Tabular data: Deep learning is not all you need

R Shwartz-Ziv, A Armon - Information Fusion, 2022 - Elsevier
Information Fusion, 2022Elsevier
A key element in solving real-life data science problems is selecting the types of models to
use. Tree ensemble models (such as XGBoost) are usually recommended for classification
and regression problems with tabular data. However, several deep learning models for
tabular data have recently been proposed, claiming to outperform XGBoost for some use
cases. This paper explores whether these deep models should be a recommended option
for tabular data by rigorously comparing the new deep models to XGBoost on various …
Abstract
A key element in solving real-life data science problems is selecting the types of models to use. Tree ensemble models (such as XGBoost) are usually recommended for classification and regression problems with tabular data. However, several deep learning models for tabular data have recently been proposed, claiming to outperform XGBoost for some use cases. This paper explores whether these deep models should be a recommended option for tabular data by rigorously comparing the new deep models to XGBoost on various datasets. In addition to systematically comparing their performance, we consider the tuning and computation they require. Our study shows that XGBoost outperforms these deep models across the datasets, including the datasets used in the papers that proposed the deep models. We also demonstrate that XGBoost requires much less tuning. On the positive side, we show that an ensemble of deep models and XGBoost performs better on these datasets than XGBoost alone.
Elsevier