fpga上有限元方法矩阵的稀疏矩阵-向量乘法

2006 14th Annual IEEE Symposium on Field-Programmable Custom Computing Machines Pub Date : 2006-04-24 DOI:10.1109/FCCM.2006.65

Y. El-Kurdi, W. Gross, D. Giannacopoulos

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引用次数: 27

摘要

本文提出了一种基于fpga的稀疏矩阵向量乘法器(SMVM)的结构和实现，用于有限元法(FEM)应用中产生的大型稀疏方程组的迭代求解。该体系结构基于处理元素(pe)的流水线线性阵列。提出了一种面向硬件的矩阵“条带化”方案，减少了所需处理单元的数量。目前的8 PE原型在8gb /s内存带宽下实现了1.76 GFLOPS的峰值性能和1.5 GFLOPS的持续性能。smvm流水线占用Stratix S80 FPGA 30%的逻辑资源和40%的内存资源。通过pe之间的本地互连，SMVM-pipeline获得了仅受FPGA资源限制而不受通信开销限制的可扩展性特性

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Sparse Matrix-Vector Multiplication for Finite Element Method Matrices on FPGAs

The paper presents an architecture and an implementation of an FPGA-based sparse matrix-vector multiplier (SMVM) for use in the iterative solution of large, sparse systems of equations arising from finite element method (FEM) applications. The architecture is based on a pipelined linear array of processing elements (PEs). A hardware-oriented matrix "striping" scheme is developed which reduces the number of required processing elements. The current 8 PE prototype achieves a peak performance of 1.76 GFLOPS and a sustained performance of 1.5 GFLOPS with 8 GB/s of memory bandwidth. The SMVM-pipeline uses 30% of the logic resources and 40% of the memory resources of a Stratix S80 FPGA. By virtue of the local interconnect between the PEs, the SMVM-pipeline obtain scalability features that is only limited by FPGA resources instead of the communication overhead

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2006 14th Annual IEEE Symposium on Field-Programmable Custom Computing Machines

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