Opening Up the Distinguisher: A Hardness to Randomness Approach for BPL=L That Uses Properties of BPL

Author(s)

Doron, Dean; Pyne, Edward; Tell, Roei

Abstract

We provide compelling evidence for the potential of hardness-vs.-randomness approaches to make progress on the long-standing problem of derandomizing space-bounded computation. Our first contribution is a derandomization of bounded-space machines from hardness assumptions for classes of uniform deterministic algorithms, for which strong (but non-matching) lower bounds can be unconditionally proved. We prove one such result for showing that BPL=L “on average”, and another similar result for showing that BPSPACE[O(n)]=DSPACE[O(n)]. Next, we significantly improve the main results of prior works on hardness-vs.-randomness for logspace. As one of our results, we relax the assumptions needed for derandomization with minimal memory footprint (i.e., showing BPSPACE[S]⊆ DSPACE[c · S] for a small constant c), by completely eliminating a cryptographic assumption that was needed in prior work. A key contribution underlying all of our results is non-black-box use of the descriptions of space-bounded Turing machines, when proving hardness-to-randomness results. That is, the crucial point allowing us to prove our results is that we use properties that are specific to space-bounded machines.

Date issued

2024-06-10

URI

https://hdl.handle.net/1721.1/155721

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Publisher

ACM|Proceedings of the 56th Annual ACM Symposium on Theory of Computing

Citation

Doron, Dean, Pyne, Edward and Tell, Roei. 2024. "Opening Up the Distinguisher: A Hardness to Randomness Approach for BPL=L That Uses Properties of BPL."

Version: Final published version

ISBN

979-8-4007-0383-6