光频收发信机制及其在计算机中的应用

null 李奕权; Lee Lung 郑利龙

光频收发信机制及其在计算机中的应用

Translated title of the contribution: Optical Tranceiver Mechanism and Its Application in Computer

李奕权^*, 郑利龙

^*Corresponding author for this work

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

Clock speed is the main aim to increase the efficiency of a Von-Neumann machine. However, it is more important to let more CPUs work together in a multi-processor environment. Bandwidth is the bottle-net for chips communication in high performance computing. This paper supposes a high speed backbone makes use of several neural nodes stacking them together to form a helical spinal. Hundreds of chips are connected to form a group via a network formed by integration of buses. This provides a skeleton for multiprocessors to have parallel processing. Further more, laser is supposed to be the transmitting media inside the light nervous to simply the network structure form exponential to linear increase with the number of terminals.

Translated title of the contribution	Optical Tranceiver Mechanism and Its Application in Computer
Original language	Chinese (Simplified)
Pages (from-to)	315-318, 334
Journal	计算机工程与科学
Volume	31
Issue number	A1 (总第13)
Publication status	Published - Oct 2009

Research Keywords

高性能计算
带宽
扇出
相干光
网络复杂性
high performance computing
fan out
coherence light
Network Complexity

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title = "光频收发信机制及其在计算机中的应用",

abstract = "冯诺曼机器以提高处理器频率增强性能，多处理器环境当中的系统性能决定于使更多处理器协同工作。通信带宽是高性能计算系统的首要瓶颈。本文提出一种芯片间通信的神经脊，把数以百计的芯片连接成一组网络，为多处理单元并行运算提供一个骨架。用相干的激光作为通信媒介，以垂直腔面的激光元件组成收发信机。相干光充分利用谐振线路放大器的特性提升通信的扇出，令芯片间的信息传递效率大大提高。使通信网络的复杂性从按通信端点数 n* (n＋1) 式上升，变为线性增加。",

keywords = "高性能計算, 帶寬, 扇出, 相干光, 網絡復雜性, 高性能计算, 带宽, 扇出, 相干光, 网络复杂性, high performance computing, fan out, coherence light, Network Complexity",

author = "李奕权 and 郑利龙",

year = "2009",

month = oct,

language = "繁体中文",

volume = "31",

pages = "315--318, 334",

journal = "计算机工程与科学",

issn = "1007-130X",

publisher = "國防科技大學計算機學院",

number = "A1 (总第13)",

}

TY - JOUR

T1 - 光频收发信机制及其在计算机中的应用

AU - 李奕权, null

AU - 郑利龙, null

PY - 2009/10

Y1 - 2009/10

N2 - 冯诺曼机器以提高处理器频率增强性能，多处理器环境当中的系统性能决定于使更多处理器协同工作。通信带宽是高性能计算系统的首要瓶颈。本文提出一种芯片间通信的神经脊，把数以百计的芯片连接成一组网络，为多处理单元并行运算提供一个骨架。用相干的激光作为通信媒介，以垂直腔面的激光元件组成收发信机。相干光充分利用谐振线路放大器的特性提升通信的扇出，令芯片间的信息传递效率大大提高。使通信网络的复杂性从按通信端点数 n* (n＋1) 式上升，变为线性增加。

AB - 冯诺曼机器以提高处理器频率增强性能，多处理器环境当中的系统性能决定于使更多处理器协同工作。通信带宽是高性能计算系统的首要瓶颈。本文提出一种芯片间通信的神经脊，把数以百计的芯片连接成一组网络，为多处理单元并行运算提供一个骨架。用相干的激光作为通信媒介，以垂直腔面的激光元件组成收发信机。相干光充分利用谐振线路放大器的特性提升通信的扇出，令芯片间的信息传递效率大大提高。使通信网络的复杂性从按通信端点数 n* (n＋1) 式上升，变为线性增加。

KW - 高性能計算

KW - 帶寬

KW - 扇出

KW - 相干光

KW - 網絡復雜性

KW - 高性能计算

KW - 带宽

KW - 扇出

KW - 相干光

KW - 网络复杂性

KW - high performance computing

KW - fan out

KW - coherence light

KW - Network Complexity

UR - https://tra.oversea.cnki.net/kcms/detail/detail.aspx?dbcode=CJFD&filename=JSJK2009S1090&dbname=CJFD2009

M3 - RGC 21 - Publication in refereed journal

SN - 1007-130X

VL - 31

SP - 315-318, 334

JO - 计算机工程与科学

JF - 计算机工程与科学

IS - A1 (总第13)

ER -

光频收发信机制及其在计算机中的应用

Abstract

Research Keywords

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