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RAG

Retrieval-Augmented Generation (RAG) is a task that combines the strengths of both retrieval-based models and generation-based models. In this approach, a retrieval system selects relevant documents or passages from a large corpus, and a generation model, typically a neural language model, uses the retrieved information to generate a response. This method enhances the accuracy and coherence of generated text, especially in tasks requiring detailed knowledge or long context handling.

RAG is particularly useful in open-domain question answering, knowledge-grounded dialogue, and summarization tasks. The retrieval step helps the model to access and incorporate external information, making it less reliant on memorized knowledge and better suited for generating responses based on the latest or domain-specific information.

The performance of RAG systems is usually measured using metrics such as precision, recall, F1 score, BLEU score, and exact match. Some popular datasets for evaluating RAG models include Natural Questions, MS MARCO, TriviaQA, and SQuAD.

Papers

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Showing 5175 of 2111 papers

TitleStatusHype
Data-Prep-Kit: getting your data ready for LLM application developmentCode4
Text2SQL is Not Enough: Unifying AI and Databases with TAGCode4
Medical Graph RAG: Towards Safe Medical Large Language Model via Graph Retrieval-Augmented GenerationCode4
Improving Retrieval-Augmented Generation in Medicine with Iterative Follow-up QuestionsCode4
COS-Mix: Cosine Similarity and Distance Fusion for Improved Information RetrievalCode4
Symbolic Prompt Program Search: A Structure-Aware Approach to Efficient Compile-Time Prompt OptimizationCode4
2D Matryoshka Sentence EmbeddingsCode4
FinBen: A Holistic Financial Benchmark for Large Language ModelsCode4
Benchmarking Retrieval-Augmented Generation for MedicineCode4
In Search of Needles in a 11M Haystack: Recurrent Memory Finds What LLMs MissCode4
Generative Representational Instruction TuningCode4
G-Retriever: Retrieval-Augmented Generation for Textual Graph Understanding and Question AnsweringCode4
Retrieval-Augmented Generation for Large Language Models: A SurveyCode4
Self-RAG: Learning to Retrieve, Generate, and Critique through Self-ReflectionCode4
Retrieval-Augmented Generation for Knowledge-Intensive NLP TasksCode4
MMSearch-R1: Incentivizing LMMs to SearchCode3
Arctic Long Sequence Training: Scalable And Efficient Training For Multi-Million Token SequencesCode3
FlexRAG: A Flexible and Comprehensive Framework for Retrieval-Augmented GenerationCode3
Hierarchical Lexical Graph for Enhanced Multi-Hop RetrievalCode3
When to use Graphs in RAG: A Comprehensive Analysis for Graph Retrieval-Augmented GenerationCode3
VRAG-RL: Empower Vision-Perception-Based RAG for Visually Rich Information Understanding via Iterative Reasoning with Reinforcement LearningCode3
syftr: Pareto-Optimal Generative AICode3
Direct Retrieval-augmented Optimization: Synergizing Knowledge Selection and Language ModelsCode3
ReasonIR: Training Retrievers for Reasoning TasksCode3
RAKG:Document-level Retrieval Augmented Knowledge Graph ConstructionCode3
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