帮忙翻译 MySQL 软件里的英文

Posted

tags:

篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了帮忙翻译 MySQL 软件里的英文相关的知识,希望对你有一定的参考价值。

我向看懂这些意思 清帮我翻一下了 谢谢

Detailed Configuration
Standard Configuration

Developer Machine
Server Machine
Dedicated mysql Server Machine

Multifunctional Database
Transactional Database Only
Non-Transactional Database Only

Decision Support(DSS)/OLAP
Online Transaction Processing(OLTP)
Manual Setting

Enable TCP/IP Networking
Enable Strict Mode

Standard Character Set
Best Support For Multlingualism
Manual Selected Default Character Set/Collation

Install As Windows Service
Launch the MySQL Server automatically
Include Bin Directory in Windows PATH

Modify Security Settings

Ready to execute
Processing configuration
谢谢2位了,但是你们的有些不一样哦
投票解决

参考技术A Detailed Configuration
详细配置
Standard Configuration
标准配置
Developer Machine
开发设计
Server Machine
服务器
Dedicated MySQL Server Machine
专业MySql服务器

Multifunctional Database
多功能数据库
Transactional Database Only
仅处理数据库
Non-Transactional Database Only
费处理数据库
Decision Support(DSS)/OLAP ]
结果支持
Online Transaction Processing(OLTP)
在线事务处理
Manual Setting
手动调整
Enable TCP/IP Networking
TCP/IP网络可用
Enable Strict Mode
精确模式可用

Standard Character Set
标准字符集
Best Support For Multlingualism
多语言支持
Manual Selected Default Character Set/Collation
手选默认字符集
Install As Windows Service
作为Windows服务的安装
Launch the MySQL Server automatically
自动启动MySql服务器
Include Bin Directory in Windows PATH
在Windows 路径下 隐含二进制地址

Modify Security Settings
修改安全设置

Ready to execute
处理准备
Processing configuration
处理配置本回答被提问者采纳
参考技术B Detailed Configuration 详细参数
Standard Configuration 标准参数

Developer Machine 开发端
Server Machine 服务端
Dedicated MySQL Server Machine MySQL数据服务端

Multifunctional Database 多功能数据库
Transactional Database Only 仅处理事务数据库
Non-Transactional Database Only 非处理事务数据库

Decision Support(DSS)/OLAP 决策支持
Online Transaction Processing(OLTP) 在线事务处理
Manual Setting 人工设置

Enable TCP/IP Networking 支持TCP/IP 网络
Enable Strict Mode 支持约束模式

Standard Character Set 标准角色设置
Best Support For Multlingualism 多语言最佳支持
Manual Selected Default Character Set/Collation 手动选择默认角色设置

Install As Windows Service 装载Windows服务
Launch the MySQL Server automatically 自动启动MySQL服务
Include Bin Directory in Windows PATH 在Windows PATH 下包含Bin目录

Modify Security Settings 修改安全设置

Ready to execute 准备执行
Processing configuration 处理参数

帮忙翻译英文

There are two major considerations regarding the memory type for your application program. Since application memory is responsible for retaining a control program that will be run each day, volatility should be the prime consideration. With the loss of the program, the day’s production may be delayed or forfeited. The affects are usually costly. A second concern should be the ease of altering the program when required. Ease in altering the memory is important since the memory is ultimately involved in any interaction that goes on between you and the controller. This interaction begins with program generation and continues through with program changes, system startup, and ultimately on-line program changes.
The following discussions describe various types of memory and how their inherent characteristics affect the manner in which programmed instructions are retained or altered within the PLC. The unique needs of each application will dictate what type of memory is best suited.
Volatile memory types lose their programmed contents if all operating power is lost or removed. Like the onboard memory of personal computers, if a program file is loaded and power is lost or removed, the program will not be in the memory when power is restored. The program would have to be reloaded. With PLCs, however, volatile memories are supported by back-up batteries have operational lives of one year or more.
Nonvolatile memory types will retain their programmed contents even if operating power is completely lost. They require no type of backup. Examples of nonvolatile memory include storage media such as floppy disk, hard disk, and magnetic tape, all of which do not require power to maintain their programmed contents. However, nonvolatile memory types used in PLCs and discussed here are solid-state memories.

There are two major considerations regarding the memory type for your application program. Since application memory is responsible for retaining a control program that will be run each day, volatility should be the prime consideration. With the loss of the program, the day’s production may be delayed or forfeited. The affects are usually costly. A second concern should be the ease of altering the program when required. Ease in altering the memory is important since the memory is ultimately involved in any interaction that goes on between you and the controller. This interaction begins with program generation and continues through with program changes, system startup, and ultimately on-line program changes.
The following discussions describe various types of memory and how their inherent characteristics affect the manner in which programmed instructions are retained or altered within the PLC. The unique needs of each application will dictate what type of memory is best suited.
Volatile memory types lose their programmed contents if all operating power is lost or removed. Like the onboard memory of personal computers, if a program file is loaded and power is lost or removed, the program will not be in the memory when power is restored. The program would have to be reloaded. With PLCs, however, volatile memories are supported by back-up batteries have operational lives of one year or more.
Nonvolatile memory types will retain their programmed contents even if operating power is completely lost. They require no type of backup. Examples of nonvolatile memory include storage media such as floppy disk, hard disk, and magnetic tape, all of which do not require power to maintain their programmed contents. However, nonvolatile memory types used in PLCs and discussed here are solid-state memories.

