Carl Yang scite author profile

The GraphBLAS standard (GraphBlas.org) is being developed to bring the potential of matrix-based graph algorithms to the broadest possible audience. Mathematically, the GraphBLAS defines a core set of matrix-based graph operations that can be used to implement a wide class of graph algorithms in a wide range of programming environments. This paper provides an introduction to the mathematics of the GraphBLAS. Graphs represent connections between vertices with edges. Matrices can represent a wide range of graphs using adjacency matrices or incidence matrices. Adjacency matrices are often easier to analyze while incidence matrices are often better for representing data. Fortunately, the two are easily connected by matrix multiplication. A key feature of matrix mathematics is that a very small number of matrix operations can be used to manipulate a very wide range of graphs. This composability of a small number of operations is the foundation of the GraphBLAS. A standard such as the GraphBLAS can only be effective if it has low performance overhead. Performance measurements of prototype GraphBLAS implementations indicate that the overhead is low.

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Design Principles for Sparse Matrix Multiplication on the GPU

Yang

Buluç

Owens

2018

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We implement two novel algorithms for sparse-matrix densematrix multiplication (SpMM) on the GPU. Our algorithms expect the sparse input in the popular compressed-sparse-row (CSR) format and thus do not require expensive format conversion. While previous SpMM work concentrates on thread-level parallelism, we additionally focus on latency hiding with instruction-level parallelism and load-balancing. We show, both theoretically and experimentally, that the proposed SpMM is a better fit for the GPU than previous approaches. We identify a key memory access pattern that allows efficient access into both input and output matrices that is crucial to getting excellent performance on SpMM. By combining these two ingredients-(i) merge-based loadbalancing and (ii) row-major coalesced memory access-we demonstrate a 4.1× peak speedup and a 31.7% geomean speedup over state-of-the-art SpMM implementations on real-world datasets.

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Carl Yang

Bridging Collaborative Filtering and Semi-Supervised Learning

Heterogeneous Network Representation Learning: A Unified Framework With Survey and Benchmark

Mathematical foundations of the GraphBLAS

Design Principles for Sparse Matrix Multiplication on the GPU

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