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E-DGCN: An Efficient Architecture Design for Accelerating Dynamic Graph Convolutional Network (DGCN) Inference

SessionComplexity Matters: Scheduling and Accelerating Data Structures in DNNs

DescriptionDynamic graph neural networks (DGCNs) have been proposed to extend machine learning techniques to applications involving dynamic graphs. Typically, a DGCN model includes a graph convolutional network (GCN) followed by a recurrent neural network (RNN) to capture both spatial and temporal information. To efficiently perform distinct neural network models as well as maximize the data reuse and hardware utilization, customized hardware designs for such applications require a reconfigurable computing engine, flexible dataflow, and efficient data locality exploitation. We propose an efficient DGCN accelerator named E-DGCN. Specifically, E-DGCN includes modified Processing Elements (PEs) with a flexible interconnection design to support diverse computation patterns and various dataflows. Additionally, a lightweight vertex caching algorithm is proposed to exploit data locality, enabling E-DGCN to selectively load required vertices during DGCN inference. These implementations provide benefits in managing data computation and communication.

Authors

Yingnan Zhao

George Washington University

Ke Wang

University of North Carolina, Charlotte

Jiaqi Yang

George Washington University

Ahmed Louri

George Washington University

Event Type

Research Manuscript