有两个主要因素对内存类型为您的应用程序。由于应用程序内存负责保留一个控制程序,将运行,每天的波动应该是首要考虑。随着损失的计划,当天的生产可能会延迟或没收。的影响通常是昂贵的。第二个关注的应该是易于改变计划需要时。容易改变记忆是重要的,因为内存是最终参与任何互动接着你与控制器。这种互动程序代开始,并继续通过与计划的变更,系统启动,并最终在网上程序的变化。
下面的讨论,说明不同类型的内存,以及如何影响其固有的特点的方式,程序的指示,保留或改变的公司。的独特需要每个应用将决定什么样的内存最适合。
挥发性记忆体类型失去其方案的内容,如果所有的业务权力丢失或删除。如板载内存的个人电脑,如果一个程序文件被加载和电力丢失或删除,该程序将无法在内存动力恢复时。该计划将不得不重新载入。与PLC的,但是,性存储器支持的后备电池业务生活一年或一年以上。
非易失性内存类型将保留其方案的内容,即使经营权完全丧失。他们不需要的备份类型。非易失性存储器的例子包括存储介质如软盘,硬盘,磁带,所有这一切并不需要电力维持其方案的内容。但是,非易失性内存类型中使用的PLC和这里讨论固态存储器。
参考技术A 有两个主要因素对内存类型为您的应用程序。由于应用程序内存负责保留一个控制程序,将运行,每天的波动应该是首要考虑。随着损失的计划,当天的生产可能会延迟或没收。的影响通常是昂贵的。第二个关注的应该是易于改变计划需要时。容易改变记忆是重要的,因为内存是最终参与任何互动接着你与控制器。这种互动程序代开始,并继续通过与计划的变更,系统启动,并最终在网上程序的变化。

下面的讨论,说明不同类型的内存,以及如何影响其固有的特点的方式,程序的指示,保留或改变的公司。的独特需要每个应用将决定什么样的内存最适合。

挥发性记忆体类型失去其方案的内容,如果所有的业务权力丢失或删除。如板载内存的个人电脑,如果一个程序文件被加载和电力丢失或删除,该程序将无法在内存动力恢复时。该计划将不得不重新载入。与PLC的,但是,性存储器支持的后备电池业务生活一年或一年以上。

非易失性内存类型将保留其方案的内容,即使经营权完全丧失。他们不需要的备份类型。非易失性存储器的例子包括存储介质如软盘,硬盘,磁带,所有这一切并不需要电力维持其方案的内容。但是,非易失性内存类型中使用的PLC和这里讨论固态存储器。本回答被提问者采纳
参考技术B 有两个主要因素对你的记忆类型的应用程序。自从申请内存负责保持控制程序将运行的每一天,波动性应考虑。失败的程序,每天的生产可能延误或丧失。通常是昂贵的影响。另一个担忧应该轻松的改变计划。轻松的在改变记忆的记忆是很重要的,因为最终参与互动,走在你和控制器。这种交互程序生成并继续开始与程序的变化,通过系统启动,并最终在线程序的变化。
以下讨论描述各种类型的记忆和如何影响他们的内在特性的方式保留或更改程序指令在可编程序控制器(PLC)。每个应用程序的特殊需求,将决定什么类型的记忆是最适合。
易失性存储器类型失去他们所有的操作程序的内容如电力丢失或删除。像宇宙飞船上的记忆的个人电脑,如果一个程序文件中载入与电力丢失或移除时,这个程序将不会在我们的记忆中,当电力恢复。该计划将必须装。然而,与plc、挥发性记忆都是由后备电池运行生命的一年或更长。
非易失性存储器类型将保留他们的程序的内容,即使操作电源是完全迷失了方向。他们要求任何类型的备份。非易失性存储器的例子包括存储媒体,如软盘,硬盘,磁带,所有这一切都不需要电源,保持他们的程序的内容。然而,非易失性存储器类型用于plc和讨论的内容是固态的记忆。
参考技术C 你要翻译吗,就自己下载一个翻译软件吧,有道桌面词典

以上是关于帮忙翻译 MySQL 软件里的英文的主要内容,如果未能解决你的问题,请参考以下文章

英语翻译,高手帮忙

帮忙把部分简历翻译成英文,万分感谢,50分

100分请英语高手帮忙翻译一下 不要软件翻译粘帖的

求帮忙翻译论文摘要

请帮忙把中文简历翻译成英文简历 谢谢

帮忙翻译一段英语文字