Ponencia
Comprehensive Evaluation of OpenCL-Based CNN Implementations for FPGAs
Autor/es | Tapiador Morales, Ricardo
Ríos Navarro, José Antonio Linares Barranco, Alejandro Kim, Minkyu Kadetotad, Deepak Seo, Jae-sun |
Departamento | Universidad de Sevilla. Departamento de Arquitectura y Tecnología de Computadores |
Fecha de publicación | 2017 |
Fecha de depósito | 2020-02-13 |
Publicado en |
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ISBN/ISSN | 978-3-319-59146-9 0302-9743 |
Resumen | Deep learning has significantly advanced the state of the
art in artificial intelligence, gaining wide popularity from both industry
and academia. Special interest is around Convolutional Neural Networks
(CNN), which ... Deep learning has significantly advanced the state of the art in artificial intelligence, gaining wide popularity from both industry and academia. Special interest is around Convolutional Neural Networks (CNN), which take inspiration from the hierarchical structure of the visual cortex, to form deep layers of convolutional operations, along with fully connected classifiers. Hardware implementations of these deep CNN architectures are challenged with memory bottlenecks that require many convolution and fully-connected layers demanding large amount of communication for parallel computation. Multi-core CPU based solutions have demonstrated their inadequacy for this problem due to the memory wall and low parallelism. Many-core GPU architectures show superior performance but they consume high power and also have memory constraints due to inconsistencies between cache and main memory. OpenCL is commonly used to describe these architectures for their execution on GPGPUs or FPGAs. FPGA design solutions are also actively being explored, which allow implementing the memory hierarchy using embedded parallel BlockRAMs. This boosts the parallel use of shared memory elements between multiple processing units, avoiding data replicability and inconsistencies. This makes FPGAs potentially powerful solutions for real-time classification of CNNs. In this paper both Altera and Xilinx adopted OpenCL co-design frameworks for pseudo-automatic development solutions are evaluated. A comprehensive evaluation and comparison for a 5-layer deep CNN is presented. Hardware resources, temporal performance and the OpenCL architecture for CNNs are discussed. Xilinx demonstrates faster synthesis, better FPGA resource utilization and more compact boards. Altera provides multi-platforms tools, mature design community and better execution times. |
Identificador del proyecto | TEC2016-77785-P |
Cita | Tapiador Morales, R., Rios Navarro, A., Linares Barranco, A., Kim, M., Kadetotad, D. y Seo, J. (2017). Comprehensive Evaluation of OpenCL-Based CNN Implementations for FPGAs. En IWANN 2017: 14th International Work-Conference on Artificial Neural Networks (271-282), Cadiz, España: Springer. |
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