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The SSE (streaming (single instruction multiple data) SIMD extensions) instruction set was used to accelerate the finite difference time domain (FDTD) method for the significant improvement on the simulation performance. The numerical results of the SSE acceleration on the multi-CPU workstation have demonstrated that we can obtain around 4 times speedup ratio comparing to FDTD without SSE.
In this paper, we introduce one novel hardware acceleration technique based on a vector unit built in a regular CPU for high performance electromagnetic simulation tools. We investigate the performance of parallel conformal FDTD method on the Intel and AMD processors accelerated by the Vector Arithmetic Logic Unit (VALU), high performance cluster, and Graphics Processing Unit (GPU). The FDTD method...
In this paper, we introduce one novel hardware acceleration technique based on a vector unit built in a regular CPU for high performance electromagnetic simulation. We investigate the performance of parallel FDTD method on the Intel and AMD processors accelerated by the Vector Arithmetic Logic Unit (VALU), high performance cluster, and Graphics Processing Unit (GPU). The FDTD method that is parallel...
In this paper, we introduce one novel hardware acceleration technique based on a vector unit built in a regular CPU for high performance electromagnetic simulation, and a novel approach for the conformal surface current calculation on the arbitrary PEC body. We investigate the performance of GEMS software on the Intel and AMD processors accelerated by the Vector Arithmetic Logic Unit (VALU), high...
In this paper, we introduce one novel hardware acceleration technique based on a vector unit built in a regular CPU for high performance electromagnetic simulation. We investigate the performance of parallel FDTD method on the Intel and AMD processors accelerated by the Vector Arithmetic Logic Unit (VALU), high performance cluster, and Graphics Processing Unit (GPU). The FDTD method that is parallel...
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