This paper presents OSCAR, an optimization methodology exploiting spatial correlation of multicore design spaces. This paper builds upon the observation that power consumption and performance metrics of spatially close design configurations (or points) are statistically correlated. We propose to exploit the correlation by using a response surface model (RSM), i.e., a closed-form expression suitable for predicting the quality of nonsimulated design points. This model is useful during the design space exploration (DSE) phase to quickly converge to the Pareto set of the multiobjective problem without executing lengthy simulations. To this end, we introduce a multiobjective optimization heuristic which iteratively updates and queries the RSM to...
The need for application specific design of multicore/manycore processing platforms is evident with ...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
Application-specific multicore architectures are usually designed by using a configurable platform i...
This paper presents OSCAR, an optimization methodology exploiting spatial correlation of multicore d...
Given the increasing complexity of multi-processor systems-on-chip, a wide range of parameters must ...
Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using a platfor...
tures are currently designed by using a platform-based approach. In this approach, a wide range of p...
Abstract—Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using ...
Design of experiment and response surface modeling methods are applied to the problem of constructin...
Multi-processor system on-chip (MPSoC) architectures are currently designed by using a platform-base...
This electronic version was submitted by the student author. The certified thesis is available in th...
This chapter presents guidelines to choose an appropriate exploration algorithm, based on the proper...
The need for application specific design of multicore/manycore processing platforms is evident with ...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
Application-specific multicore architectures are usually designed by using a configurable platform i...
This paper presents OSCAR, an optimization methodology exploiting spatial correlation of multicore d...
Given the increasing complexity of multi-processor systems-on-chip, a wide range of parameters must ...
Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using a platfor...
tures are currently designed by using a platform-based approach. In this approach, a wide range of p...
Abstract—Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using ...
Design of experiment and response surface modeling methods are applied to the problem of constructin...
Multi-processor system on-chip (MPSoC) architectures are currently designed by using a platform-base...
This electronic version was submitted by the student author. The certified thesis is available in th...
This chapter presents guidelines to choose an appropriate exploration algorithm, based on the proper...
The need for application specific design of multicore/manycore processing platforms is evident with ...
This chapter is dedicated to the optimization algorithms developed in the MULTICUBE project and to t...
Application-specific multicore architectures are usually designed by using a configurable platform i...