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Hybrid Working Set Algorithm for SVM Learning With a Kernel Coprocessor on FPGA

2014; Institute of Electrical and Electronics Engineers; Volume: 23; Issue: 10 Linguagem: Inglês

10.1109/tvlsi.2014.2361254

1557-9999

Sriram Venkateshan, Alap U. Patel, Kuruvilla Varghese,

Neural Networks and Applications

Support vector machines (SVM) are a popular class of supervised models in machine learning. The associated compute intensive learning algorithm limits their use in real-time applications. This paper presents a fully scalable architecture of a coprocessor, which can compute multiple rows of the kernel matrix in parallel. Further, we propose an extended variant of the popular decomposition technique, sequential minimal optimization, which we call hybrid working set (HWS) algorithm, to effectively utilize the benefits of cached kernel columns and the parallel computational power of the coprocessor. The coprocessor is implemented on Xilinx Virtex 7 field-programmable gate array-based VC707 board and achieves a speedup of up to 25× for kernel computation over single threaded computation on Intel Core i5. An application speedup of up to 15× over software implementation of LIBSVM and speedup of upto 23× over SVMLight is achieved using the HWS algorithm in unison with the coprocessor. The reduction in the number of iterations and sensitivity of the optimization time to variation in cache size using the HWS algorithm are also shown.