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Auteur principal: Ahmed, Amr
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2604.17659
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author Ahmed, Amr
author_facet Ahmed, Amr
contents We introduce the Semantic Density Effect (SDE): the empirical finding that prompts carrying higher semantic information per token consistently produce more accurate, focused, and less hallucinated outputs across all major LLM families. SDE is defined as the ratio of semantically loaded tokens to total prompt tokens, adjusted for redundancy and concreteness. Unlike prior prompt optimization techniques that add tokens (Chain of Thought), duplicate the prompt (Prompt Repetition), or reorder components (Instruction Placement Effect), SDE improves performance by removing or replacing low-information tokens while preserving or sharpening the semantic signal. Evaluated across five frontier models and seven benchmarks, ultra-dense prompts (SDE > 0.80) outperform diluted counterparts by an average of +8.4 percentage points with 0 additional tokens and 0 latency overhead. Combined with Instruction Placement Effect (IPE), the gain reaches +11.7 percentage points
format Preprint
id arxiv_https___arxiv_org_abs_2604_17659
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Semantic Density Effect (SDE): Maximizing Information Per Token Improves LLM Accuracy
Ahmed, Amr
Computation and Language
Artificial Intelligence
We introduce the Semantic Density Effect (SDE): the empirical finding that prompts carrying higher semantic information per token consistently produce more accurate, focused, and less hallucinated outputs across all major LLM families. SDE is defined as the ratio of semantically loaded tokens to total prompt tokens, adjusted for redundancy and concreteness. Unlike prior prompt optimization techniques that add tokens (Chain of Thought), duplicate the prompt (Prompt Repetition), or reorder components (Instruction Placement Effect), SDE improves performance by removing or replacing low-information tokens while preserving or sharpening the semantic signal. Evaluated across five frontier models and seven benchmarks, ultra-dense prompts (SDE > 0.80) outperform diluted counterparts by an average of +8.4 percentage points with 0 additional tokens and 0 latency overhead. Combined with Instruction Placement Effect (IPE), the gain reaches +11.7 percentage points
title Semantic Density Effect (SDE): Maximizing Information Per Token Improves LLM Accuracy
topic Computation and Language
Artificial Intelligence
url https://arxiv.org/abs/2604.17659