内容紹介

Beyond the boom of artificial intelligence, the next generation of computing architectures with high speed and low cost are always demanded. In this lecture, we introduce a multi-grained reconfigurable architecture for accelerating arbitrary functions in fully parallel with high speed and low cost. The proposed architecture is reconfigurable in fine-grained (arbitrary functions), mid-grained (flexible function feature, accuracy, and number of operands), and coarse-grained (organization of kernels). By implementing a large scale of novel bisection neural network (BNN) on hardware, the reconfiguration is conducted by partitioning entire BNN into any specific pieces without redundancy. Each piece of BNN retrieves the arbitrary function approximately. By reconfiguring the BNN topology in software, we can easily adjust dimensions of the computing kernel without rewiring, and achieve a wide range of trade-offs between accuracy and efficiency in hardware. In this manner, the multi-grained reconfigurable architecture is achieved. For proof-of-concept, a demo accelerator is built on FPGA. The processing element is designed in 16-bit fixed point scheme including two synapses and one neuron. In order to better support this architecture, we have also proposed a series of system-level optimization techniques, including design flow, on-chip interconnection, and configuration strategies, etc. From the FPGA implementation results,compared with CPU baseline, proposed architecture achieves speedups of 5.1x to 30.3x. Compared with other traditional function approximation methods, our method provides fewer parameter storage requirements. The comparison against related works proves that our accelerator has reduced the area-latency product by at least 9.5% with a loss of accuracy by at most 8.9%.

詳細情報

刊年

2022

形態

電子化映像資料(36分07秒）

シリーズ名

情報科学領域・コロキアム ; 2022年度

注記

講演者所属: 情報科学領域

講演日: 2022年6月17日 3限

講演場所: 情報科学棟 エーアイ大講義室(L1)

標題言語

英語 (eng)

本文言語

英語 (eng)

著者情報

Kan, Yirong