| Summary: | 碩士 === 國立交通大學 === 資訊工程研究所 === 83 === FDDI 是一個以 ring 為架構,使用光纖作為傳輸介質,而能提供 100
Mbps 速度,並連結各種電腦與週邊設備的通訊網路系統。FDDI MAC 層的
通訊協定中的優先權架構支援兩種類型的服務:同步與非同步。同步的訊
息必須要能夠保證即時的資料傳送,而非同步的訊息必須要有合理效能和
使用率。在這篇論文中,我們使用平均值方式,由小而大地改變進入網路
的訊息流量,以分析同步和非同步訊息的效能。利用這種分析方式,也能
夠導出平均 token 繞轉 FDDI 網路一圈的時間。本分析含蓋三個部份:
“單一優先權、對稱系統”、“多重優先權、對稱系統”與“多重優先權
、非對稱系統”。最後,我們將討論電腦模擬的結果,並與分析的結論作
比較。
FDDI network provides an 100 Mbps communication system to
interconnect computers and peripheral equipments using
fiber optics as the transmission medium in a ring
configuration. The FDDI MAC priority mechanism supports two
classes of services: synchronous and asynchronous. The
synchronous traffic must guarantee a real time transmission,
and the asynchronous traffic should have a reasonable
throughput and channel utilization. In this thesis, we use a
mean value approach to analyze the mean throughput of both
synchronous and asynchronous traffics while the message
arrival rate is varying from a very low value to a high
value. Using this analysis, we can also derive the mean
token rotation time. This analysis is composed of three parts:
"single priority, symmetric system", "multiple priority,
symmetric system" and "multiple priority, asymmetric system".
Lastly, the simulation results is presented, and it will be
compared with our analysis results.
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