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 541550 of 935 papers

TitleStatusHype
VHDL-Eval: A Framework for Evaluating Large Language Models in VHDL Code Generation0
Choice of PEFT Technique in Continual Learning: Prompt Tuning is Not All You Need0
Adapter-X: A Novel General Parameter-Efficient Fine-Tuning Framework for Vision0
Low-Rank Adaption on Transformer-based Oriented Object Detector for Satellite Onboard Processing of Remote Sensing ImagesCode0
SwitchLoRA: Switched Low-Rank Adaptation Can Learn Full-Rank Information0
LoFiT: Localized Fine-tuning on LLM RepresentationsCode1
Differentially Private Fine-Tuning of Diffusion Models0
Mamba State-Space Models Are Lyapunov-Stable Learners0
Spectrum-Aware Parameter Efficient Fine-Tuning for Diffusion ModelsCode0
SAM-E: Leveraging Visual Foundation Model with Sequence Imitation for Embodied Manipulation0
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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