Critical Point Extraction from Multivariate Functional Approximation

Critical Point Extraction from Multivariate Functional Approximation

Advances in high-performance computing require new ways to represent large-scale scientific data to support data storage, data transfers, and data analysis within scientific workflows. Multivariate functional approximation (MFA) has recently emerged as a new continuous meshless representation that a...

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Veröffentlicht in:arXiv.org 2024-08
Hauptverfasser: Ma, Guanqun, Lenz, David, Peterka, Tom, Guo, Hanqi, Wang, Bei
Format: Artikel
Sprache:eng
Schlagworte:
Approximation
Continuity (mathematics)
Critical point
Data analysis
Data storage
Dimensional analysis
Functionals
Multivariate analysis
Representations
Resampling
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Zusammenfassung:Advances in high-performance computing require new ways to represent large-scale scientific data to support data storage, data transfers, and data analysis within scientific workflows. Multivariate functional approximation (MFA) has recently emerged as a new continuous meshless representation that approximates raw discrete data with a set of piecewise smooth functions. An MFA model of data thus offers a compact representation and supports high-order evaluation of values and derivatives anywhere in the domain. In this paper, we present CPE-MFA, the first critical point extraction framework designed for MFA models of large-scale, high-dimensional data. CPE-MFA extracts critical points directly from an MFA model without the need for discretization or resampling. This is the first step toward enabling continuous implicit models such as MFA to support topological data analysis at scale.
ISSN:2331-8422