In this paper, we address the problem of the efficient exploration of the architectural design space for parameterized embedded systems. The exploration problem is multi-objective (e.g., energy and delay), so the main goal of this work is to find a good approximation of the Pareto-optimal configurations representing the best energy/delay trade-offs by varying the architectural parameters of the target system. In particular, the paper presents a Design Space Exploration (DSE) framework to simulate the target system and to dynamically profile the target applications. In the proposed DSE framework, a set of heuristic algorithms have been analyzed to reduce the overall exploration time by computing an approximated Pareto set of configurations w...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The exploration of the architectural design space in terms of energy and performance is of mainly im...
Modern embedded systems come with contradictory design constraints. On one hand, these systems often...
In this paper, we address the problem of the efficient exploration of the architectural design space...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Abstract. The evaluation of the best system-level architecture in terms of energy and performance is...
In this paper, we address the problem of the efficient exploration of the architectural design space...
In this paper, we address the problem of the efficient explo-ration of the architectural design spac...
Today, embedded systems often consist of many different processing, communication, and memory units....
In this paper, we propose a system-level design methodology for the efficient exploration of the arc...
The exploration of the architectural design space in terms of energy and performance is of mainly im...
Design Space Exploration (DSE) for embedded system design with its multi-objective nature and large ...
This paper introduces design space exploration as one of the major tasks in embedded system design. ...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The exploration of the architectural design space in terms of energy and performance is of mainly im...
Modern embedded systems come with contradictory design constraints. On one hand, these systems often...
In this paper, we address the problem of the efficient exploration of the architectural design space...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Abstract. The evaluation of the best system-level architecture in terms of energy and performance is...
In this paper, we address the problem of the efficient exploration of the architectural design space...
In this paper, we address the problem of the efficient explo-ration of the architectural design spac...
Today, embedded systems often consist of many different processing, communication, and memory units....
In this paper, we propose a system-level design methodology for the efficient exploration of the arc...
The exploration of the architectural design space in terms of energy and performance is of mainly im...
Design Space Exploration (DSE) for embedded system design with its multi-objective nature and large ...
This paper introduces design space exploration as one of the major tasks in embedded system design. ...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The exploration of the architectural design space in terms of energy and performance is of mainly im...
Modern embedded systems come with contradictory design constraints. On one hand, these systems often...