例句與造句

1. Schedule algorithms are variable according to different switch architectures . so this paper will introduce some obs technices and come up with some improved ways
   因此本文以下分將介紹obs現(xiàn)有的一些技術(shù),并提出了幾種改進obs性能的方法。
2. Researchers have been continually exploring new switch architectures . as a core technology of terabit and petabit router , ultra - scalable switch architectures are needed to meet the requirement of capacity , scalability and reliability
   為了滿足電信級路由交換設備大容量、易擴張、高度可靠的性能要求,希望對其核心關(guān)鍵技術(shù)? ?超大容量交換結(jié)構(gòu)研究有所突破。
3. This paper introduces a new ip virtual switches architecture providing multiple service : ipvsw . based on the virtual forwarding architecture by resource partition , the ipvsw can provide flexible packet processing and forwarding control that adapt to applications
   本文介紹了ip多服務虛擬交換機結(jié)構(gòu)( ipvsw ) ，該結(jié)構(gòu)基于資源分割能夠提供與多類應用相適應的、靈活的報文處理和轉(zhuǎn)發(fā)控制服務。
4. First , this paper presents some obs core node switch architectures . especially , analyses different switch and conflicting ability with different switch architectures . then this paper research a new switch architecture , . with simulation results , it compare with other artchitecture ’ s performances
   首先,本文介紹了現(xiàn)有的幾種obs核心節(jié)點交換結(jié)構(gòu),主要分析了不同twc 、 fdl配置和不同交換矩陣所組成的交換結(jié)構(gòu)在交換能力和沖突情況上的不同。
5. How to intelligently implemented a flow control mechanism while maximizing the memory utilization and system performance , how to minimize link congestion and prevent buffer overflow and how to maintain packets " orders if they are delivered over multiple paths are the challenging design issues related to designing the ultra - scalable switch architectures
   基于benes拓撲的多平面多路徑(多級)超大容量交換結(jié)構(gòu)在cisco公司最新推出的crs - 1 ( carrierroutingsystem )系統(tǒng)中得到運用,最高可支持92tbps交換容量。
6. It's difficult to find switch architecture in a sentence. 用switch architecture造句挺難的
7. Compared to the wavelength routing ( wr ) and optical packet switching ( ops ) networks , optical burst switching ( obs ) is believed to be more attractive technical solution for future . as the performance of obs depend on both switch architecture and schedule algorithm . switch architecture consist of not only switch matrix but also fdl ( fiber delay line ) and twc ( tunable wavelength converter )
   其中交換結(jié)構(gòu)除了交換矩陣本身,還需要大量的可調(diào)波長變換器( tunablewavelengthconverter ,簡稱twc )和光纖延遲線( fiberdelayline ,簡稱fdl ) ,因此不同的fdl和twc配置造成交換結(jié)構(gòu)具有不同的交換能力,對應的調(diào)度算法也不盡相同。
8. Confronted with the explosion of communication traffic in internet , the communication networks architects make great efforts to provide scalability for switch architecture in the current routers and switches . single - stage switches are hard to implement in scalable switches for the limitation of pins and complexities of ic design
   交換網(wǎng)絡處理的業(yè)務流量增長要求交換網(wǎng)絡的容量需要不時地進行升級,單級交換機由于受芯片的管腳和ic實現(xiàn)復雜度的限制,無法應用于大規(guī)?？蓴U展交換機,因此,采用由多個交換單元構(gòu)成的多級網(wǎng)絡是目前常用的解決方案。
9. Finding a feasible and efficient load balanced strategy for the ultra - scalable multi - plane multi - stage switch architecture is a top of nowadays research . the dissertation proposes a two - stage load balanced scheme for the ultra - scalable multi - plane multi - stage switch architecture based self - routing and non - blocking permutation benes network . the approach uses reasonable and efficient logical queueing strategy and schedule scheme in ingress traffic managers and switch planes to realize the two - stage load balancing of ip traffic which for different destination addresses
   本文提出一種適用于基于完全可重排無阻塞benes拓撲構(gòu)建的多平面多路徑(多級)超大容量交換結(jié)構(gòu)的兩級負載均衡策略,通過在輸入流量管理器和benes交換平面內(nèi)部實施合理而高效的隊列組織調(diào)度方法,有效實現(xiàn)了基于不同目的地址的ip流量在兩個層次上的負載均衡,較好彌補了ciscocrs - 1系統(tǒng)在平面選擇和中間級選擇時所采用的簡單隨機或輪循方案的不足。