In the embedded system and System-on-Chip (SoC) design area, the increasing technological complexity coupled with requests for more performance and shorter time to market have caused a high interest for new methods, languages and tools capable of operating at higher levels of abstraction than the conventional system level. This chapter presents a model-driven and tool-assisted development process of SoCs, which is based on high-level UML design of system components, guarantees SystemC code generation from graphical models, and allows validation of system behaviors on formal models automatically derived from UML models. An environment for system design and analysis is also presented, which is based on a UML profile for SystemC and the Abstra...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
This paper presents a validation and verification tool component, based on the Abstract State Machin...
The chapter presents a method for scenario-based validation of embedded system designs provided in t...
SystemC (built upon C++)is an IEEE industry-standard language for system-level models, specifically ...
This paper presents a prototype environment for HW/SW co--design of embedded systems based on the Un...
This paper describes a scenario-based methodology for system-level design validation based on the Ab...
The increasing complexity of most real-time and embedded systems coupled with requests for more perf...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
In this paper we show how to improve the system level design flow for System-on-Chip currently used ...
In this paper, we present a SoC design methodology joining the capabilities of UML and SystemC to op...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
In the Embedded Systems and SoC (System-on-Chip) area, we defined a model-driven HW-SW co-design met...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
This paper presents a validation and verification tool component, based on the Abstract State Machin...
The chapter presents a method for scenario-based validation of embedded system designs provided in t...
SystemC (built upon C++)is an IEEE industry-standard language for system-level models, specifically ...
This paper presents a prototype environment for HW/SW co--design of embedded systems based on the Un...
This paper describes a scenario-based methodology for system-level design validation based on the Ab...
The increasing complexity of most real-time and embedded systems coupled with requests for more perf...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
This article summarizes our effort, since 2004 up to the present time, for improving the current ind...
In this paper we show how to improve the system level design flow for System-on-Chip currently used ...
In this paper, we present a SoC design methodology joining the capabilities of UML and SystemC to op...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
In the Embedded Systems and SoC (System-on-Chip) area, we defined a model-driven HW-SW co-design met...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...
his article summarizes our effort, since 2004 up to the present time, for improving the current indu...