructure would contain data and metadata describing (i) synthesis and processing conditions, (ii) characterization results, and (iii) property and performance measurements. Here, we present a case study for the low-barrier development of such a dashboard that enables standardized organization, analysis, and visualization of a large data lake consisting of combinatorial datasets of synthesis and processing conditions, X-ray diffraction patterns, and materials property measurements generated at several different institutions. While this dashboard was developed specifically for data-driven thermoelectric materials discovery, we envision the adaptation of this prototype to other materials applications, and, more ambitiously, future integration into an all-encompassing materials data management infrastructure.

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组合材料科学团体多模式、多机构数据管理案例研究
虽然高性能计算、自动化和机器学习的融合已经极大地改变了材料设计的时间轴,但功能材料的变革性进步及其设计的加速需要解决目前材料信息学中存在的不足,尤其是缺乏标准化的实验数据管理。与实验数据管理相关的挑战在组合材料科学领域尤为突出,因为实验工作流程自动化的进步所产生的数据集往往过于庞大和复杂,人类无法进行推理。由于这些数据集往往分布在多个机构,在格式、大小和内容上可能存在很大差异,因此其多模式和多机构的性质进一步加剧了数据管理的挑战。此外,现代材料工程不仅需要调整成分,还需要调整相位和微观结构,以阐明加工-结构-性能之间的关系。为了从这些数据集中充分绘制材料设计空间,理想的材料数据基础设施应包含描述以下内容的数据和元数据:(i) 合成和加工条件,(ii) 表征结果,(iii) 性能和性能测量。在此,我们介绍了一个低门槛开发此类仪表板的案例研究,该仪表板可对大型数据湖进行标准化组织、分析和可视化,该数据湖由多个不同机构生成的合成和加工条件组合数据集、X 射线衍射图样和材料性能测量数据组成。虽然该仪表板是专门为数据驱动的热电材料发现而开发的,但我们设想将该原型适用于其他材料应用,更雄心勃勃的是,未来将其集成到一个包罗万象的材料数据管理基础设施中。
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来源期刊
Integrating Materials and Manufacturing Innovation
Integrating Materials and Manufacturing Innovation Engineering-Industrial and Manufacturing Engineering
CiteScore
5.30
自引率
9.10%
发文量
42
审稿时长
39 days
期刊介绍: The journal will publish: Research that supports building a model-based definition of materials and processes that is compatible with model-based engineering design processes and multidisciplinary design optimization; Descriptions of novel experimental or computational tools or data analysis techniques, and their application, that are to be used for ICME; Best practices in verification and validation of computational tools, sensitivity analysis, uncertainty quantification, and data management, as well as standards and protocols for software integration and exchange of data; In-depth descriptions of data, databases, and database tools; Detailed case studies on efforts, and their impact, that integrate experiment and computation to solve an enduring engineering problem in materials and manufacturing.
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New Paradigms in Model Based Materials Definitions for Titanium Alloys in Aerospace Applications An Explainable Deep Learning Model Based on Multi-scale Microstructure Information for Establishing Composition–Microstructure–Property Relationship of Aluminum Alloys Comparison of Full-Field Crystal Plasticity Simulations to Synchrotron Experiments: Detailed Investigation of Mispredictions 3D Reconstruction of a High-Energy Diffraction Microscopy Sample Using Multi-modal Serial Sectioning with High-Precision EBSD and Surface Profilometry L-PBF High-Throughput Data Pipeline Approach for Multi-modal Integration
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