The paper describes a formal approach for designing and reasoning about power-constrained, timed systems. The framework is based on process algebra, a formalism that has been developed to describe and analyze communicating concurrent systems. The proposed extension allows the modeling of probabilistic resource failures, priorities of resource usages, and power consumption by resources within the same formalism. Thus, it is possible to model alternative power-consumption behaviors and analyze tradeoffs in their timing and other characteristics. This paper describes the modeling and analysis techniques, and illustrates them with examples, including a dynamic voltage-scaling algorithm
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
This paper presents a general framework for analyzing and designing embedded systems with energy and...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
Abstract. The paper describes a formal approach for designing and rea-soning about power-constrained...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
Timing and power are two metrics that have become increasingly important to system level designers e...
This paper presents a general framework for analyzing and designing embedded systems with energy and...
Reducing energy consumption is one of the main concerns in the design and implementation of embedded...
Power scheduling is a new concept of system-level dynamic power management in battery powered mobile...
The design methods and languages targeted to modern System-on-Chip designs are facing tremendous pre...
AbstractPower aware computing has become popular recently because of the vast application of the por...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
This paper presents a general framework for analyzing and designing embedded systems with energy and...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
Abstract. The paper describes a formal approach for designing and rea-soning about power-constrained...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
The paper describes a unified formal framework for designing and reasoning about power-constrained, ...
Timing and power are two metrics that have become increasingly important to system level designers e...
This paper presents a general framework for analyzing and designing embedded systems with energy and...
Reducing energy consumption is one of the main concerns in the design and implementation of embedded...
Power scheduling is a new concept of system-level dynamic power management in battery powered mobile...
The design methods and languages targeted to modern System-on-Chip designs are facing tremendous pre...
AbstractPower aware computing has become popular recently because of the vast application of the por...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
This paper presents a general framework for analyzing and designing embedded systems with energy and...
The functionality of embedded systems is ever growing. The computational power of embedded systems i...