Paper Info
Title
Turing-equivalent automata using a fixed-size quantum memory
Abstract
In this paper, we introduce a new public quantum interactive proof system and the first quantum alternating Turing machine: qAM proof system and qATM, respectively. Both are obtained from their classical counterparts (Arthur-Merlin proof system and alternating Turing machine, respectively,) by augmenting them with a fixed-size quantum register. We focus on space-bounded computation, and obtain the following surprising results: Both of them with constant-space are Turing-equivalent. More specifically, we show that for any Turing-recognizable language, there exists a constant-space weak-qAM system, (the nonmembers do not need to be rejected with high probability), and we show that any Turing-recognizable language can be recognized by a constant-space qATM even with one-way input head. For strong proof systems, where the nonmembers must be rejected with high probability, we show that the known space-bounded classical private protocols can also be simulated by our public qAM system with the same space bound. Besides, we introduce a strong version of qATM: The qATM that must halt in every computation path. Then, we show that strong qATMs (similar to private ATMs) can simulate deterministic space with exponentially less space. This leads to shifting the deterministic space hierarchy exactly by one-level. The method behind the main results is a new public protocol cleverly using its fixed-size quantum register. Interestingly, the quantum part of this public protocol cannot be simulated by any space-bounded classical protocol in some cases.
Year
Venue
Field
2012
CoRR
Quantum Turing machine,Discrete mathematics,Quantum,Quantum register,Interactive proof system,Computer science,Automaton,Theoretical computer science,Turing,Alternating Turing machine,Computation
DocType
Volume
Citations 
Journal
abs/1205.5395
3
PageRank 
References 
Authors
0.40
20
1
Name
Order
Citations
PageRank
Abuzer Yakaryilmaz116825.31