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 326350 of 1356 papers

TitleStatusHype
Automated Inference of Graph Transformation Rules0
Enhancing Inference Efficiency of Large Language Models: Investigating Optimization Strategies and Architectural Innovations0
Instance-Aware Group Quantization for Vision Transformers0
Streamlining Redundant Layers to Compress Large Language ModelsCode1
Is Modularity Transferable? A Case Study through the Lens of Knowledge DistillationCode0
Dense Vision Transformer Compression with Few Samples0
Are Compressed Language Models Less Subgroup Robust?Code0
Tiny Models are the Computational Saver for Large ModelsCode0
Order of Compression: A Systematic and Optimal Sequence to Combinationally Compress CNN0
Magic for the Age of Quantized DNNs0
Advancing IIoT with Over-the-Air Federated Learning: The Role of Iterative Magnitude Pruning0
DiPaCo: Distributed Path Composition0
BRIEDGE: EEG-Adaptive Edge AI for Multi-Brain to Multi-Robot Interaction0
PYRA: Parallel Yielding Re-Activation for Training-Inference Efficient Task AdaptationCode1
Adversarial Fine-tuning of Compressed Neural Networks for Joint Improvement of Robustness and EfficiencyCode0
SVD-LLM: Truncation-aware Singular Value Decomposition for Large Language Model CompressionCode3
Maxwell's Demon at Work: Efficient Pruning by Leveraging Saturation of Neurons0
Enhanced Sparsification via Stimulative Training0
Bit-mask Robust Contrastive Knowledge Distillation for Unsupervised Semantic HashingCode1
Optimal Policy Sparsification and Low Rank Decomposition for Deep Reinforcement Learning0
Towards efficient deep autoencoders for multivariate time series anomaly detection0
DyCE: Dynamically Configurable Exiting for Deep Learning Compression and Real-time ScalingCode0
"Lossless" Compression of Deep Neural Networks: A High-dimensional Neural Tangent Kernel ApproachCode1
Differentially Private Knowledge Distillation via Synthetic Text GenerationCode0
PromptMM: Multi-Modal Knowledge Distillation for Recommendation with Prompt-TuningCode2
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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