Fast computation of von Neumann entropy for large-scale graphs via quadratic approximations

Fast computation of von Neumann entropy for large-scale graphs via quadratic approximations

The von Neumann graph entropy (VNGE) can be used as a measure of graph complexity, which can be the measure of information divergence and distance between graphs. However, computing VNGE is extensively demanding for a large-scale graph. We propose novel quadratic approximations for fast computing VN...

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Veröffentlicht in:Linear algebra and its applications 2020-01, Vol.585, p.127-146
Hauptverfasser: Choi, Hayoung, He, Jinglian, Hu, Hang, Shi, Yuanming
Format: Artikel
Sprache:eng
Schlagworte:
Approximation
Complexity
Computation
Computer simulation
Density matrix
Divergence
Entropy
Graph dissimilarity
Graphs
Linear algebra
Von Neumann entropy
Von Neumann graph entropy
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Zusammenfassung:The von Neumann graph entropy (VNGE) can be used as a measure of graph complexity, which can be the measure of information divergence and distance between graphs. However, computing VNGE is extensively demanding for a large-scale graph. We propose novel quadratic approximations for fast computing VNGE. Various inequalities for error between the quadratic approximations and the exact VNGE are found. Our methods reduce the cubic complexity of VNGE to linear complexity. Computational simulations on random graph models and various real network datasets demonstrate superior performance.
ISSN:0024-3795
1873-1856
DOI:10.1016/j.laa.2019.09.031