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HDBind: encoding of molecular structure with hyperdimensional binary representations.

Derek Jones1,2, Xiaohua Zhang3, Brian J Bennion3

  • 1Department of Computer Science and Engineering, University of California-San Diego, La Jolla, CA, USA. wdjones@ucsd.edu.

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|November 23, 2024
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Summary
This summary is machine-generated.

Hyperdimensional Computing (HDC) offers a novel, energy-efficient approach for screening drug-like molecules. This method accelerates drug discovery by using simple binary vector arithmetic, outperforming deep learning models in energy efficiency.

Keywords:
Computational chemistryDrug discoveryHyperdimensional computingMachine learningRepresentation learning

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Area of Science:

  • Computational chemistry
  • Machine learning
  • Computer hardware engineering

Background:

  • Traditional drug discovery relies on biophysical methods for binding energy calculations, demanding significant computational resources.
  • Deep learning models offer promise but face hardware acceleration challenges due to their complexity.
  • Hyperdimensional Computing (HDC) presents an algorithmically simple alternative using high-dimension binary vectors and low-precision arithmetic.

Purpose of the Study:

  • To introduce Hyperdimensional Computing (HDC) for fast and efficient screening of drug-like compound libraries.
  • To propose novel graph-based encoding methods for molecular data within the HDC framework.
  • To evaluate the performance and energy efficiency of HDC against established methods on benchmark datasets.

Main Methods:

  • Developed novel graph-based encoding techniques for molecular data representation in HDC.
  • Implemented HDC models for molecular screening tasks.
  • Compared HDC performance against traditional and deep learning approaches on MoleculeNet and LIT-PCBA datasets.
  • Demonstrated HDC on Graphics Processing Units (GPUs) and Field Programmable Gate Arrays (FPGAs).

Main Results:

  • Achieved substantial improvements over previous methods using HDC graph-based encoding.
  • Demonstrated at least an order of magnitude greater energy efficiency compared to baseline neural network models.
  • Validated HDC's effectiveness on multiple hardware platforms, including GPUs and FPGAs.

Conclusions:

  • HDC is a viable and highly energy-efficient method for pre-screening molecular libraries in drug discovery.
  • Novel graph-based HDC encodings significantly enhance molecular representation learning.
  • This work advocates for further research into HDC for developing ultra-efficient drug discovery tools.