\u3cp\u3eSystem scenario methodologies propose the use of different scenarios, e.g., different platform configurations, in order to exploit variations in computational and memory needs during the lifetime of an application. In this paper several extensions are proposed for a system scenario based methodology with a focus on improving memory organisation. The conventional methodology targets mostly execution time while this work aims at including memory costs into the exploration. The effectiveness of the proposed extensions is demonstrated and tested using two real applications, which are dynamic and suitable for execution on modern embedded systems. Reductions in memory energy consumption of 40 to 70% is shown.\u3c/p\u3
Today’s availability of new memory technologies requires radical re-thinking of memory management in...
Main memory in clusters may dominate total system power. The resulting energy consumption increases ...
Energy efficiency has become one of the most important factors in the development of computer system...
Modern embedded systems are capable of performing a wide range of tasks and their popularity is incr...
During the past decade, the processing requirements of embedded real-time systems have become more a...
Modern embedded systems are capable of performing a wide range of tasks and their popularity is incr...
This book introduces a generic and systematic design-time/run-time methodology for handling the dyna...
In the past decade, real-time embedded systems have become much more complex due to the introduction...
In recent years, computing systems have become more efficient in delivering more performance. We hav...
Resources of embedded systems, such as memory size and CPU power, are expensive and (usually) not ex...
Energy-Aware Memory Management for Embedded Multimedia Systems: A Computer-Aided Design Approach pre...
International audienceICTs (Information and Communication Technologies) are responsible around 2% of...
Energy efficiency has become one of the most important factors in the development of computer system...
In recent years, computing systems have become more efficient in delivering more performance. We hav...
Main memory power in volume and mid-range servers is growing as a fraction of total system power. Th...
Today’s availability of new memory technologies requires radical re-thinking of memory management in...
Main memory in clusters may dominate total system power. The resulting energy consumption increases ...
Energy efficiency has become one of the most important factors in the development of computer system...
Modern embedded systems are capable of performing a wide range of tasks and their popularity is incr...
During the past decade, the processing requirements of embedded real-time systems have become more a...
Modern embedded systems are capable of performing a wide range of tasks and their popularity is incr...
This book introduces a generic and systematic design-time/run-time methodology for handling the dyna...
In the past decade, real-time embedded systems have become much more complex due to the introduction...
In recent years, computing systems have become more efficient in delivering more performance. We hav...
Resources of embedded systems, such as memory size and CPU power, are expensive and (usually) not ex...
Energy-Aware Memory Management for Embedded Multimedia Systems: A Computer-Aided Design Approach pre...
International audienceICTs (Information and Communication Technologies) are responsible around 2% of...
Energy efficiency has become one of the most important factors in the development of computer system...
In recent years, computing systems have become more efficient in delivering more performance. We hav...
Main memory power in volume and mid-range servers is growing as a fraction of total system power. Th...
Today’s availability of new memory technologies requires radical re-thinking of memory management in...
Main memory in clusters may dominate total system power. The resulting energy consumption increases ...
Energy efficiency has become one of the most important factors in the development of computer system...