We study amortised resource analysis in the context of term rewrite systems. We introduce a novel amortised analysis based on the potential method. The method is represented in an inference system akin to a type system and gives rise to polynomial bounds on the innermost runtime complexity of the analysed rewrite system. The crucial feature of the inference system is the admittance of multivariate bounds in the context of arbitrary data structures in a completely uniform way. This extends our earlier univariate resource analysis of typed term rewrite systems and continues our program of applying automated amortised resource analysis to rewriting
We describe a new automatic static analysis for determining upper-bound functions on the use of quan...
Type-based amortised resource analysis following Hofmann and Jost—where resources are associated wit...
We present a novel general resource analysis for logic programs based on sized types. Sized types a...
Based on earlier work on amortised resource analysis, we establish two novel automated amortised res...
Based on earlier work on amortised resource analysis, we establish a novel automated amortised resou...
We study the problem of automatically analyzing the worst-case resource usage of procedures with sev...
Being a fully automated technique for resource analysis, automatic amortized resource analysis (AARA...
A primary feature of a computer program is its quantitative performance characteristics: the amount ...
This article introduces a technique to accurately perform static prediction of resource usage for ML...
Abstract. Proving bounds on the resource consumption of a program by statically analyzing its source...
We consider the problem of automatically proving resource bounds. That is, we study how to prove tha...
Resource analysis aims at statically obtaining bounds on the resource consumption of programs in ter...
Arbeit an der Bibliothek noch nicht eingelangt - Daten nicht geprüftAbweichender Titel nach Übersetz...
Steffen Jost researched a novel static program analysis that automatically infers formally guarantee...
As software systems rise in size and complexity, the need for verifying some of their properties i...
We describe a new automatic static analysis for determining upper-bound functions on the use of quan...
Type-based amortised resource analysis following Hofmann and Jost—where resources are associated wit...
We present a novel general resource analysis for logic programs based on sized types. Sized types a...
Based on earlier work on amortised resource analysis, we establish two novel automated amortised res...
Based on earlier work on amortised resource analysis, we establish a novel automated amortised resou...
We study the problem of automatically analyzing the worst-case resource usage of procedures with sev...
Being a fully automated technique for resource analysis, automatic amortized resource analysis (AARA...
A primary feature of a computer program is its quantitative performance characteristics: the amount ...
This article introduces a technique to accurately perform static prediction of resource usage for ML...
Abstract. Proving bounds on the resource consumption of a program by statically analyzing its source...
We consider the problem of automatically proving resource bounds. That is, we study how to prove tha...
Resource analysis aims at statically obtaining bounds on the resource consumption of programs in ter...
Arbeit an der Bibliothek noch nicht eingelangt - Daten nicht geprüftAbweichender Titel nach Übersetz...
Steffen Jost researched a novel static program analysis that automatically infers formally guarantee...
As software systems rise in size and complexity, the need for verifying some of their properties i...
We describe a new automatic static analysis for determining upper-bound functions on the use of quan...
Type-based amortised resource analysis following Hofmann and Jost—where resources are associated wit...
We present a novel general resource analysis for logic programs based on sized types. Sized types a...