Embedded and mobile deep learning research notes
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DeepRebirth: Accelerating Deep Neural Network Execution on Mobile Devices [arXiv '17, Samsung]
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ShuffleNet: An Extremely Efficient Convolutional Neural Network for Mobile Devices [arXiv '17, Megvii]
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MobileNets: Efficient Convolutional Neural Networks for Mobile Vision Applications [arXiv '17, Google]
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DeepMon: Mobile GPU-based Deep Learning Framework for Continuous Vision Applications [MobiSys '17]
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DeepEye: Resource Efficient Local Execution of Multiple Deep Vision Models using Wearable Commodity Hardware [MobiSys '17]
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MobiRNN: Efficient Recurrent Neural Network Execution on Mobile GPU [EMDL '17]
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DeepSense: A GPU-based deep convolutional neural network framework on commodity mobile devices [WearSys '16]
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DeepX: A Software Accelerator for Low-Power Deep Learning Inference on Mobile Devices [IPSN '16]
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EIE: Efficient Inference Engine on Compressed Deep Neural Network [ISCA '16]
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MCDNN: An Approximation-Based Execution Framework for Deep Stream Processing Under Resource Constraints [MobiSys '16]
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DXTK: Enabling Resource-efficient Deep Learning on Mobile and Embedded Devices with the DeepX Toolkit [MobiCASE '16]
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Sparsification and Separation of Deep Learning Layers for Constrained Resource Inference on Wearables [SenSys ’16]
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An Early Resource Characterization of Deep Learning on Wearables, Smartphones and Internet-of-Things Devices [IoT-App ’15]
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CNNdroid: GPU-Accelerated Execution of Trained Deep Convolutional Neural Networks on Android [MM '16]
- The ZipML Framework for Training Models with End-to-End Low Precision: The Cans, the Cannots, and a Little Bit of Deep Learning [ICML'17]
- Compressing Deep Convolutional Networks using Vector Quantization [arXiv'14]
- Quantized Convolutional Neural Networks for Mobile Devices [CVPR '16]
- Fixed-Point Performance Analysis of Recurrent Neural Networks [ICASSP'16]
- Quantized Neural Networks: Training Neural Networks with Low Precision Weights and Activations [arXiv'16]
- Loss-aware Binarization of Deep Networks [ICLR'17]
- Towards the Limit of Network Quantization [ICLR'17]
- Deep Learning with Low Precision by Half-wave Gaussian Quantization [CVPR'17]
- ShiftCNN: Generalized Low-Precision Architecture for Inference of Convolutional Neural Networks [arXiv'17]
- Learning both Weights and Connections for Efficient Neural Networks [NIPS'15]
- Pruning Filters for Efficient ConvNets [ICLR'17]
- Pruning Convolutional Neural Networks for Resource Efficient Inference [ICLR'17]
- Soft Weight-Sharing for Neural Network Compression [ICLR'17]
- Deep Compression: Compressing Deep Neural Networks with Pruning, Trained Quantization and Huffman Coding [ICLR'16]
- Dynamic Network Surgery for Efficient DNNs [NIPS'16]
- Designing Energy-Efficient Convolutional Neural Networks using Energy-Aware Pruning [CVPR'17]
- ThiNet: A Filter Level Pruning Method for Deep Neural Network Compression [ICCV'17]
- Efficient and Accurate Approximations of Nonlinear Convolutional Networks [CVPR'15]
- Accelerating Very Deep Convolutional Networks for Classification and Detection (Extended version of above one)
- Convolutional neural networks with low-rank regularization [arXiv'15]
- Exploiting Linear Structure Within Convolutional Networks for Efficient Evaluation [NIPS'14]
- Compression of Deep Convolutional Neural Networks for Fast and Low Power Mobile Applications [ICLR'16]
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ARM-software/ComputeLibrary: The ARM Computer Vision and Machine Learning library is a set of functions optimised for both ARM CPUs and GPUs using SIMD technologies, Intro
- Deep learning systems, UW course schedule(focused on systems design, not learning)