SOTAVerified

parameter-efficient fine-tuning

Parameter-Efficient Fine-Tuning (PEFT) is a technique used to adapt pre-trained models to new tasks with minimal changes to the model's parameters. This approach is particularly useful in scenarios where computational resources are limited or when it is desirable to maintain the original model's performance on the initial task.

Papers

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Showing 101125 of 935 papers

TitleStatusHype
What Lurks Within? Concept Auditing for Shared Diffusion Models at Scale0
Harnessing Generative LLMs for Enhanced Financial Event Entity Extraction Performance0
Efficient Federated Split Learning for Large Language Models over Communication Networks0
Vision-Centric Representation-Efficient Fine-Tuning for Robust Universal Foreground Segmentation0
ReasoningV: Efficient Verilog Code Generation with Adaptive Hybrid Reasoning ModelCode0
PEFT A2Z: Parameter-Efficient Fine-Tuning Survey for Large Language and Vision Models0
6G WavesFM: A Foundation Model for Sensing, Communication, and Localization0
HSACNet: Hierarchical Scale-Aware Consistency Regularized Semi-Supervised Change Detection0
Parameter-Efficient Continual Fine-Tuning: A Survey0
Integrating Structural and Semantic Signals in Text-Attributed Graphs with BiGTexCode0
You Don't Need All Attentions: Distributed Dynamic Fine-Tuning for Foundation Models0
A Decade of Wheat Mapping for Lebanon0
CROSSAN: Towards Efficient and Effective Adaptation of Multiple Multimodal Foundation Models for Sequential RecommendationCode0
Balancing Stability and Plasticity in Pretrained Detector: A Dual-Path Framework for Incremental Object Detection0
Enhancing knowledge retention for continual learning with domain-specific adapters and features gating0
LoRI: Reducing Cross-Task Interference in Multi-Task Low-Rank AdaptationCode2
Teaching pathology foundation models to accurately predict gene expression with parameter efficient knowledge transfer0
TASTE: Text-Aligned Speech Tokenization and Embedding for Spoken Language ModelingCode2
Earth-Adapter: Bridge the Geospatial Domain Gaps with Mixture of Frequency AdaptationCode2
AROMA: Autonomous Rank-one Matrix AdaptationCode0
FISH-Tuning: Enhancing PEFT Methods with Fisher Information0
Bridging the Linguistic Divide: A Survey on Leveraging Large Language Models for Machine Translation0
CLIP-SLA: Parameter-Efficient CLIP Adaptation for Continuous Sign Language RecognitionCode0
Generalized Tensor-based Parameter-Efficient Fine-Tuning via Lie Group Transformations0
MetaLoRA: Tensor-Enhanced Adaptive Low-Rank Fine-tuning0
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All datasetsBoolQHellaSwagWinoGrande

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1LLaMA2-7bAccuracy (% )82.63Unverified
2LLaMA2-7bAccuracy (% )82.63Unverified
3LLaMA2-7bAccuracy (% )81.93Unverified
4LLaMA2-7bAccuracy (% )80.28Unverified
#ModelMetricClaimedVerifiedStatus
1LLaMA2-7bAccuracy (% )76.68Unverified
2LLaMA2-7bAccuracy (% )76.67Unverified
3LLaMA2-7bAccuracy (% )76.27Unverified
#ModelMetricClaimedVerifiedStatus
1LLaMA2-7bAccuracy (% )70.8Unverified
2LLaMA2-7bAccuracy (% )70.09Unverified
3LLaMA2-7bAccuracy (% )69.85Unverified