The design of complex real-time distributed hardware/software systems commonly involves evaluating the performance of several design alternatives. Early in the design process, it is therefore desirable that design methods support constructing abstract models for the purpose of analysis. Recent extensions to the Unified Modeling Language (UML) that enable specifying schedulability, performance and time provide a means to start developing such models directly after defining the concepts and requirements of a system. However, UML hampers the evaluation of performance properties because this requires constructing executable models with a modeling language that supports application of mathematical analysis techniques. In this paper, we present h...
As software development cycles become shorter, it is more important to evaluate non-functional prope...
A methodology and related software design environment for the development of performance-engineered ...
The automated functional and performance analysis of communication systems specified with some Forma...
The design of complex real-time distributed hardware/software systems commonly involves evaluating t...
The complexity of designing hardware/software systems motivates research on frameworks that structur...
Unified Modeling Language (UML) allows software engineers to use a standard way of expressing a desi...
Abstract1 —The performance analysis of distributed software systems is a challenging task in which t...
We address the issue of the development of performance models for programs that may be executed on l...
In this article, we present a performance engineering enhanced modelling methodology for designing e...
Quantitative performance analysis of software systems should be integrated in the early stages of th...
We address the issue of the development of performance models for programs that may be executed on l...
Quantitative analysis of software systems is being recognized as an important part of the software d...
Performance is an important but often overlooked aspect of systems design. As a consequence, deploye...
The increasing complexity of innovative real-time hardware/software systems forced industry to consi...
As software development cycles become shorter, it is more important to evaluate non-functional prope...
A methodology and related software design environment for the development of performance-engineered ...
The automated functional and performance analysis of communication systems specified with some Forma...
The design of complex real-time distributed hardware/software systems commonly involves evaluating t...
The complexity of designing hardware/software systems motivates research on frameworks that structur...
Unified Modeling Language (UML) allows software engineers to use a standard way of expressing a desi...
Abstract1 —The performance analysis of distributed software systems is a challenging task in which t...
We address the issue of the development of performance models for programs that may be executed on l...
In this article, we present a performance engineering enhanced modelling methodology for designing e...
Quantitative performance analysis of software systems should be integrated in the early stages of th...
We address the issue of the development of performance models for programs that may be executed on l...
Quantitative analysis of software systems is being recognized as an important part of the software d...
Performance is an important but often overlooked aspect of systems design. As a consequence, deploye...
The increasing complexity of innovative real-time hardware/software systems forced industry to consi...
As software development cycles become shorter, it is more important to evaluate non-functional prope...
A methodology and related software design environment for the development of performance-engineered ...
The automated functional and performance analysis of communication systems specified with some Forma...