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Paper detail

TRAM: Training Approximate Multiplier Structures for Low-Power AI Accelerators

Reducing power consumption in AI accelerators is increasingly important. Approximate computing can reduce power consumption while keeping the accuracy loss small. Since multipliers are power-hungry components in AI models, this paper focuses on synthesizing low-power approximate multipliers (AxMs). Unlike prior works that design AxMs separately from AI model training, we present TRAM, which jointly optimizes the AxM structure and AI model parameters to lower power with small accuracy loss. Experiments show that compared to state-of-the-art AxMs, TRAM achieves up to 25.05% AxM power reduction on CNNs with CIFAR-10, and reduces power by up to 27.09% on vision transformers with ImageNet.

preprint2026arXivOpen access
Chang MengHanyu WangYuyang YeMingfei YuWayne BurlesonGiovanni De Micheli
Hardware ArchitectureMachine LearningArtificial Intelligence
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Chang MengHanyu WangYuyang YeMingfei YuWayne BurlesonGiovanni De Micheli

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