Two new results about quantum exact learning

Authors

Srinivasan Arunachalam, IBM Thomas J. Watson Research Center
Sourav Chakraborty, Indian Statistical Institute, Kolkata
Troy Lee, University of Technology Sydney
Manaswi Paraashar, Indian Statistical Institute, Kolkata
Ronald de Wolf, Universiteit van Amsterdam

Article Type

Research Article

Publication Title

Quantum

Abstract

We present two new results about exact learning by quantum computers. First, we show how to exactly learn a k-Fourier-sparse n-bit Boolean function from O(k1.5(log k)2) uniform quantum examples for that function. This improves over the bound of Θ(e kn) uniformly random classical examples (Haviv and Regev, CCC'15). Additionally, we provide a possible direction to improve our Oe(k1.5) upper bound by proving an improvement of Chang's lemma for k-Fourier-sparse Boolean functions. Second, we show that if a concept class C can be exactly learned using Q quantum membership queries, then it can also be learned using O (logQ2Q log |C| ) classical membership queries. This improves the previous-best simulation result (Servedio and Gortler, SICOMP'04) by a log Q-factor.

DOI

10.22331/Q-2021-11-24-587

Publication Date

1-1-2021

Comments

Open Access, Gold, Green

Recommended Citation

Arunachalam, Srinivasan; Chakraborty, Sourav; Lee, Troy; Paraashar, Manaswi; and de Wolf, Ronald, "Two new results about quantum exact learning" (2021). Journal Articles. 2138.
https://digitalcommons.isical.ac.in/journal-articles/2138