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Main Authors: Xu, Binxing, Gu, Hao, Li, Lujun, Wang, Hao, Liu, Bei, Liu, Jiacheng, Zhu, Qiyuan, Yang, Xintong, Li, Chao, Han, Sirui, Guo, Yike
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.07888
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author Xu, Binxing
Gu, Hao
Li, Lujun
Wang, Hao
Liu, Bei
Liu, Jiacheng
Zhu, Qiyuan
Yang, Xintong
Li, Chao
Han, Sirui
Guo, Yike
author_facet Xu, Binxing
Gu, Hao
Li, Lujun
Wang, Hao
Liu, Bei
Liu, Jiacheng
Zhu, Qiyuan
Yang, Xintong
Li, Chao
Han, Sirui
Guo, Yike
contents Training LLMs at ultra-low precision remains a formidable challenge. Direct low-bit QAT often suffers from convergence instability and substantial training costs, exacerbated by quantization noise from heavy-tailed outlier channels and error accumulation across layers. To address these issues, we present Bit-by-Bit, a progressive QAT framework with outlier channel splitting. Our approach integrates three key components: (1) block-wise progressive training that reduces precision stage by stage, ensuring stable initialization for low-bit optimization; (2) nested structure of integer quantization grids to enable a "train once, deploy any precision" paradigm, allowing a single model to support multiple bit-widths without retraining; (3) rounding-aware outlier channel splitting, which mitigates quantization error while acting as an identity transform that preserves the quantized outputs. Furthermore, we follow microscaling groups with E4M3 scales, capturing dynamic activation ranges in alignment with OCP/NVIDIA standards. To address the lack of efficient 2-bit kernels, we developed custom operators for both W2A2 and W2A16 configurations, achieving up to 11$\times$ speedup over BF16. Under W2A2 settings, Bit-by-Bit significantly outperforms baselines like BitDistiller and EfficientQAT on both Llama2/3, achieving a loss of only 2.25 WikiText2 PPL compared to full-precision models.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Bit-by-Bit: Progressive QAT Strategy with Outlier Channel Splitting for Stable Low-Bit LLMs
Xu, Binxing
Gu, Hao
Li, Lujun
Wang, Hao
Liu, Bei
Liu, Jiacheng
Zhu, Qiyuan
Yang, Xintong
Li, Chao
Han, Sirui
Guo, Yike
Machine Learning
Training LLMs at ultra-low precision remains a formidable challenge. Direct low-bit QAT often suffers from convergence instability and substantial training costs, exacerbated by quantization noise from heavy-tailed outlier channels and error accumulation across layers. To address these issues, we present Bit-by-Bit, a progressive QAT framework with outlier channel splitting. Our approach integrates three key components: (1) block-wise progressive training that reduces precision stage by stage, ensuring stable initialization for low-bit optimization; (2) nested structure of integer quantization grids to enable a "train once, deploy any precision" paradigm, allowing a single model to support multiple bit-widths without retraining; (3) rounding-aware outlier channel splitting, which mitigates quantization error while acting as an identity transform that preserves the quantized outputs. Furthermore, we follow microscaling groups with E4M3 scales, capturing dynamic activation ranges in alignment with OCP/NVIDIA standards. To address the lack of efficient 2-bit kernels, we developed custom operators for both W2A2 and W2A16 configurations, achieving up to 11$\times$ speedup over BF16. Under W2A2 settings, Bit-by-Bit significantly outperforms baselines like BitDistiller and EfficientQAT on both Llama2/3, achieving a loss of only 2.25 WikiText2 PPL compared to full-precision models.
title Bit-by-Bit: Progressive QAT Strategy with Outlier Channel Splitting for Stable Low-Bit LLMs
topic Machine Learning
url https://arxiv.org/abs/2604.07888