On the hierarchies for deterministic, nondeterministic and probabilistic ordered read-k-times branching programs

Khadiev, Kamil

doi:10.1134/s1995080216060159

Cited by 12 publications

(29 citation statements)

References 17 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Note that due to the definition, k-OBDD is polynomial width iff it is polynomial size. Similar hierarchies are known for classical cases [11,6,17,19]. But for k-QOBDD it is a new result.The paper has the following structure.…”

supporting

confidence: 61%

Lower Bounds and Hierarchies for Quantum Memoryless Communication Protocols and Quantum Ordered Binary Decision Diagrams with Repeated Test

Ablayev

Ambainis

Khadiev

et al. 2017

SOFSEM 2018: Theory and Practice of Computer Science

View full text Add to dashboard Cite

Abstract. We explore multi-round quantum memoryless communication protocols. These are restricted version of multi-round quantum communication protocols. The "memoryless" term means that players forget history from previous rounds, and their behavior is obtained only by input and message from the opposite player. The model is interesting because this allows us to get lower bounds for models like automata, Ordered Binary Decision Diagrams and streaming algorithms. At the same time, we can prove stronger results with this restriction. We present a lower bound for quantum memoryless protocols. Additionally, we show a lower bound for Disjointness function for this model. As an application of communication complexity results, we consider Quantum Ordered Readk-times Branching Programs (k-QOBDD). Our communication complexity result allows us to get lower bound for k-QOBDD and to prove hierarchies for sublinear width bounded error k-QOBDDs, where k = o( √ n). Furthermore, we prove a hierarchy for polynomial size bounded error kQOBDDs for constant k. This result differs from the situation with an unbounded error where it is known that an increase of k does not give any advantage.

show abstract

supporting

confidence: 61%

Lower Bounds and Hierarchies for Quantum Memoryless Communication Protocols and Quantum Ordered Binary Decision Diagrams with Repeated Test

Ablayev

Ambainis

Khadiev

et al. 2017

SOFSEM 2018: Theory and Practice of Computer Science

View full text Add to dashboard Cite

show abstract

“…We proved similar almost tight hierarchy for polynomial size bounded error probabilistic k-OBDD with error at most 1/3 for k = o(n 1/3 / log n). And almost tight hierarchies for superpolynomial and subexponential size, these results improve results from [Kha16]. Note that, for example for nondeterministic k-OBDD we cannot get result better than [Kha16], because for constant k 1-OBDD of polynomial size and k-OBDD compute the same Boolean functions [BHW06].…”

Section: Introductionmentioning

confidence: 73%

“…Additionally, we prove almost tight hierarchy for k − OBDD of superpolynomial and subexponential size. These hierarchies improve known not tight hierarchy from [Kha16]. Our hierarchy is almost tight (with small gap), but for little bit smaller k. The proof of hierarchis is based on complexity properties of Boolean function Reordered Pointer Jumping, it is modification of Pointer Jumping function from [NW91], [BSSW98], is based on ideas of reordering method.…”

Section: Introductionmentioning

confidence: 91%

“…They proved that P-(k−1)OBDD P-kOBDD for k = o( √ n log 3/2 n). It is known extension of this hierarchy for k = o(n/ log 2 n) in papers [Kha16], [AK13]. But this hierarchy is not tight with the gap between classes in heararchy at least not constant.…”

Section: Introductionmentioning

confidence: 99%

“…Our hierarchy is almost tight (with small gap), but for little bit smaller k. The proof of hierarchis is based on complexity properties of Boolean function Reordered Pointer Jumping, it is modification of Pointer Jumping function from [NW91], [BSSW98], is based on ideas of reordering method. For probabilistic case it is not known tight hierarchy for polynomial size only for sublinear width [Kha16]. Additionally, for more general model Probabilistic k-BP Hromkovich and Sauerhoff in 2003 [HS03] proved the tight hierarchy for k ≤ log n/3.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Reordering Method and Hierarchies for Quantum and Classical Ordered Binary Decision Diagrams

Khadiev

Khadieva

2017

Computer Science – Theory and Applications

View full text Add to dashboard Cite

Abstract. We consider Quantum OBDD model. It is restricted version of read-once Quantum Branching Programs, with respect to "width" complexity. It is known that maximal complexity gap between deterministic and quantum model is exponential. But there are few examples of such functions. We present method (called "reordering"), which allows to build Boolean function g from Boolean Function f , such that if for f we have gap between quantum and deterministic OBDD complexity for natural order of variables, then we have almost the same gap for function g, but for any order. Using it we construct the total function REQ which deterministic OBDD complexity is 2 Ω(n/ log n) and present quantum OBDD of width O(n 2 ). It is bigger gap for explicit function that was known before for OBDD of width more than linear. Using this result we prove the width hierarchy for complexity classes of Boolean functions for quantum OBDDs. Additionally, we prove the width hierarchy for complexity classes of Boolean functions for bounded error probabilistic OBDDs. And using "reordering" method we extend a hierarchy for k-OBDD of polynomial size, for k = o(n/ log 3 n). Moreover, we proved a similar hierarchy for bounded error probabilistic k-OBDD. And for deterministic and probabilistic k-OBDDs of superpolynomial and subexponential size.

show abstract

Error-Free Affine, Unitary, and Probabilistic OBDDs

Ibrahimov

Khadiev

Prūsis

et al. 2018

Descriptional Complexity of Formal Systems

View full text Add to dashboard Cite

On the hierarchies for deterministic, nondeterministic and probabilistic ordered read-k-times branching programs

Cited by 12 publications

References 17 publications

Lower Bounds and Hierarchies for Quantum Memoryless Communication Protocols and Quantum Ordered Binary Decision Diagrams with Repeated Test

Lower Bounds and Hierarchies for Quantum Memoryless Communication Protocols and Quantum Ordered Binary Decision Diagrams with Repeated Test

Reordering Method and Hierarchies for Quantum and Classical Ordered Binary Decision Diagrams

Error-Free Affine, Unitary, and Probabilistic OBDDs

Contact Info

Product

Resources

About