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Autores principales: Yang, Weiping, Zhou, Shilin, Xu, Hui, Xue, Jiawei, Chen, Changlin
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2511.12624
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author Yang, Weiping
Zhou, Shilin
Xu, Hui
Xue, Jiawei
Chen, Changlin
author_facet Yang, Weiping
Zhou, Shilin
Xu, Hui
Xue, Jiawei
Chen, Changlin
contents With the rise of compute-in-memory (CIM) accelerators, floating-point multiply-and-accumulate (FP-MAC) operations have gained extensive attention for their higher accuracy over integer MACs in neural networks. However, the hardware overhead caused by exponent comparison and mantissa alignment, along with the delay introduced by bit-serial input methods, remains a hinder to implement FP-MAC efficiently. In view of this, we propose Segmented Exponent Alignment (SEA) and Dynamic Wordline Activation (DWA) strategies. SEA exploits the observation that input exponents are often clustered around zero or within a narrow range. By segmenting the exponent space and aligning mantissas accordingly, SEA eliminates the need for maximum exponent detection and reduces input mantissa shifting, and thus reduces the processing latency. DWA further reduces latency and maintains accuracy by activating wordlines based on the exponent segments defined by SEA. Simulation results demonstrate that, when compared with conventional comparison tree based maximum exponent alignment method, our approach saves 63.8\% power consumption, and achieves a 40.87\% delay reduction on the VGG16-CIFAR10 benchmark.
format Preprint
id arxiv_https___arxiv_org_abs_2511_12624
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Segmented Exponent Alignment and Dynamic Wordline Activation for Floating-Point Analog CIM Macros
Yang, Weiping
Zhou, Shilin
Xu, Hui
Xue, Jiawei
Chen, Changlin
Emerging Technologies
With the rise of compute-in-memory (CIM) accelerators, floating-point multiply-and-accumulate (FP-MAC) operations have gained extensive attention for their higher accuracy over integer MACs in neural networks. However, the hardware overhead caused by exponent comparison and mantissa alignment, along with the delay introduced by bit-serial input methods, remains a hinder to implement FP-MAC efficiently. In view of this, we propose Segmented Exponent Alignment (SEA) and Dynamic Wordline Activation (DWA) strategies. SEA exploits the observation that input exponents are often clustered around zero or within a narrow range. By segmenting the exponent space and aligning mantissas accordingly, SEA eliminates the need for maximum exponent detection and reduces input mantissa shifting, and thus reduces the processing latency. DWA further reduces latency and maintains accuracy by activating wordlines based on the exponent segments defined by SEA. Simulation results demonstrate that, when compared with conventional comparison tree based maximum exponent alignment method, our approach saves 63.8\% power consumption, and achieves a 40.87\% delay reduction on the VGG16-CIFAR10 benchmark.
title Segmented Exponent Alignment and Dynamic Wordline Activation for Floating-Point Analog CIM Macros
topic Emerging Technologies
url https://arxiv.org/abs/2511.12624