谁可以帮我翻译下有语音识别的一个外文文章？（4）

展开全部 好好读读，能读懂的To use VMPS, you first must create a VMPS database and store it on1 a TFTP server. The VMPS parser is line based. Start each entry in the file on1 a new line. The example at the end of this section corresponds to the information described below. The VMPS database can have up to five sections: Section 1, Global settings, lists the settings for the VMPS domain name, security mode, fallback VLAN, and the policy for VMPS and VTP domain name mismatches. Begin the configuration file with the word ＂VMPS,＂ to prevent other types of configuration files from incorrectly being read by the VMPS server. Define the VMPS domain. The VMPS domain should correspond to the VTP domain name configured on1 the switch. Define the security mode. VMPS can operate in open or secure mode. If you set it to open mode, VMPS returns an access denied response for an unauthorized MAC address and returns the fallback VLAN for a MAC address not listed in the VMPS database. In secure mode, VMPS shuts down the port for a MAC address that is unauthorized or that is not listed in the VMPS database. (Optional) Define a fallback VLAN. Assign the fallback VLAN is assigned if the MAC addresses of the connected host is not defined in the database. In the example at the end of this section, the VMPS domain name is WBU, the VMPS mode is set to open, the fallback VLAN is set to the VLAN default, and if the VTP domain name does match the VMPS domain name, then VMPS sends an access denied response message. Section 2, MAC addresses, lists MAC addresses and authorized VLAN names for each MAC address. Enter the MAC address of each host and the VLAN name to which each should belong. Use the --NONE-- keyword as the VLAN name to deny the specified host network connectivity. You can enter up to 21,051 MAC addresses in a VMPS database file for the Catalyst 2948G switch. In the example at the end of this section, MAC addresses are listed in the MAC table. Notice that the MAC address fedc.ba98.7654 is set to --NONE--. This setting explicitly denies this MAC address from accessing the network. Section 3, Port groups, lists groups of ports on1 various switches in your network that you want grouped together. You use these port groups when defining VLAN port policies. Define a port group name for each port group; then list all ports you want included in the port group. A port is identified by the IP address of the switch and the module/port number of the port in the form mod_num/port_num. Ranges are not allowed for the port numbers. Use the all-ports keyword to specify all the ports in the specified switch. The example at the end of this section has two port groups: WiringCloset1 consists of the two ports: port 3/2 on1 the VMPS client 198.92.30.32 and port 2/8 on1 the VMPS client 172.20.26.141 Executive Row consists of three ports: port 1/2 and 1/3 on1 the VMPS client 198.4.254.222, and all ports on1 the VMPS client 198.4.254.223 Section 4, VLAN groups, lists groups of VLANs you want to associate together. You use these VLAN groups when defining VLAN port policies. Define the VLAN group name; then list each VLAN name you want to include in the VLAN group. You can enter a maximum of 256 VLANS in a VMPS database file for the Catalyst 2948G switch. The example at the end of this section has the VLAN group Engineering, which consists of the VLANs hardware and software. Section 5, VLAN port policies, lists the VLAN port policies, which use the port groups and VLAN groups to further restrict access to the network. You can configure a restricted access using MAC addresses and the port groups or VLAN groups. The example at the end of this section has three VLAN port policies specified. In the first VLAN port policy, the VLAN hardware or software is restricted to port 3/2 on1 the VMPS client 198.92.30.32 and port 2/8 on1 the VMPS client 172.20.23.141. In the second VLAN port policy, the devices specified in VLAN Green can connect on1ly to port 4/8 on1 the VMPS client 198.92.30.32. In the third VLAN port policy, the devices specified in VLAN Purple can connect to on1ly port 1/2 on1 the VMPS client 198.4.254.22 and the ports specified in the port group Executive Row. The following example shows a sample VMPS database configuration file. !Section 1: GLOBAL SETTINGS !VMPS File Format, version 1.1 ! Always begin the configuration file with ! the word ＂VMPS＂ ! !vmps domain ! The VMPS domain must be defined. !vmps mode {open | secure} ! The default mode is open....

