AbstractThe increased availability of modern embedded many-core architectures supporting floating- point operations in hardware makes them interesting targets in traditional high performance computing areas as well. In this paper, the Lattice Boltzmann Method (LBM) from the domain of Computational Fluid Dynamics (CFD) is evaluated on Adapteva's Epiphany many-core architecture.Although the LBM implementation shows very good scalability and high floating-point efficiency in the lattice computations, current Epiphany hardware does not provide adequate amounts of either local memory or external memory bandwidth to provide a good foundation for simulation of the large problems commonly encountered in real CFD applications
Numerical analysts and programmers are currently facing a conceptual change in processor technology....
In this paper we address the problem of identifying and exploiting techniques that optimize the perf...
Algorithms with low computational intensity show interesting per-formance and power consumption beha...
The increased availability of modern embedded many-core architectures supporting floating-point oper...
Computational fluid dynamics (CFD) plays an important role in many scientific applications, ranging ...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
This paper puts forward an efficient Lattice Boltzmann method for use as a wake simulator suitable f...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
AbstractWe present different kernels based on Lattice-Boltzmann methods for the solution of the two-...
Lattice Boltzmann method (LBM) is an important computational fluid dynamics (CFD) approach to solvin...
AbstractWe develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for mas...
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...
AbstractGraphics Processing Units (GPUs), originally developed for computer games, now provide compu...
With computer simulations real world phenomena can be analyzed in great detail. Computational fluid ...
Numerical analysts and programmers are currently facing a conceptual change in processor technology....
In this paper we address the problem of identifying and exploiting techniques that optimize the perf...
Algorithms with low computational intensity show interesting per-formance and power consumption beha...
The increased availability of modern embedded many-core architectures supporting floating-point oper...
Computational fluid dynamics (CFD) plays an important role in many scientific applications, ranging ...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
This paper puts forward an efficient Lattice Boltzmann method for use as a wake simulator suitable f...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
AbstractWe present different kernels based on Lattice-Boltzmann methods for the solution of the two-...
Lattice Boltzmann method (LBM) is an important computational fluid dynamics (CFD) approach to solvin...
AbstractWe develop a Lattice Boltzmann code for computational fluid-dynamics and optimize it for mas...
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...
AbstractGraphics Processing Units (GPUs), originally developed for computer games, now provide compu...
With computer simulations real world phenomena can be analyzed in great detail. Computational fluid ...
Numerical analysts and programmers are currently facing a conceptual change in processor technology....
In this paper we address the problem of identifying and exploiting techniques that optimize the perf...
Algorithms with low computational intensity show interesting per-formance and power consumption beha...