Balancing Bounded Treewidth Circuits

Abstract

Algorithmic tools for graphs of small treewidth are used to address questions in complexity theory. For both arithmetic and Boolean circuits, it is shown that any circuit of size nO(1) and treewidth O(i n) can be simulated by a circuit of width O(i+1 n) and size nc, where c = O(1), if i=0, and c=O( n) otherwise. For our main construction, we prove that multiplicatively disjoint arithmetic circuits of size nO(1) and treewidth k can be simulated by bounded fan-in arithmetic formulas of depth O(k2 n). From this we derive the analogous statement for syntactically multilinear arithmetic circuits, which strengthens a theorem of Mahajan and Rao. As another application, we derive that constant width arithmetic circuits of size nO(1) can be balanced to depth O( n), provided certain restrictions are made on the use of iterated multiplication. Also from our main construction, we derive that Boolean bounded fan-in circuits of size nO(1) and treewidth k can be simulated by bounded fan-in formulas of depth O(k2 n). This strengthens in the non-uniform setting the known inclusion that SC0 ⊂eq NC1. Finally, we apply our construction to show that reachability for directed graphs of bounded treewidth is in LogDCFL.