Large-scale scientific computing applications frequently make use of closely-coupled distributed parallel components. The performance of such applications is therefore dependent on the component parts and their interaction at run-time. This paper describes a methodology for predictive performance modelling and evaluation of parallel applications composed of multiple interacting components. In this paper, the fundamental steps and required operations involved in the modelling and evaluation process are identified - including component decomposition, component model combination, M x N communication modelling, dataflow analysis and overall performance evaluation. A case study is presented to illustrate the modelling process and the methodology...
The increase in the use of parallel distributed architec-tures in order to solve large-scale scienti...
High-performance computing is essential for solving large problems and for reducing the time to solu...
Performance prediction methods for component-based software systems aim at supporting design decisio...
Performance is one of the key features of parallel and distributed computing systems. Therefore, in ...
Abstract: Performance is one of the key features of parallel and distributed computing systems. Ther...
Over the years, several models were proposed to analyze the performance of distributed component bas...
We present a novel approach for hybrid performance modeling and prediction of large-scale parallel a...
Performance is a key feature of large-scale computing systems. However, the achieved performance whe...
Abstract—Performance is a key feature of large-scale com-puting systems. However, the achieved perfo...
In this paper, we investigate the traffic characteristics of parallel and high performance computi...
AbstractPerformance prediction methods for component-based software systems aim at supporting design...
An approach to the characterisation of parallel systems using a structured layered methodology is de...
In this paper we studied performance predictions for parallel scientific applications on a homogeneo...
This work targets the emerging use of software component technology for high-performance scientific ...
Prediction of the performance of parallel applications is a concept useful in several domains of sof...
The increase in the use of parallel distributed architec-tures in order to solve large-scale scienti...
High-performance computing is essential for solving large problems and for reducing the time to solu...
Performance prediction methods for component-based software systems aim at supporting design decisio...
Performance is one of the key features of parallel and distributed computing systems. Therefore, in ...
Abstract: Performance is one of the key features of parallel and distributed computing systems. Ther...
Over the years, several models were proposed to analyze the performance of distributed component bas...
We present a novel approach for hybrid performance modeling and prediction of large-scale parallel a...
Performance is a key feature of large-scale computing systems. However, the achieved performance whe...
Abstract—Performance is a key feature of large-scale com-puting systems. However, the achieved perfo...
In this paper, we investigate the traffic characteristics of parallel and high performance computi...
AbstractPerformance prediction methods for component-based software systems aim at supporting design...
An approach to the characterisation of parallel systems using a structured layered methodology is de...
In this paper we studied performance predictions for parallel scientific applications on a homogeneo...
This work targets the emerging use of software component technology for high-performance scientific ...
Prediction of the performance of parallel applications is a concept useful in several domains of sof...
The increase in the use of parallel distributed architec-tures in order to solve large-scale scienti...
High-performance computing is essential for solving large problems and for reducing the time to solu...
Performance prediction methods for component-based software systems aim at supporting design decisio...