我的电脑刚重装过系统后速度就特别慢,是什么原因造成的啊？

一、软件篇 1、设定虚拟内存 硬盘中有一个很宠大的数据交换文件，它是系统预留给虚拟内存作暂存的地方，很多应用程序都经常会使用到，所以系统需要经常对主存储器作大量的数据存取，因此存取这个档案的速度便构成影响计算机快慢的非常重要因素！一般Windows预设的是由系统自行管理虚拟内存，它会因应不同程序所需而自动调校交换档的大小，但这样的变大缩小会给系统带来额外的负担，令系统运作变慢！有见及此，用户最好自定虚拟内存的最小值和最大值，避免经常变换大小。

要设定虚拟内存，在“我的电脑”上按右键选择“属性”，在“高级”选项里的“效能”的对话框中，对“虚拟内存”进行设置。

3、检查应用软件或者驱动程序 有些程序在电脑系统启动会时使系统变慢。

如果要是否是这方面的原因，我们可以从“安全模式”启动。

因为这是原始启动，“安全模式”运行的要比正常运行时要慢。

但是，如果你用“安全模式”启动发现电脑启动速度比正常启动时速度要快，那可能某个程序是导致系统启动速度变慢的原因。

4、桌面图标太多会惹祸 桌面上有太多图标也会降低系统启动速度。

Windows每次启动并显示桌面时，都需要逐个查找桌面快捷方式的图标并加载它们，图标越多，所花费的时间当然就越多。

同时有些杀毒软件提供了系统启动扫描功能，这将会耗费非常多的时间，其实如果你已经打开了杀毒软件的实时监视功能，那么启动时扫描系统就显得有些多余，还是将这项功能禁止吧！ 建议大家将不常用的桌面图标放到一个专门的文件夹中或者干脆删除！ 5、ADSL导致的系统启动变慢 默认情况下Windows XP在启动时会对网卡等网络设备进行自检，如果发现网卡的IP地址等未配置好就会对其进行设置，这可能是导致系统启动变慢的真正原因。

这时我们可以打开“本地连接”属性菜单，双击“常规”项中的“Internet协议”打开“TCP/IP属性”菜单。

将网卡的IP地址配置为一个在公网（默认的网关是192.168.1.1）中尚未使用的数值如192.168.1.X,X取介于2~255之间的值，子网掩码设置为255.255.255.0，默认网关和DNS可取默认设置。

6、字体对速度的影响 虽然 微软 声称Windows操作系统可以安装1000~1500种字体，但实际上当你安装的字体超过500 种时，就会出现问题，比如：字体从应用程序的字体列表中消失以及Windows的启动速度大幅下降。

在此建议最好将用不到或者不常用的字体删除，为避免删除后发生意外，可先进行必要的备份。

7、删除随机启动程序 何谓随机启动程序呢？随机启动程序就是在开机时加载的程序。

随机启动程序不但拖慢开机时的速度，而且更快地消耗计算机资源以及内存，一般来说，如果想删除随机启动程序，可去“启动”清单中删除，但如果想详细些，例如是QQ、popkiller 之类的软件，是不能在“启动”清单中删除的，要去“附属应用程序”，然后去“系统工具”，再去“系统信息”，进去后，按上方工具列的“工具”，再按“系统组态编辑程序”，进去后，在“启动”的对话框中，就会详细列出在启动电脑时加载的随机启动程序了！XP系统你也可以在“运行”是输入Msconfig调用“系统配置实用程序”才终止系统随机启动程序，2000系统需要从XP中复制msconfig程序。

8、取消背景和关闭activedesktop 不知大家有否留意到，我们平时一直摆放在桌面上漂亮的背景，其实是很浪费计算机资源的！不但如此，而且还拖慢计算机在执行应用程序时的速度！本想美化桌面，但又拖慢计算机的速度，这样我们就需要不在使用背景了，方法是：在桌面上按鼠标右键，再按内容，然后在“背景”的对话框中，选“无”，在“外观”的对话框中，在桌面预设的青绿色，改为黑色......至于关闭activedesktop，即是叫你关闭从桌面上的web画面，例如在桌面上按鼠标右键，再按内容，然后在“背景”的对话框中，有一幅背景，名为Windows XX，那副就是web画面了！所以如何系统配置不高就不要开启。

