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GPU VSIPL: Core and Beyond Andrew Kerr 1, Dan Campbell 2, and Mark Richards 1 1 Georgia Institute of Technology 2 Georgia Tech Research Institute.

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Presentation on theme: "GPU VSIPL: Core and Beyond Andrew Kerr 1, Dan Campbell 2, and Mark Richards 1 1 Georgia Institute of Technology 2 Georgia Tech Research Institute."— Presentation transcript:

1 GPU VSIPL: Core and Beyond Andrew Kerr 1, Dan Campbell 2, and Mark Richards 1 1 Georgia Institute of Technology 2 Georgia Tech Research Institute

2 Goal An application development environment for embedded high performance computing that achieves – Portability : same code usable with different processors, processor generations, and vendors – Productivity : disciplined programming model, leverage highly optimized libraries for signal processing+linear algebra – Performance : employ highly advanced processors, ~1 TFLOPS Approach Adopt the VSIPL API for open standard portability and productivity Develop a state-of-the-art GPU-VSIPL library to leverage CUDA-enabled GPU performance

3 GPU-VSIPL Functional Coverage What’s covered from VSIPL Core –Data Types real, complex, integer, boolean, index –View Types Matrix, vector –Element-wise Operators arithmetic, trigonometric, transcendental, scatter/gather, logical, and comparison –Signal Processing FFT (in-place, out-of-place, batched) Fast FIR filter, window creation, 1D correlation Random number generation, histogram –Linear Algebra generalized matrix product QR decomposition, least-squares solver What’s Not (yet) –Linear Algebra LU, Toeplitz, least-squares solvers What’s Added Beyond VSIPL Core –Scalar and matrix versions of element-wise vector operators –Matrix utility functions VSIPL API Core Profile GPU VSIPL Core Lite Profile

4 Performance Examples: Signal Processing 1D FFT, In-Place1D Correlation

5 Performance Examples: Linear Algebra Matrix-Vector ProductQR Decomposition

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