As each thread tries to write data for the first time, it tries to find an empty slot of the memory and marks it as busy.
当每个线程第一次尝试写入数据时,它会尝试寻找一个空的内存槽位,并将其标记为忙碌。
Any process can write data to a Shared memory region, and the data are readable and modified by other processes.
任何进程都可以向共享内存区域写入数据,并且数据可以由其他进程读取或修改。
In this mode, the Write operation is acknowledged after the data is stored on the local disk and mirrored to the peer node's memory.
在这种模式下,写操作是在数据存储到本地磁盘并镜像到对等节点内存后被确认的。
Special system calls, or requests to the UNIX kernel, allocate and free the memory and set permissions; common read and write operations put and get data from the region.
用特殊的系统调用(即对UNIX内核的请求)分配和释放内存并设置权限;通过一般的读写操作读写内存段中的数据。
While data binding isn't usually considered a persistence method, it effectively is just that: a way to take an XML document represented in memory and write it to a file.
虽然通常人们不会考虑使用数据绑定来实现持久化存储,但是它可以有效地实现:读取内存中表示的XML文档并将其写入文件。
Might not just retrieve the value of "property" from memory, but might involve a calculation that pulls data across a network, checks system status, and so on. Similarly, when I write.
可能不只是从内存检索“property”的值,而有可能涉及这样的计算:在网络上传送数据、检查系统状态,等等。
This allows the entire lookup table to be loaded into memory each time a user submits a request to read or write data.
在用户每次提交一个读写数据的请求时,这可以将要查询的整个表装入内存中。
The following code example shows how to read and write data using memory as a backing store.
下面的代码示例说明如何通过将内存用作备份来读取和写入数据。
To load the data into HSQLDB, it would only be necessary to write a Visitor that traversed the in-memory data structure and generated the appropriate INSERT statements for each entity to be stored.
要将数据装载到HSQLDB,只需编写一个Visitor 即可,该 Visitor 将遍历内存中的数据结构,并为每一个将要存储的实体生成相应的INSERT语句。
WebSphere eXtreme Scale uses loaders to read data from and write data to the database from the in-memory cache.
WebSphereeXtremeScale使用了加载器读取内存中缓存的数据,以及将数据写入到数据库中。
Data access (Advanced) : By partitioning the data model structure and converting DAOs to access directly the XAP In-Memory data Grid, read and write performance is improved.
数据存取(高级):通过划分数据模型结构和把DAO转换成直接访问XAP内存数据网格,改进读写性能。
Thus, a write-behind cache gives you memory speed for accessing data on all writes, and for all cache-hit reads, and has other benefits that you will see later.
因此,write - behind缓存在访问所有写入数据以及所有缓存命中读取时都能提供内存速度,而且还有一些其他好处,我们将在下文介绍。
Because most devices are separated from the CPU by a bus, which is much slower to send data across than it is to write to CPU registers or (cached) memory.
因为大多数设备是分开的CPU总线,慢得多的发送数据跨比写信给CPU寄存器或内存(缓存)。
To write data back into memory immediately after a destructive readout.
在经过破坏性读出之后,立即将数据重新写入存储器的操作。
Here I am using two different instances of same application to read write data from memory mapped file.
在这里我用两个相同的应用程序的不同实例来读写数据从内存映射文件。
The application calls a serializer "write" method to save the document, while a deserializer "read" method accesses the data store and recreates the original instance in memory.
在理想状况下,与记忆体之间进行的文件序列化和还原序列化程序对于应用程式而言应该是透明的。
Easy language custom data types to read and write source routine procedures combined with easy language to operate the memory file to achieve custom data type data read and write.
易语言自定义数据类型读写源码例程程序结合易语言内存文件的操作,实现自定义数据类型数据的读写。
In some systems, instructions can be stored in read-only memory while data memory generally requires read-write memory.
在一些系统中,指令可以存储在只读存储器中而数据存储则需要可读科协存储器。
The system select W78LE516 MCU and CPLD to construct the control circuit and use quickly read and write low power consumption, low-voltage external data memory CF card to save the signal.
系统选w 78le516单片机和CPLD来构造控制电路,用读写速度快、功耗低的低电压外部数据存储器CF卡存储采集完的信号。
This FIFO receiver buffer receives data at an input write-data rate filling up the memory storage cells therein.
这先进先出接收机接收缓冲区写在输入数据速率的内存填补其中的数据存储单元。
Now using "zero copy" to improve this process: When the net card will catch the data packet later directly to write about the sharing memory, such treating processes reduced at least duplication.
利用“零存储”技术对传统的抓包过程进行改进:当网卡抓到数据包以后直接写到共享内存,这样的一个处理过程减少了至少一次复制。
There are times when controllers need to read or write large amounts of data directly to or from system memory.
有时候,控制器需要在系统主存之间传送大量的数据。
There are times when controllers need to read or write large amounts of data directly to or from system memory.
有时候,控制器需要在系统主存之间传送大量的数据。
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