Exploratory Large Scale Graph Analytics in Arkouda

Abstract

Exploratory graph analytics helps maximize the informational value for a graph. However, the increasing graph size makes it impossible for existing popular exploratory data analysis tools to handle dozens-of-terabytes or even larger data sets in the memory of a common laptop/personal computer. Arkouda is a framework under early-development that brings together the productivity of Python at the user side with the high-performance of Chapel at the server side. In this paper, the preliminary work on overcoming the memory limit and high performance computing coding roadblock for high level Python users to perform large graph analysis is presented. A simple and succinct graph data structure design and implementation at both the Python front-end and the Chapel back-end in the Arkouda framework are provided. A typical graph algorithm, Breadth-First Search (BFS), is used to show how we can use Chapel to develop high performance parallel graph algorithm productively. Two Chapel based parallel Breadth-First Search (BFS) algorithms, one high level version and one corresponding low level version, have been implemented in Arkouda to support analyzing large graphs. Multiple graph benchmarks are used to evaluate the performance of the provided graph algorithms. Experimental results show that we can optimize the performance by tuning the selection of different Chapel high level data structures and parallel constructs. Our code is open source and available from GitHub (https://github.com/Bader-Research/arkouda).

Publication
In Chapel Users and Implementers Workshop