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设备复制
相关语句
  device replication
     Research on Journal Mechanism of Device Replication System
     设备复制系统的日志机制研究
短句来源
     Device Replication System(DRS) adopts the Replication technology to realize Disaster Recovery. Among all the components of DRS,Journal Mechanism is the core and foundation.
     设备复制系统采用数据复制技术实现数据容灾,而日志机制是整个系统的核心和基础。
短句来源
  “设备复制”译为未确定词的双语例句
     In experiment,we used the 1.6 m length of exposure available track to replicate 2.0 m length grating,and its maximal linearity error is ±17.0 μm.
     实验中,利用导轨有效行程为1.6m的曝光设备复制出测长为2.0 m的光栅尺,其最大线性误差为±17.0μm,完全满足使用要求。
短句来源
     Forwarding the data copy to all the network device interfaces where requests were received, it can make data transfer to all the receivers throughout the Internet with only one copy in each link.
     有别于单播点到点的单一路径数据传输,组播通过网络上的路由/交换设备复制数据,使得一份数据可以同时发送给多个接收者。
短句来源
     Gamut mapping is a component of any color reproduction system and its task is to assign colors in a target device to colors from a source device.
     由于各种颜色设备能表现的颜色范围 ,即色域各不相同 ,用一个设备复制另一个设备的颜色时 ,可能无法原样再现。
短句来源
     It's proved by prototype experiments that the Journal Mechanism is realized well in DRS,which ensures data replication.
     原型实验表明,该日志机制在设备复制系统得到了较好实现,为数据复制提供了保障。
短句来源
  相似匹配句对
     Research on Journal Mechanism of Device Replication System
     设备复制系统的日志机制研究
短句来源
     New Equipment of Professional Image Reproduction
     新一代专业图像复制设备
短句来源
     THE REPLICATION OF CHROMOSOME
     染色体的复制
短句来源
     Used Equipment
     二手设备
短句来源
     BEAUTIFUL COPY
     完美复制
短句来源
查询“设备复制”译词为用户自定义的双语例句

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Gamut mapping is a component of any color reproduction system and its task is to assign colors in a target device to colors from a source device. However, the gamut of colors reproducible on different devices are from each other greatly, and this would result in that some original colors can not be fully reproduced on the reproductions. Thus color mapping is a necessity when reproducing a color(or color image). The overview presented here pays emphasis on various color mapping algorithms and their effects based...

Gamut mapping is a component of any color reproduction system and its task is to assign colors in a target device to colors from a source device. However, the gamut of colors reproducible on different devices are from each other greatly, and this would result in that some original colors can not be fully reproduced on the reproductions. Thus color mapping is a necessity when reproducing a color(or color image). The overview presented here pays emphasis on various color mapping algorithms and their effects based on a literature survey conducted.

由于各种颜色设备能表现的颜色范围 ,即色域各不相同 ,用一个设备复制另一个设备的颜色时 ,可能无法原样再现。为了尽可能减少这种颜色失真 ,在复制前需进行设备间的色域映射操作。本文举例介绍了当前颜色复制系统中的色域映射技术和算法 ,分析比较了各种方法及色域映射中的相关问题

Device Replication System(DRS) adopts the Replication technology to realize Disaster Recovery.Among all the components of DRS,Journal Mechanism is the core and foundation.Based on analyzing the Journal Mechanism of File System and Database System,this paper presents a new journal mechanism for DRS.Firstly,the characters of DRS are introduced,and then the requirements and principles to design the Journal Mechanism are described the organization of the Journal and the approach to create the Journal and deal with...

Device Replication System(DRS) adopts the Replication technology to realize Disaster Recovery.Among all the components of DRS,Journal Mechanism is the core and foundation.Based on analyzing the Journal Mechanism of File System and Database System,this paper presents a new journal mechanism for DRS.Firstly,the characters of DRS are introduced,and then the requirements and principles to design the Journal Mechanism are described the organization of the Journal and the approach to create the Journal and deal with Journal Overflow is discussed in the second section.Thirdly,this paper stresses how to access and revise the Journal.It's proved by prototype experiments that the Journal Mechanism is realized well in DRS,which ensures data replication.

设备复制系统采用数据复制技术实现数据容灾,而日志机制是整个系统的核心和基础。本文在分析借鉴文件系统和数据库系统日志的基础上,提出了一个满足设备复制系统特点和设计要求的日志机制,并重点围绕日志的组织结构、生成方式、访问方式以及溢出、修正等特殊情况的处理方法进行了论述。原型实验表明,该日志机制在设备复制系统得到了较好实现,为数据复制提供了保障。

Objective To observe alternation of renal cortex microcirculation(RCM) after high-voltage electrical contact injuried (HECI) rabbits to study its regularity and explore the pathophsiological mechanism. Methods 20 adult rabbits were randomly divided into experiment group and control group, then reproduce animal model(voltage 10000V, current 1.85±0.25A and the electric shock time 5sec), then observe their RCM by WX-9B microscope in specific time points (0?0.5?1.0?2.0?4.0?6.0?8.0 hours after HECI). Results In contrast...

Objective To observe alternation of renal cortex microcirculation(RCM) after high-voltage electrical contact injuried (HECI) rabbits to study its regularity and explore the pathophsiological mechanism. Methods 20 adult rabbits were randomly divided into experiment group and control group, then reproduce animal model(voltage 10000V, current 1.85±0.25A and the electric shock time 5sec), then observe their RCM by WX-9B microscope in specific time points (0?0.5?1.0?2.0?4.0?6.0?8.0 hours after HECI). Results In contrast with the control group, after HECI, capillary density decreased and spasm occurred. The capillary has the capsular dilatation 3 hours after HECI, the exsudation of capillary becomes significant 4 hours after HECI, the hemorrhage of capillary also becomes significant 6 hours after HECI, within 1 to 8 hours after HECI, the capillary has the tendency of dilatation. Conclusions After the rabbits were injured by high-voltage electric , microcirculation disorder happened.

目的探讨电烧伤早期肾皮质微循环(RCM)的动态变化及其发生机制。方法将家兔分为高压电烧伤组(实验组)和假电烧伤组(对照组),每组各10只,采用实验高压电击设备复制家兔高压电烧伤动物模型[电压1万伏,电击时间5s,电流强度(1.85±0.25)A],应用WX-9B型多部位微循环显微镜观测实验组和对照组电烧伤前后即刻、电击后0.5、1、2、4、6、8h时肾皮质微血管管径、密度、囊状扩张、微血管渗出和出血的改变。结果与对照组及电烧伤前比较,电烧伤即刻,微血管密度降低,血管痉挛,微血管在伤后3h出现囊状扩张,在伤后4.5h渗出明显,伤后6h出血严重,且先有渗出,后再有出血。结论高压电烧伤导致肾皮质微循环形态、流态及管周状态出现紊乱。

 
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