SOTAVerified

Model Compression

Model Compression is an actively pursued area of research over the last few years with the goal of deploying state-of-the-art deep networks in low-power and resource limited devices without significant drop in accuracy. Parameter pruning, low-rank factorization and weight quantization are some of the proposed methods to compress the size of deep networks.

Source: KD-MRI: A knowledge distillation framework for image reconstruction and image restoration in MRI workflow

Papers

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Showing 726750 of 1356 papers

TitleStatusHype
Watermarking Graph Neural Networks by Random Graphs0
Learning a Neural Diff for Speech Models0
Learning-Based Symbol Level Precoding: A Memory-Efficient Unsupervised Learning Approach0
Learning Compressed Embeddings for On-Device Inference0
Accelerating Linear Recurrent Neural Networks for the Edge with Unstructured Sparsity0
Accelerating Inference and Language Model Fusion of Recurrent Neural Network Transducers via End-to-End 4-bit Quantization0
Learning Disentangled Representation with Mutual Information Maximization for Real-Time UAV Tracking0
Three Dimensional Convolutional Neural Network Pruning with Regularization-Based Method0
Learning Efficient Image Super-Resolution Networks via Structure-Regularized Pruning0
Learning Efficient Object Detection Models with Knowledge Distillation0
ASCAI: Adaptive Sampling for acquiring Compact AI0
Learning by Sampling and Compressing: Efficient Graph Representation Learning with Extremely Limited Annotations0
MixMix: All You Need for Data-Free Compression Are Feature and Data Mixing0
Learning Interpretation with Explainable Knowledge Distillation0
WeClick: Weakly-Supervised Video Semantic Segmentation with Click Annotations0
Learning Low-Rank Approximation for CNNs0
Learning Low-Rank Representations for Model Compression0
Model Compression Method for S4 with Diagonal State Space Layers using Balanced Truncation0
Artemis: HE-Aware Training for Efficient Privacy-Preserving Machine Learning0
Learning to Collide: Recommendation System Model Compression with Learned Hash Functions0
Learning to Prune Deep Neural Networks via Reinforcement Learning0
Legal-Tech Open Diaries: Lesson learned on how to develop and deploy light-weight models in the era of humongous Language Models0
LegoDNN: Block-grained Scaling of Deep Neural Networks for Mobile Vision0
Tight Compression: Compressing CNN Through Fine-Grained Pruning and Weight Permutation for Efficient Implementation0
Are We There Yet? A Measurement Study of Efficiency for LLM Applications on Mobile Devices0
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All datasetsImageNetQNLI

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1ADLIK-MO-ResNet50+W4A4Top-177.88Unverified
2ADLIK-MO-ResNet50+W3A4Top-177.34Unverified
3ResNet-18 + 4bit-1dim model compression using DKMTop-170.52Unverified
4MobileNet-v1 + 4bit-1dim model compression using DKMTop-169.63Unverified
5ResNet-18 + 2bit-1dim model compression using DKMTop-168.63Unverified
6MobileNet-v1 + 2bit-1dim model compression using DKMTop-167.62Unverified
7ResNet-18 + 4bit-4dim model compression using DKMTop-166.1Unverified
8ResNet-18 + 2bit-2dim model compression using DKMTop-164.7Unverified
9MobileNet-v1 + 4bit-4dim model compression using DKMTop-161.4Unverified
10ResNet-18 + 1bit-1dim model compression using DKMTop-159.7Unverified
#ModelMetricClaimedVerifiedStatus
1MobileBERT + 2bit-1dim model compression using DKMAccuracy82.13Unverified
2MobileBERT + 1bit-1dim model compression using DKMAccuracy63.17Unverified