The design space exploration (DSE) phase is used to tune configurable system parameters and it generally consists of a multiobjective optimization (MOO) problem. It is usually done at pre-design phase and consists of the evaluation of large design spaces where each configuration requires long simulation. Several heuristic techniques have been proposed in the past and the recent trend is reducing the exploration time by using analytic prediction models to approximate the system metrics, effectively pruning sub-optimal configurations from the exploration scope. However, there is still a missing path towards the effective usage of the underlying computing resources used by the DSE process. In this work, we will show that an alternative and almost orthogonal approach - focused on exploiting the available parallelism in terms of computing resources - can be used to better schedule the simulations and to obtain a high speedup with respect to state of the art approaches, without compromising the accuracy of exploration results. Experimental results will be presented by dealing with the DSE problem of a shared memory multi-core system considering a variable number of available parallel resources to support the DSE phase.

DeSpErate: Speeding-up design space exploration by using predictive simulation scheduling

MARIANI, GIOVANNI SIRO;PALERMO, GIANLUCA;ZACCARIA, VITTORIO;SILVANO, CRISTINA
2014-01-01

Abstract

The design space exploration (DSE) phase is used to tune configurable system parameters and it generally consists of a multiobjective optimization (MOO) problem. It is usually done at pre-design phase and consists of the evaluation of large design spaces where each configuration requires long simulation. Several heuristic techniques have been proposed in the past and the recent trend is reducing the exploration time by using analytic prediction models to approximate the system metrics, effectively pruning sub-optimal configurations from the exploration scope. However, there is still a missing path towards the effective usage of the underlying computing resources used by the DSE process. In this work, we will show that an alternative and almost orthogonal approach - focused on exploiting the available parallelism in terms of computing resources - can be used to better schedule the simulations and to obtain a high speedup with respect to state of the art approaches, without compromising the accuracy of exploration results. Experimental results will be presented by dealing with the DSE problem of a shared memory multi-core system considering a variable number of available parallel resources to support the DSE phase.
2014
Proceedings of DATE 2014 - International Conference on Design, Automation and Test in Europe
9783981537024
9783981537024
Design space exploration, simulation, multi-objective optimization, parallel architectures
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/961338
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