AbstractA notion of complexity for algebraic implementations of abstract data types is introduced and studied. The main results concern the expressive power of algebraic specifications and implementations as well as upper and lower bounds on the complexity of implementations in terms of time on Turing Machines
In this article we discuss properties of the abstract symbol system - a computational device propose...
At its core, much of Computational Complexity is concerned with combinatorial objects and structures...
AbstractVarious sets of Turing machines naturally occuring in the theory of computational complexity...
AbstractA notion of complexity for algebraic implementations of abstract data types is introduced an...
The synthesis of imperative programs for hierarchical, algebraically specified abstract data types i...
An algebraic programming system is a language built from a fixed algebraic data abstraction and a se...
Each algorithm recognizing any generator of the class of context-free languages requires space Omega...
We demonstrate that a uniformity of approach to both the definition and implementation of programmin...
At its core, much of Computational Complexity is concerned with combinatorial objects and structures...
Abstract. A simple algebraic model is proposed for measuring the relative complexity of programming ...
We propose to measure the efficiency of any implementation of the lambda-calculus as a function of a...
A definition is proposed for a size measure to be used as a parameter for algorithm analysis in any ...
I will discuss the basic notions related to the complexity theory. The classes of P and NP problems ...
Computational Complexity is concerned with the resources that are required for algorithms to detect ...
The outcomes of this article are twofold. Implicit complexity. We provide an implicit characterizati...
In this article we discuss properties of the abstract symbol system - a computational device propose...
At its core, much of Computational Complexity is concerned with combinatorial objects and structures...
AbstractVarious sets of Turing machines naturally occuring in the theory of computational complexity...
AbstractA notion of complexity for algebraic implementations of abstract data types is introduced an...
The synthesis of imperative programs for hierarchical, algebraically specified abstract data types i...
An algebraic programming system is a language built from a fixed algebraic data abstraction and a se...
Each algorithm recognizing any generator of the class of context-free languages requires space Omega...
We demonstrate that a uniformity of approach to both the definition and implementation of programmin...
At its core, much of Computational Complexity is concerned with combinatorial objects and structures...
Abstract. A simple algebraic model is proposed for measuring the relative complexity of programming ...
We propose to measure the efficiency of any implementation of the lambda-calculus as a function of a...
A definition is proposed for a size measure to be used as a parameter for algorithm analysis in any ...
I will discuss the basic notions related to the complexity theory. The classes of P and NP problems ...
Computational Complexity is concerned with the resources that are required for algorithms to detect ...
The outcomes of this article are twofold. Implicit complexity. We provide an implicit characterizati...
In this article we discuss properties of the abstract symbol system - a computational device propose...
At its core, much of Computational Complexity is concerned with combinatorial objects and structures...
AbstractVarious sets of Turing machines naturally occuring in the theory of computational complexity...