Gets or sets the maximum amount of memory allocated for the buffer manager that manages the buffers required by endpoints using this binding.
获取或设置可为缓冲区管理器分配的最大内存量,该管理器管理使用此绑定的终结点所需的缓冲区。
The impact of changing the buffer sizes is to increase storage requirements for the queue manager.
更改缓冲区大小将会增加队列管理器的存储需求。
The database manager configuration parameter rqrioblk controls the size of the communication buffer between the federated system and the data sources.
数据库管理器参数rqrioblk控制着联邦系统与数据源之间的通信缓冲区的大小。
The size of the buffer is determined by the AUDIT_BUF_SZ database manager configuration parameter.
缓冲区的大小是由AUDIT _ BUF_SZ这个数据库管理器配置参数决定的。
You can change the buffer sizes to limit this overspill so that data is more readily available to the queue manager.
可以更改缓冲区大小来限制这种上溢,从而提高数据对队列管理器的可用性。
After being read in from DASD, the data and index pages go into these slots and remain there until the DB2 buffer manager determines that those slots should be used for some other data.
数据和索引页被从DASD中读出之后,便进入这些插槽,并留在其中,直到DB 2缓冲区管理器确定那些插槽要用于其他数据。
Since a DB2 buffer pool is a part of the main memory of the system, the DB2 database manager allocates it for caching tables and index data when it reads or writes to and from media disks.
因为db2缓冲池是系统主内存的一部分,DB 2数据库管理器在它读取或写入磁盘介质时将它分配给缓存表和索引数据。
If you wish to change the size of the log buffer for the queue manager you will need to change the value in the queue manager qm.ini file.
如果您希望更改队列管理器的日志缓冲区大小,将需要在队列管理器qm . ini文件中更改此值。
Buffer sizes for queues are retained over queue manager restarts. To change the buffer sizes.
队列的缓冲区大小将保留到队列管理器重启之前。
If you wish to change the size of the log buffer for the queue manager you will need to change the value in the registry.
如果您希望更改队列管理器的日志缓冲区大小,将需要在注册表中更改此值。
This paper describes the implementation of buffer manager that is used in switch circuit, provides a request shift method to handle the latency between input buffer and central arbitration.
研究了交换控制电路中基于输入缓冲的交换结构,提出了一种请求移位的方法处理输入缓冲和中央仲裁器之间的仲裁延时;
This paper constructs the function simulation platform for buffer manager and the whole system, and validates the design on the platform after the RTL design.
在完成该单元的RTL级设计的基础上,进一步构建了该单元及整个系统的功能仿真平台,在该平台上验证了设计的正确性。
Based on a method of 2 dimension data rearrange, a high speed and high efficiency implementation of DRAM access is proposed in the design of block buffer manager.
在数据块缓冲管理器的设计中,采用一种基于二维数据重排的访问方式,实现高速高效的DRAM访问。
Based on a method of 2 dimension data rearrange, a high speed and high efficiency implementation of DRAM access is proposed in the design of block buffer manager.
在数据块缓冲管理器的设计中,采用一种基于二维数据重排的访问方式,实现高速高效的DRAM访问。
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