Oz is a concurrent constraint language providing for first-class procedures, concurrent objects, and encapsulated search. DFKI Oz is an interactive implementation of Oz competitive in performance with commercial Prolog and Lisp systems. This paper describes AMOZ, the abstract machine underlying DFKI Oz. AMOZ implements rational tree constraints, first-class procedures, local computation spaces for deep guards, and preemptive and fair threads. (orig.)SIGLEAvailable from TIB Hannover: RR 1812(95-08) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekBundesministerium fuer Bildung, Wissenschaft, Forschung und Technologie, Bonn (Germany)DEGerman
Much progress has been made in distributed computing in the areas of distribution structure, open co...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
We present an experimental C interface to Oz, which enables programmers to add metaterms to the DFKI...
A parallel abstract machine for Oz (PAMOz) is presented in this paper. Oz is a thread-based concurre...
Oz is an experimental higher-order concurrent constraint programming system under development at DFK...
Oz is a concurrent language providing for functional, object-oriented, and constraint programming. T...
The Oz Programming Model (OPM) is a concurrent programming model subsuming higher-order functional a...
Oz is a programming language designed to support multiple programming paradigms in a clean factored ...
The programming language Oz integrates the paradigms of imperative, functional and concurrent constr...
Oz is a concurrent language providing for functional, object-oriented, and constraint programming. T...
Oz is an attempt to create a high-level concurrent programming language providing the problem solvin...
This paper describes the finite domain system embedded in Oz, a higher-order concurrent constraint l...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
The foundation of Prolog's success is the high abstraction level of its declarative subset, nam...
Much progress has been made in distributed computing in the areas of distribution structure, open co...
Much progress has been made in distributed computing in the areas of distribution structure, open co...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
We present an experimental C interface to Oz, which enables programmers to add metaterms to the DFKI...
A parallel abstract machine for Oz (PAMOz) is presented in this paper. Oz is a thread-based concurre...
Oz is an experimental higher-order concurrent constraint programming system under development at DFK...
Oz is a concurrent language providing for functional, object-oriented, and constraint programming. T...
The Oz Programming Model (OPM) is a concurrent programming model subsuming higher-order functional a...
Oz is a programming language designed to support multiple programming paradigms in a clean factored ...
The programming language Oz integrates the paradigms of imperative, functional and concurrent constr...
Oz is a concurrent language providing for functional, object-oriented, and constraint programming. T...
Oz is an attempt to create a high-level concurrent programming language providing the problem solvin...
This paper describes the finite domain system embedded in Oz, a higher-order concurrent constraint l...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
The foundation of Prolog's success is the high abstraction level of its declarative subset, nam...
Much progress has been made in distributed computing in the areas of distribution structure, open co...
Much progress has been made in distributed computing in the areas of distribution structure, open co...
Oz is a multiparadigm language that supports logic programming as one of its major paradigms. A mult...
We present an experimental C interface to Oz, which enables programmers to add metaterms to the DFKI...