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Autores principales: Boldo, David, Pemberton, Lily, Thistledown, Gabriel, Fairchild, Jacob, Kowalski, Felix
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2501.14936
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author Boldo, David
Pemberton, Lily
Thistledown, Gabriel
Fairchild, Jacob
Kowalski, Felix
author_facet Boldo, David
Pemberton, Lily
Thistledown, Gabriel
Fairchild, Jacob
Kowalski, Felix
contents The integration of contextual embeddings into the optimization processes of large language models is an advancement in natural language processing. The Context-Aware Neural Gradient Mapping framework introduces a dynamic gradient adjustment mechanism, incorporating contextual embeddings directly into the optimization process. This approach facilitates real-time parameter adjustments, enhancing task-specific generalization even in the presence of sparse or noisy data inputs. The mathematical foundation of this framework relies on gradient descent modifications, where contextual embeddings are derived from a supplementary neural network trained to map input features to optimal adaptation gradients. By employing differential geometry principles, high-dimensional input dependencies are encoded into low-dimensional gradient manifolds, enabling efficient adaptation without necessitating the retraining of the entire model. Empirical evaluations demonstrate that the proposed framework consistently outperforms baseline models across various metrics, including accuracy, robustness to noise, and computational efficiency. The integration of context-specific embeddings allows for a more complex understanding of language, thereby improving the model's ability to handle diverse linguistic phenomena. Furthermore, the computational efficiency achieved through this method demonstrates its scalability for large-scale language models operating under diverse constraints.
format Preprint
id arxiv_https___arxiv_org_abs_2501_14936
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Context-Aware Neural Gradient Mapping for Fine-Grained Instruction Processing
Boldo, David
Pemberton, Lily
Thistledown, Gabriel
Fairchild, Jacob
Kowalski, Felix
Computation and Language
Artificial Intelligence
The integration of contextual embeddings into the optimization processes of large language models is an advancement in natural language processing. The Context-Aware Neural Gradient Mapping framework introduces a dynamic gradient adjustment mechanism, incorporating contextual embeddings directly into the optimization process. This approach facilitates real-time parameter adjustments, enhancing task-specific generalization even in the presence of sparse or noisy data inputs. The mathematical foundation of this framework relies on gradient descent modifications, where contextual embeddings are derived from a supplementary neural network trained to map input features to optimal adaptation gradients. By employing differential geometry principles, high-dimensional input dependencies are encoded into low-dimensional gradient manifolds, enabling efficient adaptation without necessitating the retraining of the entire model. Empirical evaluations demonstrate that the proposed framework consistently outperforms baseline models across various metrics, including accuracy, robustness to noise, and computational efficiency. The integration of context-specific embeddings allows for a more complex understanding of language, thereby improving the model's ability to handle diverse linguistic phenomena. Furthermore, the computational efficiency achieved through this method demonstrates its scalability for large-scale language models operating under diverse constraints.
title Context-Aware Neural Gradient Mapping for Fine-Grained Instruction Processing
topic Computation and Language
Artificial Intelligence
url https://arxiv.org/abs/2501.14936