Loading web-font TeX/Math/Italic
Locality-Based Encoder and Model Quantization for Efficient Hyper-Dimensional Computing | IEEE Journals & Magazine | IEEE Xplore

Locality-Based Encoder and Model Quantization for Efficient Hyper-Dimensional Computing


Abstract:

Brain-inspired hyper-dimensional (HD) computing is a new computing paradigm emulating the neuron’s activity in high-dimensional space. The first step in HD computing is t...Show More

Abstract:

Brain-inspired hyper-dimensional (HD) computing is a new computing paradigm emulating the neuron’s activity in high-dimensional space. The first step in HD computing is to map each data point into high-dimensional space (e.g., 10 000), which requires the computation of thousands of operations for each element of data in the original domain. Encoding alone takes about 80% of the execution time of training. In this article, we propose, ReHD, an entire rework of encoding, training, and inference in HD computing for a more hardware friendly implementation. ReHD includes a full binary encoding module for HD computing for energy-efficient and high-accuracy classification. Our encoding module based on random projection with a predictable memory access pattern can be efficiently implemented in hardware. ReHD is the first HD-based approach that provides data projection with a 1:1 ratio to the original data and enables all training/inference computation to be performed using binary hypervectors. After the optimizations ReHD adds to the encoding process, retraining and inference become the energy intensive part of HD computing. To resolve this, we additionally propose model quantization. Model quantization introduces a novel method of storing class hypervectors using n -bits, where n ranges from 1 to 32, rather than at full 32-bit precision, which allows for fine-grained tuning of the tradeoff between energy efficiency and accuracy. To further improve ReHD efficiency, we developed an online dimension reduction approach that removes insignificant hypervector dimensions during training.
Page(s): 897 - 907
Date of Publication: 29 March 2021

ISSN Information:

Funding Agency:


References

References is not available for this document.