Add to ORKGThis paper outlines a new technique for collecting dynamic trace information from Java GUI programs. The problems of collecting run-time information from such interactive applications in comparison with traditional batch style execution benchmark programs is outlined. The possible utility of such run-time information is discussed and from this a number of simple run-time metrics are suggested. The metrics results for a small CelsiusConverter Java GUI program are illustrated to demonstrate the viability of such an analysis
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
This work focuses on relative comparisons of individual method's performance. It is based on Stochas...
Java workloads are becoming more and more prominent on various computing devices. Understanding the ...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
Interactive applications with graphical user interfaces are prevalent in today’s environment: Everyb...
A significant body of prior work has devised approaches for automating the functional testing of int...
In order to perform meaningful experiments in optimizing compilation and runtime system design, res...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
In production environments, runtime performance monitoring is often limited to logging of high level...
Modern Java programs, such as middleware and application servers, include many complex software comp...
<p>In production environments, runtime performance monitoring is often limited to logging of high le...
Modern Java programs, such as middleware and application servers, include many complex software comp...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
This work focuses on relative comparisons of individual method's performance. It is based on Stochas...
Java workloads are becoming more and more prominent on various computing devices. Understanding the ...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
This paper outlines a new technique for collecting dynamic trace information from Java GUI programs...
Interactive applications with graphical user interfaces are prevalent in today’s environment: Everyb...
A significant body of prior work has devised approaches for automating the functional testing of int...
In order to perform meaningful experiments in optimizing compilation and runtime system design, res...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
In production environments, runtime performance monitoring is often limited to logging of high level...
Modern Java programs, such as middleware and application servers, include many complex software comp...
<p>In production environments, runtime performance monitoring is often limited to logging of high le...
Modern Java programs, such as middleware and application servers, include many complex software comp...
A run-time monitor shares computational resources, such as memory and CPU time, with the target prog...
This work focuses on relative comparisons of individual method's performance. It is based on Stochas...
Java workloads are becoming more and more prominent on various computing devices. Understanding the ...