We present a novel general resource analysis for logic programs based on sized types. Sized types are representations that incorporate structural (shape) information and allow expressing both lower and upper bounds on the size of a set of terms and their subterms at any position and depth. They also allow relating the sizes of terms and subterms occurring at different argument positions in logic predicates. Using these sized types, the resource analysis can infer both lower and upper bounds on the resources used by all the procedures in a program as functions on input term (and subterm) sizes, overcoming limitations of existing resource analyses and enhancing their precision. Our new resource analysis has been developed within the a...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
A primary feature of a computer program is its quantitative performance characteristics: the amount ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We present a novel general resource analysis for logic programs based on sized types. Sized types a...
We present a novel general resource analysis for logic programs based on sized types.Sized types are...
We present a novel analysis for relating the sizes of terms and subterms occurring at diferent argum...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
We present a method for the static resource usage analysis of MiniZinc models. The analysis can inf...
We present a generic analysis that infers both upper and lower bounds on the usage that a program ma...
In order to automatically infer the resource consumption of programs, analyzers track how data sizes...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
We study the problem of automatically analyzing the worst-case resource usage of procedures with sev...
This article introduces a technique to accurately perform static prediction of resource usage for ML...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
A primary feature of a computer program is its quantitative performance characteristics: the amount ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We present a novel general resource analysis for logic programs based on sized types. Sized types a...
We present a novel general resource analysis for logic programs based on sized types.Sized types are...
We present a novel analysis for relating the sizes of terms and subterms occurring at diferent argum...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
We present a method for the static resource usage analysis of MiniZinc models. The analysis can inf...
We present a generic analysis that infers both upper and lower bounds on the usage that a program ma...
In order to automatically infer the resource consumption of programs, analyzers track how data sizes...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
We study the problem of automatically analyzing the worst-case resource usage of procedures with sev...
This article introduces a technique to accurately perform static prediction of resource usage for ML...
Knowing the size of the terms to which program variables are bound at run-time in logic programs is ...
A primary feature of a computer program is its quantitative performance characteristics: the amount ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...