AbstractThe complexity of the computation of recursive programs by the combinator reduction machine is studied. The number of the reduction steps in compared between the two models of computation. The main theorem states that the time required by the reduction machine is linear in that of the program scheme. The coefficient of the linearity was shown to be O(n2), where n is the maximal number of variables of the functions being used. For the analysis of the combinator codes, the notion of extended combinator code is introduced
In recent years a number of algorithms have been designed for the "inverse" computational ...
Algorithms for concrete problems are usually described and analyzed in some random access machine mo...
The complexity of combinatorial problems with succinct input representation. - In: Acta informatica....
AbstractThe complexity of the computation of recursive programs by the combinator reduction machine ...
The symbolic computations of recursive programmes were investigated with the aim of study of complex...
The main goal of this paper is to compare recursive algorithms such as Turing machines with such sup...
AbstractThe main goal of this paper is to compare recursive algorithms such as Turing machines with ...
We describe a computer program that has been used to maintain a record of the known complexity resul...
In this paper, the methods of recursive function theory are used to study the size (or cost or compl...
The complexity of linear programming is discussed in the "integer" and "real number" models of compu...
Recent studies of computational complexity have focused on “axioms” which characterize the “difficul...
157 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.This thesis highlighted combi...
In this thesis we examine some of the central problems in the theory of computational complexity, l...
Machines and Recursive Definitions 2.1 Abstract Machines The best-known model of mechanical comput...
We prove exponential lower bounds on the running time of Dynamic Programs (DP) of a certain class fo...
In recent years a number of algorithms have been designed for the "inverse" computational ...
Algorithms for concrete problems are usually described and analyzed in some random access machine mo...
The complexity of combinatorial problems with succinct input representation. - In: Acta informatica....
AbstractThe complexity of the computation of recursive programs by the combinator reduction machine ...
The symbolic computations of recursive programmes were investigated with the aim of study of complex...
The main goal of this paper is to compare recursive algorithms such as Turing machines with such sup...
AbstractThe main goal of this paper is to compare recursive algorithms such as Turing machines with ...
We describe a computer program that has been used to maintain a record of the known complexity resul...
In this paper, the methods of recursive function theory are used to study the size (or cost or compl...
The complexity of linear programming is discussed in the "integer" and "real number" models of compu...
Recent studies of computational complexity have focused on “axioms” which characterize the “difficul...
157 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.This thesis highlighted combi...
In this thesis we examine some of the central problems in the theory of computational complexity, l...
Machines and Recursive Definitions 2.1 Abstract Machines The best-known model of mechanical comput...
We prove exponential lower bounds on the running time of Dynamic Programs (DP) of a certain class fo...
In recent years a number of algorithms have been designed for the "inverse" computational ...
Algorithms for concrete problems are usually described and analyzed in some random access machine mo...
The complexity of combinatorial problems with succinct input representation. - In: Acta informatica....