Constructing Long Paths in Graph Streams

August 22, 2025 Β· Declared Dead Β· πŸ› Embedded Systems and Applications

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Authors Christian Konrad, Chhaya Trehan arXiv ID 2508.16022 Category cs.DS: Data Structures & Algorithms Citations 0 Venue Embedded Systems and Applications Last Checked 4 months ago
Abstract
In the graph stream model of computation, an algorithm processes the edges of an input graph in one or more sequential passes while using a memory sublinear in the input size. This model poses significant challenges for constructing long paths. Many known algorithms tasked with extending an existing path as a subroutine require an entire pass to add a single additional edge. This raises a fundamental question: Are multiple passes inherently necessary to construct paths of non-trivial lengths, or can a single pass suffice? To address this question, we study the Longest Path problem in the one-pass streaming model. In this problem, given a desired approximation factor $Ξ±$, the objective is to compute a path of length at least $\lp(G) / Ξ±$, where $\lp(G)$ is the length of a longest path in the input graph. We give algorithms as well as space lower bounds for both undirected and directed graphs. Our results include: We show that for undirected graphs, in both the insertion-only and the insertion-deletion models, there are semi-streaming algorithms, that compute a path of length at least $d /3$ with high probability, where $d$ is the average degree of the graph. These algorithms can also yield an $Ξ±$-approximation to Longest Path using space $\tilde{O}(n^2 / Ξ±)$. Next, we show that such a result cannot be achieved for directed graphs, even in the insertion-only model. We show that computing a $(n^{1 - o(1)})$-approximation to Longest Path in directed graphs in the insertion-only model requires space $Ξ©(n^2)$. We further show two additional lower bounds. First, we show that semi-streaming space is insufficient for small constant factor approximations to Longest Path for undirected graphs in the insertion-only model. Last, in undirected graphs in the insertion-deletion model, we show that computing an $Ξ±$-approximation requires space $Ξ©(n^2 / Ξ±^3)$.
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