A Scalable All-Digital Near-Memory Computing Architecture for Edge AIoT Applications

A Scalable All-Digital Near-Memory Computing Architecture for Edge AIoT Applications

With the growing need to process large volumes of data, edge computing near data collection sources has become increasingly important. However, the resource constraints of edge devices require more efficient data processing techniques. Near-memory computing (NMC) presents an efficient solution, espe...

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Bibliographic Details
Main Authors: Masoud Nouripayam, Arturo Prieto, Joachim Rodrigues
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Access
Subjects:
Near-memory computing (NMC)
hardware accelerator
cache
microcontroller unit (MCU)
energy-efficiency
computational efficiency
Online Access:https://ieeexplore.ieee.org/document/11048466/
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Summary:With the growing need to process large volumes of data, edge computing near data collection sources has become increasingly important. However, the resource constraints of edge devices require more efficient data processing techniques. Near-memory computing (NMC) presents an efficient solution, especially for data-intensive applications, by enabling processing that is both energy-efficient and hardware optimized. This work introduces a platform-agnostic NMC architecture tailored for convolutional neural network (CNN) workloads, integrated into the shared cache memory subsystem of a microcontroller unit (MCU). An open-source RISC-V MCU is chosen as the target platform due to its flexibility and low-power architecture. The NMC co-processor, operating alongside the general-purpose RISC-V core, forms a multi-core system-on-chip that combines low hardware cost with high energy efficiency, while maintaining a high degree of flexibility. The proposed design offers a configurable architecture capable of processing a wide range of CNN models with a computational efficiency of 94%. For evaluation purposes, widely recognized CNN benchmark models are utilized, showing a performance of 96GOPS and an energy efficiency of 1828GOPS/W for 8-bit precision at 200MHz. These results represent a significant improvement over both highly customized state-of-the-art hardware accelerators and multi-core MCU solutions.
ISSN:2169-3536

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