在我们的应用程序中,用户输入的日期和时间被连接成一个字符串,转换成字节,然后被存储。
In our application, the date and time entered by the user are concatenated into a string, converted into bytes, and stored.
如果是这样,则运行上面所述的racluster命令,并且将把IP地址和该地址的所有连接的关联字节计数记录到%hosts散列中。
If so, the racluster command described above is run, and the IP address and associated byte count for all connections to that address is recorded in the % hosts hash.
无可厚非的,电缆连接可以使速度或超过50千字节。
Sure, he could get 650 kilobytes a second or more from a cable connection.
例如,一个移动员工尝试通过一个较慢的Internet连接下载数百兆字节的内容,仅仅是为了将应用程序连接到目标DB 2数据服务器。
For example, consider a mobile employee with a slow Internet connection trying to download hundreds of megabytes to simply connect an application to a target DB2 data server.
在这个级别,您考虑的是通过从应用程序到云的连接传送的实际字节。
At this level, you are concerned with the actual bytes that go across the connection from the application to the cloud.
在判断并发连接数量以及每个前端服务器每秒可以处理的字节数时,网络经验是很重要的。
Here, networking experience is crucial in determining the number of concurrent connections, as well as the number of sustained bytes per second a front-line server can handle.
DBI让我们可以使用LongReadLen连接属性来设置每次fetch可以检索的最大字节数。
DBI lets you set a maximum number of bytes to retrieve on each fetch using the LongReadLen connection attribute.
一旦客户端与服务器建立连接,可通过使用字节缓存的通道来执行读写操作,如清单1所示。
Once the client is connected to the server, reads and writes can be performed via the channels using byte buffers, as shown in Listing 1.
结合使用rasort和head 命令将按照传输字节数列出前10 个连接。
rasort combined with head will produce a list of the top 10 connections by the number of bytes transferred.
每一帧是包在一个包,黏贴几个字节的信息用于建立连接和标记帧开始的地方。
Each frame is wrapped in a packet, which affixes several bytes of information used in establishing the connection and marking where the frame starts.
这个时间段是网络的时间,主要包含了TCP连接的时间、发送请求的时间和从服务器接收到的第一个字节。
It includes TCP connection time, the time to send the request and the time taken to get the first byte of the response message.
写入重新开始区域时,字节数组段中的数据将连接成单个字节数组,以便以记录形式追加。
When a restart area is written, the data in the byte array segments are concatenated into a single byte array for appending as the record.
为缩小采用CRT显示器的医疗仪器的体积,我们将LCD与8位微机连接,用8K字节汇编语言设计程序,使LCD的矩阵点与RAM数据相关。
LCD, in place of traditional CRT monitor, is connected with an8-bit MCPU. The program in8K-bytes assemble language can correlate LCD's matrix dot with the data of RAM.
本文主要阐述了子网连接保护(SNCP)的工作原理及J1字节的详细定义,并对J1字节在SNCP保护中的处理方法进行了具体分析。
The paper briefly introduces the principle of sub-network connection protection and the definition of J1 byte. On the ground of that, analyzes the application of J1 byte in the SNCP.
如果服务器预计处理非常高的一些并行的客户,服务器可以张贴一个零字节就得到每个连接。
If a server anticipates handling a very high number of concurrent clients, the server can post a single zero byte receive on each connection.
字节数组段中的数据将连接成单个字节数组,以便以记录形式追加。
The data in the byte array segments will be concatenated into a single byte array for appending as the record.
该算法首先搜索得到与查询关键字匹配的关键字节点,再由这些关键字节点的中心节点将它们连接成子图。
This algorithm firstly searches for the matching keyword nodes of the query keywords, and then Bridges these keyword nodes through the central node of them to construct the subgraph.
该算法首先搜索得到与查询关键字匹配的关键字节点,再由这些关键字节点的中心节点将它们连接成子图。
This algorithm firstly searches for the matching keyword nodes of the query keywords, and then Bridges these keyword nodes through the central node of them to construct the subgraph.
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