The performance of software components depends on several factors, including the execution platform on which the software components run. To simplify cross-platform performance prediction in relocation and sizing scenarios, a novel approach is introduced in this thesis which separates the application performance profile from the platform performance profile. The approach is evaluated using transparent instrumentation of Java applications and with automated benchmarks for Java Virtual Machines
Java workloads are becoming increasingly prominent on various platforms ranging from embedded system...
Many new Java runtime optimizations report relatively small, single-digit performance improvements. ...
Abstract. Performance prediction of component-based software systems is nee-ded for systematic evalu...
The performance of software components depends on several factors, including the execution platform ...
In this paper, we present a performance model for Java applications that allows us to determine the ...
A unifying approach to performance analysis in the Java environment In general, performance analysis...
This thesis develops an execution time model for predicting the performance of computation intensive...
Modern Java programs, such as middleware and application servers, include many complex software comp...
Abstract—Modern enterprise applications have to satisfy in-creasingly stringent Quality-of-Service r...
While assessing software performance quality in the cloud, we noticed some significant performance v...
Abstract. Java is widely deployed on a variety of processor architec-tures. Consequently, an underst...
One of the major problems in building large-scale enterprise applications is predicting the performa...
Modern mobile nomadic devices for example internet tablets and high end mobile phones support divers...
For industrial systems performance, it is desired to keep the IT infrastructure competitive through ...
The software execution environment can play a crucial role when analyzing the performance of a softw...
Java workloads are becoming increasingly prominent on various platforms ranging from embedded system...
Many new Java runtime optimizations report relatively small, single-digit performance improvements. ...
Abstract. Performance prediction of component-based software systems is nee-ded for systematic evalu...
The performance of software components depends on several factors, including the execution platform ...
In this paper, we present a performance model for Java applications that allows us to determine the ...
A unifying approach to performance analysis in the Java environment In general, performance analysis...
This thesis develops an execution time model for predicting the performance of computation intensive...
Modern Java programs, such as middleware and application servers, include many complex software comp...
Abstract—Modern enterprise applications have to satisfy in-creasingly stringent Quality-of-Service r...
While assessing software performance quality in the cloud, we noticed some significant performance v...
Abstract. Java is widely deployed on a variety of processor architec-tures. Consequently, an underst...
One of the major problems in building large-scale enterprise applications is predicting the performa...
Modern mobile nomadic devices for example internet tablets and high end mobile phones support divers...
For industrial systems performance, it is desired to keep the IT infrastructure competitive through ...
The software execution environment can play a crucial role when analyzing the performance of a softw...
Java workloads are becoming increasingly prominent on various platforms ranging from embedded system...
Many new Java runtime optimizations report relatively small, single-digit performance improvements. ...
Abstract. Performance prediction of component-based software systems is nee-ded for systematic evalu...