An architecture for globally-synchronous locally-asynchronous systems on FPGAs

机译：FPGA上全局同步本地异步系统的体系结构

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摘要

Taking advantage of synchronous and asynchronous paradigms, a new style of design called Globally Synchronous Locally Asynchronous (GSLA) has achieved very interesting results. In this paper, we propose a high-performance interface that allows the communication of synchronous to asynchronous to synchronous modules. Internally, the proposed interface comprises an asynchronous module. The GSLA design style is the most suitable one for FPGA (Field-Programmable Gate Array) platforms, because it facilitates the SoC (Systems-on-Chip) design. Through a case study, the “differential equation solver”, we show that the proposed interface presents a reduction of 33% in the processing time when compared with a synchronous design. The proposed interface lets you interact with other synchronous modules in a frequency up to 500 MHz.

机译：利用同步和异步范式，一种称为全局同步局部异步（GSLA）的新设计风格取得了非常有趣的结果。在本文中，我们提出了一种高性能的接口，该接口允许从同步到异步到同步模块的通信。在内部，建议的接口包括一个异步模块。 GSLA设计风格最适合用于FPGA（现场可编程门阵列）平台，因为它有助于SoC（片上系统）设计。通过案例研究，“微分方程求解器”，我们表明，与同步设计相比，所提出的接口可将处理时间减少33％。所建议的接口使您可以与其他同步模块以最高500 MHz的频率进行交互。

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来源
《Proceedings of the 2016 IEEE XXIII International Congress on Electronics, Electrical Engineering and Computing》|2016年|1-6|共6页
会议地点 Piura(PE)
作者
Duarte L. Oliveira; Lester A. Faria; Higor A. Delsoto; Kledermon Garcia;
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作者单位

Departamento de Eletrônica aplicada da Divisão de Engenharia Eletrônica Instituto Tecnológico de Aeronáutica – ITA São José dos Campos – São Paulo – Brazil;

Departamento de Eletrônica aplicada da Divisão de Engenharia Eletrônica Instituto Tecnológico de Aeronáutica – ITA São José dos Campos – São Paulo – Brazil;

Departamento de Eletrônica aplicada da Divisão de Engenharia Eletrônica Instituto Tecnológico de Aeronáutica – ITA São José dos Campos – São Paulo – Brazil;

Divisão de Sistemas Aeronáuticos do Instituto de Aeronáutica e Espaço – IAE Departamento do Centro Tecnológico de Aeronáutica São José dos Campos – São Paulo – Brazil;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Clocks; Field programmable gate arrays; Synchronization; Protocols; Hazards; Delays; Table lookup;

机译：时钟;现场可编程门阵列;同步;协议;危害;延迟;查表;

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专利

1. Accelerate system performance with hybrid multiprocessing & FPGAs: Multiprocessing is becoming a key differentiator for FPGA-based processor architectures [J] . DAN ISAACS, BRUCE KARSTEN, ED TREXEL Embedded Systems Europe . 2007,第86期

机译：借助混合多处理和FPGA来提高系统性能：多处理正成为基于FPGA的处理器架构的关键差异化因素
2. Flexible Architecture for FPGAs in Embedded Systems [J] . NASA Tech Briefs . 2012,第9期

机译：嵌入式系统中FPGA的灵活架构
3. New FPGAs Transform Real-Time Systems Architectures [J] . RTC . 2009,第2009期

机译：新的FPGA改变了实时系统架构
4. An architecture for globally-synchronous locally-asynchronous systems on FPGAs [C] . Duarte L. Oliveira, Lester A. Faria, Higor A. Delsoto, IEEE International Congress on Electronics, Electrical Engineering and Computing . 2016

机译：FPGA上全局同步本地异步系统的架构
5. Micronetwork based system-on-FPGA (SoFPGA) architecture. [D] . Al-Araje, Abdul-Nasser. 2005

机译：基于微网络的FPGA上系统（SoFPGA）架构。
6. Fault Injection Emulation for Systems in FPGAs: Tools Techniques and Methodology a Tutorial [O] . Óscar Ruano, Francisco García-Herrero, Luis Alberto Aranda, 2021

机译：FPGA中系统故障注射仿真：工具技术和方法教程
7. Programming Tools for Reconfigurable Computer Systems Based on VIRTEX-7 FPGAs with Using Soft-architectures [O] . 2015

机译：基于Virtex-7 FPGA的可重新配置计算机系统编程工具，使用软架构

An architecture for globally-synchronous locally-asynchronous systems on FPGAs

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