Efficient Training of Transformers for Molecule Property Prediction on Small-scale Datasets

Shivesh Prakash
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Abstract

The blood-brain barrier (BBB) serves as a protective barrier that separates the brain from the circulatory system, regulating the passage of substances into the central nervous system. Assessing the BBB permeability of potential drugs is crucial for effective drug targeting. However, traditional experimental methods for measuring BBB permeability are challenging and impractical for large-scale screening. Consequently, there is a need to develop computational approaches to predict BBB permeability. This paper proposes a GPS Transformer architecture augmented with Self Attention, designed to perform well in the low-data regime. The proposed approach achieved a state-of-the-art performance on the BBB permeability prediction task using the BBBP dataset, surpassing existing models. With a ROC-AUC of 78.8%, the approach sets a state-of-the-art by 5.5%. We demonstrate that standard Self Attention coupled with GPS transformer performs better than other variants of attention coupled with GPS Transformer.
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在小规模数据集上高效训练用于分子性质预测的变换器
血脑屏障(BBB)是将大脑与循环系统分隔开来的一道保护屏障,可调节物质进入中枢神经系统的通道。评估潜在药物的血脑屏障通透性对于有效的药物靶向至关重要。然而,测量 BBB 通透性的传统实验方法对于大规模筛选来说具有挑战性且不切实际。因此,有必要开发预测 BBB 渗透性的计算方法。本文提出了一种利用自我关注(Self Attention)增强的全球定位系统转换器(GPSTransformer)架构,其设计目的是在低数据机制下实现良好的性能。所提出的方法在使用 BBBP 数据集进行 BBB 渗透性预测任务时取得了超越现有模型的最佳性能。该方法的 ROC-AUC 为 78.8%,比先进水平提高了 5.5%。我们证明,标准的 "自我注意力 "与 GPS 变换器相结合,比注意力与 GPS 变换器相结合的其他变体表现更好。
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