10、把Windows变得更苗条 与DOS系统相比，Windows过于庞大，而且随着你每天的操作，安装新软件、加载运行库、添加新游戏等等使得它变得更加庞大，而更为重要的是变大的不仅仅是它的目录，还有它的 注册表 和运行库。

因为即使删除了某个程序，可是它使用的DLL文件仍然会存在，因而随着使用日久，Windows的启动和退出时需要加载的DLL动态链接库文件越来越大，自然系统运行速度也就越来越慢了。

这时我们就需要使用一些彻底删除DLL的程序，它们可以使Windows恢复苗条的身材。

建议极品玩家们最好每隔两个月就重新安装一遍Windows，这很有效。

11、更改系统开机时间 虽然你已知道了如何新增和删除一些随机启动程序，但你又知不知道，在开机至到进入Windows的那段时间，计算机在做着什么呢？又或者是，执行着什么程序呢？那些程序，必定要全部载完才开始进入Windows，你有否想过，如果可删除一些不必要的开机时的程序，开机时的速度会否加快呢？答案是会的！想要修改，可按＂开始＂，选＂执行＂，然后键入win.ini，开启后，可以把以下各段落的内容删除，是删内容，千万不要连标...

斯诺克的进球顺序和进的球得分？

击球必须遵循“一红一彩”的顺序。

当一击后，由于死球的阻碍使得对手不能够击打主球使其同时直线完全通过任意球的两边，即称为斯诺克。

打自由球时，彩球算1分，单杆满分为147分。

正常情况下，每个红球为1分，各种彩球分值从2至7分，黄球2分，绿球3分，咖啡球4分，蓝球5分，粉球6分，黑球7分。

跪求百灵达DEQ

你看看是不是：Ultra high-resolution processor for all EQ, RTA and dynamic applications, especially for PA and audiophile mastering 4 concurrently selectable EQ modules (31-band graphic EQ, 10-band parametric EQ, Feedback Destroyer plus three Dynamic EQs per stereo channel) Flexible Compressor/Expander function with Peak Limiter per stereo channel as well as additional Stereo Imager and Stereo Delay for delay line applications Unique VPQ (Virtual Paragraphic EQ) option allows parametric control of graphic EQs Ultra high-resolution 61-band real-time FFT Analyzer with additional auto EQ function for room and loudspeaker equalization Ultra high-resolution 61-band real-time FFT Analyzer with additional auto EQ function for room and loudspeaker equalization Multi-functional level meters (peak/RMS, VU and SPL meter with dBA/dBC weighting via RTA mic input) 64 user memories for complete setups and/or individual module configurations Separate RTA mic/line input with phantom power, professional ...你看看是不是：Ultra high-resolution processor for all EQ, RTA and dynamic applications, especially for PA and audiophile mastering 4 concurrently selectable EQ modules (31-band graphic EQ, 10-band parametric EQ, Feedback Destroyer plus three Dynamic EQs per stereo channel) Flexible Compressor/Expander function with Peak Limiter per stereo channel as well as additional Stereo Imager and Stereo Delay for delay line applications Unique VPQ (Virtual Paragraphic EQ) option allows parametric control of graphic EQs Ultra high-resolution 61-band real-time FFT Analyzer with additional auto EQ function for room and loudspeaker equalization Ultra high-resolution 61-band real-time FFT Analyzer with additional auto EQ function for room and loudspeaker equalization Multi-functional level meters (peak/RMS, VU and SPL meter with dBA/dBC weighting via RTA mic input) 64 user memories for complete setups and/or individual module configurations Separate RTA mic/line input with phantom power, professional wordclock input and MIDI connections for full remote control, preset dumps and system updates Ultra high-quality AKM?? 24-bit/96 kHz A/D- and D/A converters (113 dB dynamic range) Open architecture allowing future software updates via MIDI Two high-performance 32/40-bit floating-point SHARC?? digital signal processors for ultimate sonic resolution Balanced inputs and servo-balanced outputs with gold-plated XLR connectors, stereo aux output, AES/EBU and S/PDIF inputs and outputs (XLR and optical) Internal switch-mode power supply for maximum flexibility (100 - 240 V~), noise-free audio, superior transient response and lowest possible power consumption Conceived and designed by BEHRINGER Germany

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