VoltLabs Research
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CoreToolkit
CoreToolkit PublicCore C++ library providing math primitives (Vector3, Matrix3, Quaternion), spatial data structures (KD-trees, octrees), simulation cell handling, and parallel algorithms for molecular dynamics anal…
C++
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atomic-strain
atomic-strain PublicComputes per-atom strain tensors from atomic configurations. Calculates Green-Lagrangian strain, von Mises strain, and principal strains for deformation analysis in molecular dynamics simulations.
C++
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centrosymmetry-parameter
centrosymmetry-parameter PublicCalculates the centrosymmetry parameter (CSP) for each atom to detect point defects, surfaces, and dislocation cores. Useful for visualizing crystal defects in FCC and BCC metals.
C++ 1
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cluster-analysis
cluster-analysis PublicGroups particles into clusters based on distance cutoff or bond topology. Identifies connected components, computes cluster sizes, centers of mass, and gyration tensors .
C++
Repositories
- VOLT Public
The next-generation platform designed for high-performance research teams and enthusiastic materials scientists!
VoltLabs-Research/VOLT’s past year of commit activity - opendxa Public
Modular DXA-implementation. Supports multiple lattice types and structure identification methods including PTM, CNA, and Diamond structure analysis. Identifies dislocation lines, computes Burgers vectors, constructs dislocation networks, and exports results for visualization.
VoltLabs-Research/opendxa’s past year of commit activity - polyhedral-template-matching Public
Identification of local crystalline structures using Polyhedral Template Matching
VoltLabs-Research/polyhedral-template-matching’s past year of commit activity - elastic-strain Public
Computes elastic strain tensors by mapping local atomic environments to reference crystal structures. Separates elastic from plastic deformation and calculates strain fields around dislocations.
VoltLabs-Research/elastic-strain’s past year of commit activity - coordination-analysis Public
Computes coordination numbers and nearest neighbor statistics for each atom. Analyzes local atomic environments and detects under/over-coordinated atoms indicating defects.
VoltLabs-Research/coordination-analysis’s past year of commit activity - cluster-analysis Public
Groups particles into clusters based on distance cutoff or bond topology. Identifies connected components, computes cluster sizes, centers of mass, and gyration tensors .
VoltLabs-Research/cluster-analysis’s past year of commit activity - centrosymmetry-parameter Public
Calculates the centrosymmetry parameter (CSP) for each atom to detect point defects, surfaces, and dislocation cores. Useful for visualizing crystal defects in FCC and BCC metals.
VoltLabs-Research/centrosymmetry-parameter’s past year of commit activity - atomic-strain Public
Computes per-atom strain tensors from atomic configurations. Calculates Green-Lagrangian strain, von Mises strain, and principal strains for deformation analysis in molecular dynamics simulations.
VoltLabs-Research/atomic-strain’s past year of commit activity - structure-identification Public
Algorithms for crystal structure identification in atomistic simulations. Classifies atoms by local structural environment to detect BCC, FCC, HCP, diamond cubic, and other crystal structures. Distinguishes crystalline atoms from defects, surfaces, and disordered regions
VoltLabs-Research/structure-identification’s past year of commit activity
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