摘要
随着计算机技术的不断发展,传统架构下的CPU处理能力已无法应对日益多样化的计算处理任务,新型异构计算体系也存在可提升的空间.分析了以"应用决定结构,结构决定效能"为理念,基于多维重构函数化结构与动态多变体运行机制的拟态计算(Mimicry Computing,MC)体系架构,利用FPGA硬件可编程、动态可重构和功耗低的特性,设计了一种基于FPGA的拟态计算服务器,并阐明了该服务器的核心电路设计与关键技术实现.
With the development of computer technology, the processing capability of CPU with traditional architecture cannot address the various computing tasks. There is still room for the performances of heterogeneous computing to be promoted. This study analyzes the idea of"applications make structures, structures make efficiencies", clarifies the conception of mimicry computing, which is based on multidimensional reconfiguration function and dynamic changeable operation system, and then uses the characteristics of programmable hardware, dynamic reconfiguration, and low power of FPGA to design a mimicry computing server which is based on FPGA, and also utilizes the core circuit and critical technology of this mimicry computing server.
作者
崔冰萌
倪明
凌幸华
CUI Bing-Meng, NI Ming, LING Xing-Hua(The Thirty-Second Institute of Chinese Electronic Technology Company, Shanghai 201800, Chin)
出处
《计算机系统应用》
2018年第4期219-225,共7页
Computer Systems & Applications
关键词
拟态计算
FPGA
多维重构
mimicry computing server
FPGA
multidimensional reconfiguration
