用于可扩展物联网平台的快速UART和SPI协议

2018 6th International Conference on Information and Communication Technology (ICoICT) Pub Date : 2018-05-01 DOI:10.1109/ICOICT.2018.8528745

Rizka Reza Pahlevi, Aji Gautama Putrada S, M. Abdurohman

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引用次数: 2

摘要

本文提出了通用异步发送接收器(UART)和串行外设接口(SPI)协议的增强，以提高物联网(IoT)平台中的节点性能。在微控制器ATmega328中实现物联网上的UART通信协议具有串行硬件可扩展性的限制，因此它必须进行比特撞击，这可能会影响性能和缺乏速度。SPI需要改变SPI控制寄存器(SPICR)成为Slave Select，这可能会影响速度并且也有限制Slave Select。以前已经提出了许多方法来解决这个问题。然而，它们都不具有可扩展性和速度意识。该方法通过实现硬件环境，利用并行概念。通过一些实验，本研究成功地在FPGA上实现了UART，其速度比微控制器ATmega328快67.3%，可以达到4个UART。FPGA上的SPI Slave的速度比微控制器ATmega328快73.43%，并且能够扩展到两个SPI Slave。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fast UART and SPI Protocol for Scalable IoT Platform

This paper proposes the enhancement of Universal Asynchronous Transmitter Receiver (UART) and Serial Peripheral Interface (SPI) protocols for improving the node performance in the Internet of Things (IoT) platform. Implementation of UART communication protocol on IoT in microcontroller ATmega328 has limitation of Serial Hardware scalability so it must do bit banging which can affect performance and lack of speed. SPI requires change of SPI Control Register (SPICR) to become Slave Select which can affect speed and also have limited of Slave Select. There are many previous methods that have been proposed to solve this problem. However, none of them are scalable and speed aware. This proposed method uses parallelism concepts by implementing hardware environment. Through some experiments, this research succeeded to implement UART on FPGA where the speed is 67,3% faster than the microcontroller ATmega328 and is able to reach four UARTs. SPI Slave on FPGA has speed up to 73.43% faster than the microcontroller ATmega328 and is able to expand to two SPI Slaves.

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2018 6th International Conference on Information and Communication Technology (ICoICT)

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