Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option. What is needed however is an environment that supports the designer in transforming an algorithmic specijication into a suitable parallel implementation. In this paper we present and demonstrate an important component of such an environment - an eficient design space exploration algorithm. The algorithm can be used to semi-automatically find the best parallelization of a given embedded application. It employs functional pipelining [13] and data set partitioning [I 61 simultaneously with source-to-source program transformations to obtain the most advantageous hierarchical parallelizations
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Heterogeneous multiprocessor platforms are becoming widespread in the embedded system domain, mainly...
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
System-level design space exploration (DSE), which is performed early in the design process, is of e...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Designing embedded system is a non-trivial task during which wrong choices can lead to extremely cos...
Due to the technological advances, mapping of embedded applications onto single-chip multi-processor...
Abstract: The traditional design space exploration methodology suits the single processor system-on-...
In this paper, we address the problem of the efficient exploration of the architectural design space...
This paper considers the problem of designing heterogeneous multiprocessor embedded systems. The foc...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Heterogeneous multiprocessor platforms are becoming widespread in the embedded system domain, mainly...
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
System-level design space exploration (DSE), which is performed early in the design process, is of e...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Designing embedded system is a non-trivial task during which wrong choices can lead to extremely cos...
Due to the technological advances, mapping of embedded applications onto single-chip multi-processor...
Abstract: The traditional design space exploration methodology suits the single processor system-on-...
In this paper, we address the problem of the efficient exploration of the architectural design space...
This paper considers the problem of designing heterogeneous multiprocessor embedded systems. The foc...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Heterogeneous multiprocessor platforms are becoming widespread in the embedded system domain, mainly...