Your search keyword '"Ivan Mihajlin"' showing total 3 results

1. Computation of Hadwiger Number and Related Contraction Problems: Tight Lower Bounds

Author

Saket Saurabh, Fedor V. Fomin, Meirav Zehavi, Daniel Lokshtanov, and Ivan Mihajlin

Subjects

FOS: Computer and information sciences, Computation, Minor (linear algebra), Hadwiger number, 0102 computer and information sciences, 02 engineering and technology, Clique (graph theory), 01 natural sciences, Theoretical Computer Science, Combinatorics, Computer Science - Data Structures and Algorithms, 0202 electrical engineering, electronic engineering, information engineering, Maximum size, Data Structures and Algorithms (cs.DS), Hadwiger Number, Mathematics, Exponential-Time Hypothesis, Exponential time hypothesis, Theory of computation → Design and analysis of algorithms, 020206 networking & telecommunications, Exact Algorithms, Exponential function, Computational Theory and Mathematics, 010201 computation theory & mathematics, Edge Contraction Problems, Computational problem, MathematicsofComputing_DISCRETEMATHEMATICS

Abstract

We prove that the Hadwiger number of an $n$-vertex graph $G$ (the maximum size of a clique minor in $G$) cannot be computed in time $n^{o(n)}$, unless the Exponential Time Hypothesis (ETH) fails. This resolves a well-known open question in the area of exact exponential algorithms. The technique developed for resolving the Hadwiger number problem has a wider applicability. We use it to rule out the existence of $n^{o(n)}$-time algorithms (up to ETH) for a large class of computational problems concerning edge contractions in graphs., Comment: Accepted to ICALP 2020

Published

2020

2. Nondeterministic Extensions of the Strong Exponential Time Hypothesis and Consequences for Non-reducibility

Author

Ivan Mihajlin, Marco L. Carmosino, Russell Impagliazzo, Stefan Schneider, Jiawei Gao, and Ramamohan Paturi

Subjects

Model checking, Discrete mathematics, Exponential time hypothesis, Computational complexity theory, Probabilistic logic, 0102 computer and information sciences, 02 engineering and technology, Extension (predicate logic), 01 natural sciences, Combinatorics, Nondeterministic algorithm, 010201 computation theory & mathematics, Shortest path problem, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Graph property, Mathematics

Abstract

We introduce the Nondeterministic Strong Exponential Time Hypothesis (NSETH) as a natural extension of the Strong Exponential Time Hypothesis (SETH). We show that both refuting and proving NSETH would have interesting consequences.In particular we show that disproving NSETH would give new nontrivial circuit lower bounds. On the other hand, NSETH implies non-reducibility results, i.e. the absence of (deterministic) fine-grained reductions from SAT to a number of problems. As a consequence we conclude that unless this hypothesis fails, problems such as 3-SUM, APSP and model checking of a large class of first-order graph properties cannot be shown to be SETH-hard using deterministic or zero-error probabilistic reductions.

Published

2016

3. Tight Lower Bounds on Graph Embedding Problems

Author

Jakub Pachocki, Alexander Golovnev, Marek Cygan, Ivan Mihajlin, Fedor V. Fomin, Arkadiusz Socała, and Alexander S. Kulikov

Subjects

Factor-critical graph, FOS: Computer and information sciences, 0102 computer and information sciences, 02 engineering and technology, 01 natural sciences, law.invention, Combinatorics, Artificial Intelligence, law, Line graph, Computer Science - Data Structures and Algorithms, 0202 electrical engineering, electronic engineering, information engineering, Graph minor, Graph homomorphism, Data Structures and Algorithms (cs.DS), Complement graph, Mathematics, Distance-hereditary graph, Discrete mathematics, Voltage graph, 010201 computation theory & mathematics, Hardware and Architecture, Control and Systems Engineering, 020201 artificial intelligence & image processing, Graph factorization, Software, Information Systems

Abstract

We prove that unless the Exponential Time Hypothesis (ETH) fails, deciding if there is a homomorphism from graph $G$ to graph $H$ cannot be done in time $|V(H)|^{o(|V(G)|)}$. We also show an exponential-time reduction from Graph Homomorphism to Subgraph Isomorphism. This rules out (subject to ETH) a possibility of $|V(H)|^{o(|V(H)|)}$-time algorithm deciding if graph $G$ is a subgraph of $H$. For both problems our lower bounds asymptotically match the running time of brute-force algorithms trying all possible mappings of one graph into another. Thus, our work closes the gap in the known complexity of these fundamental problems. Moreover, as a consequence of our reductions conditional lower bounds follow for other related problems such as Locally Injective Homomorphism, Graph Minors, Topological Graph Minors, Minimum Distortion Embedding and Quadratic Assignment Problem., Comment: 23 pages. arXiv admin note: substantial text overlap with arXiv:1502.05447, arXiv:1507.03738

Published

2016