In this paper we address the problem of identifying and exploiting techniques that optimize the performance of large scale scientific codes on many-core processors. We consider as a test-bed a state-of-the-art Lattice Boltzmann (LB) model, that accurately reproduces the thermo-hydrodynamics of a 2D-fluid obeying the equations of state of a perfect gas. The regular structure of Lattice Boltzmann algorithms makes it relatively easy to identify a large degree of available parallelism; the challenge is that of mapping this parallelism onto processors whose architecture is becoming more and more complex, both in terms of an increasing number of independent cores and – within each core – of vector instructions on longer and longer data words. We ...
With computer simulations real world phenomena can be analyzed in great detail. Computational fluid ...
We describe a parallel implementation of a compressible Lattice Boltzmann code on a multi-GPU cluste...
The lattice Boltzmann method has become a valuable tool in computational fluid dynamics, one of the ...
In this paper we report on our early experience on porting, optimizing and benchmarking a Lattice Bo...
AbstractIn this paper we report on our early experience on porting, optimizing and benchmarking a La...
We describe the implementation and optimization of a state-of-the-art Lattice Boltzmann code for com...
Abstract We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for ma...
We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for massively p...
Accelerators are an increasingly common option to boost performance of codes that require extensive ...
Accelerators are quickly emerging as the leading technology to further boost computing performances;...
AbstractWe develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for mas...
Abstract In this paper we report on our early experience on porting, optimizing and benchmarking a...
We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for massively p...
GPUs deliver higher performance than traditional processors, offering remarkable energy efficiency, ...
Algorithms with low computational intensity show interesting per-formance and power consumption beha...
With computer simulations real world phenomena can be analyzed in great detail. Computational fluid ...
We describe a parallel implementation of a compressible Lattice Boltzmann code on a multi-GPU cluste...
The lattice Boltzmann method has become a valuable tool in computational fluid dynamics, one of the ...
In this paper we report on our early experience on porting, optimizing and benchmarking a Lattice Bo...
AbstractIn this paper we report on our early experience on porting, optimizing and benchmarking a La...
We describe the implementation and optimization of a state-of-the-art Lattice Boltzmann code for com...
Abstract We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for ma...
We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for massively p...
Accelerators are an increasingly common option to boost performance of codes that require extensive ...
Accelerators are quickly emerging as the leading technology to further boost computing performances;...
AbstractWe develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for mas...
Abstract In this paper we report on our early experience on porting, optimizing and benchmarking a...
We develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for massively p...
GPUs deliver higher performance than traditional processors, offering remarkable energy efficiency, ...
Algorithms with low computational intensity show interesting per-formance and power consumption beha...
With computer simulations real world phenomena can be analyzed in great detail. Computational fluid ...
We describe a parallel implementation of a compressible Lattice Boltzmann code on a multi-GPU cluste...
The lattice Boltzmann method has become a valuable tool in computational fluid dynamics, one of the ...