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Understanding the Design-Space of Sparse/Dense Multiphase GNN dataflows on Spatial Accelerators

Authors :
Garg, Raveesh
Qin, Eric
Muñoz-Martínez, Francisco
Guirado, Robert
Jain, Akshay
Abadal, Sergi
Abellán, José L.
Acacio, Manuel E.
Alarcón, Eduard
Rajamanickam, Sivasankaran
Krishna, Tushar
Publication Year :
2021

Abstract

Graph Neural Networks (GNNs) have garnered a lot of recent interest because of their success in learning representations from graph-structured data across several critical applications in cloud and HPC. Owing to their unique compute and memory characteristics that come from an interplay between dense and sparse phases of computations, the emergence of reconfigurable dataflow (aka spatial) accelerators offers promise for acceleration by mapping optimized dataflows (i.e., computation order and parallelism) for both phases. The goal of this work is to characterize and understand the design-space of dataflow choices for running GNNs on spatial accelerators in order for mappers or design-space exploration tools to optimize the dataflow based on the workload. Specifically, we propose a taxonomy to describe all possible choices for mapping the dense and sparse phases of GNN inference, spatially and temporally over a spatial accelerator, capturing both the intra-phase dataflow and the inter-phase (pipelined) dataflow. Using this taxonomy, we do deep-dives into the cost and benefits of several dataflows and perform case studies on implications of hardware parameters for dataflows and value of flexibility to support pipelined execution.<br />Comment: Accepted for publication at the 36th IEEE International Parallel & Distributed Processing Symposium (IPDPS 2022)

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2103.07977
Document Type :
Working Paper