Virat Agarwal scite author profile

Abstract-Many important problems in computational sciences, social network analysis, security, and business analytics, are data-intensive and lend themselves to graph-theoretical analyses. In this paper we investigate the challenges involved in exploring very large graphs by designing a breadth-first search (BFS) algorithm for advanced multi-core processors that are likely to become the building blocks of future exascale systems. Our new methodology for large-scale graph analytics combines a highlevel algorithmic design that captures the machine-independent aspects, to guarantee portability with performance to future processors, with an implementation that embeds processorspecific optimizations. We present an experimental study that uses state-of-the-art Intel Nehalem EP and EX processors and up to 64 threads in a single system. Our performance on several benchmark problems representative of the power-law graphs found in real-world problems reaches processing rates that are competitive with supercomputing results in the recent literature. In the experimental evaluation we prove that our graph exploration algorithm running on a 4-socket Nehalem EX is (1) 2.4 times faster than a Cray XMT with 128 processors when exploring a random graph with 64 million vertices and 512 millions edges, (2) capable of processing 550 million edges per second with an R-MAT graph with 200 million vertices and 1 billion edges, comparable to the performance of a similar graph on a Cray MTA-2 with 40 processors and (3) 5 times faster than 256 BlueGene/L processors on a graph with average degree 50.

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FFTC: Fastest Fourier Transform for the IBM Cell Broadband Engine

Bader

Agarwal

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On the Design and Analysis of Irregular Algorithms on the Cell Processor: A Case Study of List Ranking

Bader

Agarwal

Madduri

2007

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Financial modeling on the cell broadband engine

Agarwal

Liu

Bader

2008

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Computing discrete transforms on the Cell Broadband Engine

2009

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Virat Agarwal

Scalable Graph Exploration on Multicore Processors

FFTC: Fastest Fourier Transform for the IBM Cell Broadband Engine

On the Design and Analysis of Irregular Algorithms on the Cell Processor: A Case Study of List Ranking

Financial modeling on the cell broadband engine

Computing discrete transforms on the Cell Broadband Engine

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