- International Journal of Multidisciplinary Studies and Innovative Technologies
- Vol: 6 Issue: 1
- Efficient Hardware Optimization for CNN
Efficient Hardware Optimization for CNN
Authors : Seda Güzel Aydin, Hasan Şakir Bilge
Pages : 38-44
View : 26 | Download : 9
Publication Date : 2022-07-20
Article Type : Research
Abstract :Convolutional Neural Networks (CNN) architectures have been increasingly well-known for image processing applications such as object detection, and remote sensing. Some applications like these systems need to adopt CNN methods for real-time implementation. Embedded devices like Field Programmable Gate Arrays (FPGA) technologies are a favorable alternative to implementing CNN-based algorithms. However, FPGA has some drawbacks such as limited resources and bottlenecks, it is difficult and so crucial to map the whole CNN that has a high number of layers, on FPGA without any optimization. Therefore, hardware optimization techniques are compulsory. In this study, an FPGA-based CNN architecture using high-level synthesis (HLS) is demonstrated, and a synthesis report is created for Xilinx Zynq-7000 xc7z020-clg484-1 target FPGAs. By implementing the CNN architecture on an FPGA platform, the implemented architecture has been fastened. To improve the throughput, the proposed design is optimized for convolutional layers. The most important contribution of this study is to perform optimization on the convolution layer by unrolling kernels and input feature maps and examine the effects on throughput, latency, and hardware resources. In this study, throughput is 15.6 GOP/s for the first convolution layer. With the proposed method in the study, approximately x2.6 acceleration in terms of latency and throughput was achieved compared to the baseline design.Keywords : FPGA, Deep learning, Convolutional neural networks, Hardware optimization, HLS