English

On the Approximability of Digraph Ordering

Data Structures and Algorithms 2015-07-03 v1

Abstract

Given an n-vertex digraph D = (V, A) the Max-k-Ordering problem is to compute a labeling :V[k]\ell : V \to [k] maximizing the number of forward edges, i.e. edges (u,v) such that \ell(u) < \ell(v). For different values of k, this reduces to Maximum Acyclic Subgraph (k=n), and Max-Dicut (k=2). This work studies the approximability of Max-k-Ordering and its generalizations, motivated by their applications to job scheduling with soft precedence constraints. We give an LP rounding based 2-approximation algorithm for Max-k-Ordering for any k={2,..., n}, improving on the known 2k/(k-1)-approximation obtained via random assignment. The tightness of this rounding is shown by proving that for any k={2,..., n} and constant ε>0\varepsilon > 0, Max-k-Ordering has an LP integrality gap of 2 - ε\varepsilon for nΩ(1/loglogk)n^{\Omega\left(1/\log\log k\right)} rounds of the Sherali-Adams hierarchy. A further generalization of Max-k-Ordering is the restricted maximum acyclic subgraph problem or RMAS, where each vertex v has a finite set of allowable labels SvZ+S_v \subseteq \mathbb{Z}^+. We prove an LP rounding based 42/(2+1)2.3444\sqrt{2}/(\sqrt{2}+1) \approx 2.344 approximation for it, improving on the 222.8282\sqrt{2} \approx 2.828 approximation recently given by Grandoni et al. (Information Processing Letters, Vol. 115(2), Pages 182-185, 2015). In fact, our approximation algorithm also works for a general version where the objective counts the edges which go forward by at least a positive offset specific to each edge. The minimization formulation of digraph ordering is DAG edge deletion or DED(k), which requires deleting the minimum number of edges from an n-vertex directed acyclic graph (DAG) to remove all paths of length k. We show that both, the LP relaxation and a local ratio approach for DED(k) yield k-approximation for any k[n]k\in [n].

Keywords

Cite

@article{arxiv.1507.00662,
  title  = {On the Approximability of Digraph Ordering},
  author = {Sreyash Kenkre and Vinayaka Pandit and Manish Purohit and Rishi Saket},
  journal= {arXiv preprint arXiv:1507.00662},
  year   = {2015}
}

Comments

21 pages, Conference version to appear in ESA 2015

R2 v1 2026-06-22T10:04:43.714Z