SOTAVerified

Network Pruning

Network Pruning is a popular approach to reduce a heavy network to obtain a light-weight form by removing redundancy in the heavy network. In this approach, a complex over-parameterized network is first trained, then pruned based on come criterions, and finally fine-tuned to achieve comparable performance with reduced parameters.

Source: Ensemble Knowledge Distillation for Learning Improved and Efficient Networks

Papers

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Showing 251275 of 534 papers

TitleStatusHype
Neural Network Pruning Through Constrained Reinforcement Learning0
Training Deep Neural Networks with Joint Quantization and Pruning of Weights and ActivationsCode1
Differentiable Network Pruning for Microcontrollers0
Compact CNN Models for On-device Ocular-based User Recognition in Mobile Devices0
ABCP: Automatic Block-wise and Channel-wise Network Pruning via Joint SearchCode0
Learning Compact Representations of Neural Networks using DiscriminAtive Masking (DAM)Code1
Can network pruning benefit deep learning under label noise?0
Global Magnitude Pruning With Minimum Threshold Is All We NeedCode0
LEAN: graph-based pruning for convolutional neural networks by extracting longest chains0
Automated Channel Pruning with Learned Importance0
Learning Efficient Image Super-Resolution Networks via Structure-Regularized Pruning0
Efficient Ensembles of Graph Neural Networks0
Structured Pruning Meets Orthogonality0
Network Pruning Optimization by Simulated Annealing Algorithm0
Revisit Kernel Pruning with Lottery Regulated Grouped ConvolutionsCode1
Rethinking Again the Value of Network Pruning -- A Dynamical Isometry Perspective0
Stabilizing Elastic Weight Consolidation method in practical ML tasks and using weight importances for neural network pruningCode0
Reproducibility Study: Comparing Rewinding and Fine-tuning in Neural Network PruningCode0
Structured Pattern Pruning Using Regularization0
Causal Explanation of Convolutional Neural NetworksCode0
GDP: Stabilized Neural Network Pruning via Gates with Differentiable Polarization0
Multistage Pruning of CNN Based ECG Classifiers for Edge Devices0
New Pruning Method Based on DenseNet Network for Image Classification0
Pruning in the Face of AdversariesCode0
An Information Theory-inspired Strategy for Automatic Network PruningCode1
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All datasetsImageNetImageNet - ResNet 50 - 90% sparsityCIFAR-100CIFAR-10MNIST

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1ResNet50-2.3 GFLOPsAccuracy78.79Unverified
2ResNet50-1.5 GFLOPsAccuracy78.07Unverified
3ResNet50 2.5 GFLOPSAccuracy78Unverified
4RegX-1.6GAccuracy77.97Unverified
5ResNet50 2.0 GFLOPSAccuracy77.7Unverified
6ResNet50-3G FLOPsAccuracy77.1Unverified
7ResNet50-2G FLOPsAccuracy76.4Unverified
8ResNet50-1G FLOPsAccuracy76.38Unverified
9TAS-pruned ResNet-50Accuracy76.2Unverified
10ResNet50Accuracy75.59Unverified
#ModelMetricClaimedVerifiedStatus
1FeatherTop-1 Accuracy76.93Unverified
2SpartanTop-1 Accuracy76.17Unverified
3ST-3Top-1 Accuracy76.03Unverified
4AC/DCTop-1 Accuracy75.64Unverified
5CSTop-1 Accuracy75.5Unverified
6ProbMaskTop-1 Accuracy74.68Unverified
7STRTop-1 Accuracy74.31Unverified
8DNWTop-1 Accuracy74Unverified
9GMPTop-1 Accuracy73.91Unverified
#ModelMetricClaimedVerifiedStatus
1+U-DML*Inference Time (ms)675.56Unverified
2DenseAccuracy79Unverified
3AC/DCAccuracy78.2Unverified
4Beta-RankAccuracy74.01Unverified
5TAS-pruned ResNet-110Accuracy73.16Unverified
#ModelMetricClaimedVerifiedStatus
1TAS-pruned ResNet-110Accuracy94.33Unverified
2ShuffleNet – QuantisedInference Time (ms)23.15Unverified
3AlexNet – QuantisedInference Time (ms)5.23Unverified
4MobileNet – QuantisedInference Time (ms)4.74Unverified
#ModelMetricClaimedVerifiedStatus
1FFN-ShapleyPrunedAvg #Steps12.05Unverified