inGRASS: Incremental Graph Spectral Sparsification via Low-Resistance-Diameter Decomposition

February 26, 2024 Β· Declared Dead Β· πŸ› Design Automation Conference

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Authors Ali Aghdaei, Zhuo Feng arXiv ID 2402.16990 Category cs.DS: Data Structures & Algorithms Cross-listed cs.LG, cs.SI Citations 2 Venue Design Automation Conference Last Checked 4 months ago
Abstract
This work presents inGRASS, a novel algorithm designed for incremental spectral sparsification of large undirected graphs. The proposed inGRASS algorithm is highly scalable and parallel-friendly, having a nearly-linear time complexity for the setup phase and the ability to update the spectral sparsifier in $O(\log N)$ time for each incremental change made to the original graph with $N$ nodes. A key component in the setup phase of inGRASS is a multilevel resistance embedding framework introduced for efficiently identifying spectrally-critical edges and effectively detecting redundant ones, which is achieved by decomposing the initial sparsifier into many node clusters with bounded effective-resistance diameters leveraging a low-resistance-diameter decomposition (LRD) scheme. The update phase of inGRASS exploits low-dimensional node embedding vectors for efficiently estimating the importance and uniqueness of each newly added edge. As demonstrated through extensive experiments, inGRASS achieves up to over $200 \times$ speedups while retaining comparable solution quality in incremental spectral sparsification of graphs obtained from various datasets, such as circuit simulations, finite element analysis, and social networks.
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