能效分类的层次超维计算

M. Imani, Chenyu Huang, Deqian Kong, T. Simunic
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引用次数: 61

摘要

脑启发的超维计算(HD)通过计算超向量而不是传统的数值来模拟认知任务。在HD中,编码器将输入映射到高维向量(超向量),并将它们组合为每个现有类生成模型。在推理过程中,HD通过寻找输入超向量和每个预先存储的类超向量的相似性来执行推理任务,然而,HD中没有唯一的编码可以完美地将输入映射到超向量。这导致在复杂任务(如语音识别)中高清分类精度较低。本文提出了一种多编码器分层分类器MHD,它可以在不增加分类成本的情况下充分利用多个编码器的优势。MHD由两个HD阶段组成:主阶段和决定阶段。主阶段使用具有不同编码器的多个分类器对大范围的输入数据进行分类。主阶段的每个分类器都可以通过动态改变超向量的维数来在效率和精度之间进行权衡。决策阶段位于主阶段之前,它学习输入数据的难度,并在主阶段内选择一个编码器,该编码器将提供最大的精度,同时也将分类任务的效率最大化。我们在语音识别应用中测试了所提出的MHD的准确性和效率。我们的评估表明,与基线单级HD相比,MHD可以提供6.6倍的能源效率改进和6.3倍的加速。
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Hierarchical Hyperdimensional Computing for Energy Efficient Classification
Brain-inspired Hyperdimensional (HD) computing emulates cognition tasks by computing with hypervectors rather than traditional numerical values. In HD, an encoder maps inputs to high dimensional vectors (hypervectors) and combines them to generate a model for each existing class. During inference, HD performs the task of reasoning by looking for similarities of the input hypervector and each pre-stored class hypervector However, there is not a unique encoding in HD which can perfectly map inputs to hypervectors. This results in low HD classification accuracy over complex tasks such as speech recognition. In this paper we propose MHD, a multi-encoder hierarchical classifier, which enables HD to take full advantages of multiple encoders without increasing the cost of classification. MHD consists of two HD stages: a main stage and a decider stage. The main stage makes use of multiple classifiers with different encoders to classify a wide range of input data. Each classifier in the main stage can trade between efficiency and accuracy by dynamically varying the hypervectors’ dimensions. The decider stage, located before the main stage, learns the difficulty of the input data and selects an encoder within the main stage that will provide the maximum accuracy, while also maximizing the efficiency of the classification task. We test the accuracy/efficiency of the proposed MHD on speech recognition application. Our evaluation shows that MHD can provide a 6.6× improvement in energy efficiency and a 6.3× speedup, as compared to baseline single level HD.
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