1 research outputs found
X-TIME: An in-memory engine for accelerating machine learning on tabular data with CAMs
Structured, or tabular, data is the most common format in data science. While
deep learning models have proven formidable in learning from unstructured data
such as images or speech, they are less accurate than simpler approaches when
learning from tabular data. In contrast, modern tree-based Machine Learning
(ML) models shine in extracting relevant information from structured data. An
essential requirement in data science is to reduce model inference latency in
cases where, for example, models are used in a closed loop with simulation to
accelerate scientific discovery. However, the hardware acceleration community
has mostly focused on deep neural networks and largely ignored other forms of
machine learning. Previous work has described the use of an analog content
addressable memory (CAM) component for efficiently mapping random forests. In
this work, we focus on an overall analog-digital architecture implementing a
novel increased precision analog CAM and a programmable network on chip
allowing the inference of state-of-the-art tree-based ML models, such as
XGBoost and CatBoost. Results evaluated in a single chip at 16nm technology
show 119x lower latency at 9740x higher throughput compared with a
state-of-the-art GPU, with a 19W peak power consumption