A digital 3D TCAM accelerator for the inference phase of Random Forest
Journal
Proceedings - Design Automation Conference
Journal Volume
2023-July
ISBN
9798350323481
Date Issued
2023-01-01
Author(s)
Abstract
Random forest is a popular ensemble machine-learning algorithm for classification and regression tasks. However, the irregular tree shapes and non-deterministic memory access patterns make it hard for the current von Neumann architecture to handle random forest efficiently. This paper proposes a digital 3D TCAM-based accelerator for the random forest, adopting the idea of processing-in-memory (PIM) to reduce data movement. By utilizing this accelerator, we propose a TCAM-based approach to provide real-time inference with low energy consumption, making it suitable for edge or embedded environments. In the experiments, the proposed approach achieves an average of 3.13 times higher throughput with 22 times more energy saving than the GPU approach.
SDGs
Type
conference paper