Bo Yang Hsueh scite author profile

Network pruning can reduce the high computation cost of deep neural network (DNN) models. However, to maintain their accuracies, sparse models often carry randomly-distributed weights, leading to irregular computations. Consequently, sparse models cannot achieve meaningful speedup on commodity hardware (e.g., GPU) built for dense matrix computations. As such, prior works usually modify or design completely new sparsityoptimized architectures for exploiting sparsity. We propose an algorithm-software co-designed pruning method that achieves latency speedups on existing dense architectures. Our work builds upon the insight that the matrix multiplication generally breaks the large matrix into multiple smaller tiles for parallel execution. We propose a tiling-friendly "tile-wise" sparsity pattern, which maintains a regular pattern at the tile level for efficient execution but allows for irregular, arbitrary pruning at the global scale to maintain the high accuracy. We implement and evaluate the sparsity pattern on GPU tensor core, achieving a 1.95× speedup over the dense model. * Contribution during his internship at NVIDIA.

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Stochastic Gradient Descent with Hyperbolic-Tangent Decay on Classification

Hsueh¹,

Li²,

Wu³

2018

Preprint

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Bo Yang Hsueh

Accelerating Sparse DNN Models without Hardware-Support via Tile-Wise Sparsity

Accelerating Sparse DNN Models without Hardware-Support via Tile-Wise Sparsity

Stochastic Gradient Descent with Hyperbolic-Tangent Decay on Classification

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