The need for application specific design of multicore/manycore processing platforms is evident with computing systems finding use in diverse application domains. In order to tailor multicore/manycore processors for application specific requirements, a multitude of processor design parameters must be tuned accordingly which involves rigorous and extensive design space exploration over large search spaces. In this thesis, we propose an efficient methodology for design space exploration. We evaluate our methodology over two search spaces small and large, using a cycle-accurate simulator (ESESC) and a standard set of PARSEC and SPLASH-2 benchmarks. For the smaller design space, we compare results obtained from our design space exploration metho...
Abstract—Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using ...
Multi-processor system on-chip (MPSoC) architectures represent an emerging paradigm for developing c...
Given the increasing complexity of Chip Multi-Processors (CMPs), a wide range of architecture parame...
Given the increasing complexity of Chip Multi-Processors (CMPs), a wide range of architecture parame...
This chapter presents guidelines to choose an appropriate exploration algorithm, based on the proper...
Design Space Exploration (DSE) for embedded system design with its multi-objective nature and large ...
As multi-core processor architectures with tens or even hundreds of cores, not all of them necessari...
Application-specific multicore architectures are usually designed by using a configurable platform i...
International audienceHigh-performance many-core processors have complex computing architectures wit...
tures are currently designed by using a platform-based approach. In this approach, a wide range of p...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Abstract1- This paper presents an efficient design exploration environment for high-end core process...
Abstract—Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using ...
Multi-processor system on-chip (MPSoC) architectures represent an emerging paradigm for developing c...
Given the increasing complexity of Chip Multi-Processors (CMPs), a wide range of architecture parame...
Given the increasing complexity of Chip Multi-Processors (CMPs), a wide range of architecture parame...
This chapter presents guidelines to choose an appropriate exploration algorithm, based on the proper...
Design Space Exploration (DSE) for embedded system design with its multi-objective nature and large ...
As multi-core processor architectures with tens or even hundreds of cores, not all of them necessari...
Application-specific multicore architectures are usually designed by using a configurable platform i...
International audienceHigh-performance many-core processors have complex computing architectures wit...
tures are currently designed by using a platform-based approach. In this approach, a wide range of p...
The evaluation of the best system-level architecture in terms of energy and performance is of mainly...
Abstract1- This paper presents an efficient design exploration environment for high-end core process...
Abstract—Application-specific multiprocessor systems-on-chip (MPSoCs) are usually designed by using ...
Multi-processor system on-chip (MPSoC) architectures represent an emerging paradigm for developing c...
Given the increasing complexity of Chip Multi-Processors (CMPs), a wide range of architecture parame...