DB2 memory configuration on 32-bit aix.
位aix中的DB 2内存配置。
Changes to physical memory configuration and utilization.
改变物理内存的配置和使用。
Memory configuration does not support Node Interleaving.
内存配置不支持节点交叉。
Warning: The installed memory configuration is not optimal.
警告:当前安装的不是最佳的内存配置。
The following sections discuss how different platforms affect memory configuration in DB2.
接下来的几节将讨论不同的平台对DB 2中的内存配置有何影响。
Total database Shared memory (controlled by the database_memory configuration parameter).
总体数据库共享内存(由database_memory配置参数控制)。
Alert! Node interleaving disabled! Memory configuration does not support node interleaving.
警报!节点交叉已禁用!内存配置不支持节点交叉。
Many of these can be derived from the schematics or the memory configuration of your target hardware.
许多这些可以来源于图表或对内存配置的目标硬件。
Initialize memory, which includes enabling memory Banks, initializing memory configuration registers, and so on.
初始化内存,包括启用内存库、初始化内存配置寄存器等。
The feature works by iteratively modifying the memory configuration in small increments with the goal of improving overall system performance.
此特性会反复地小幅修改内存配置,以改进系统的总体性能。
When creating or updating Shared memory partitions profiles you can find the option to select the paging VIOS partitions in the memory configuration section.
在创建或更新共享内存分区概要文件时,可以在内存配置部分中找到选择分页VIOS分区的选项。
Also, observations about performance behavior experienced at a particular memory configuration may or may not apply to systems at a higher RAM configuration.
而且,在特定内存配置下得到的性能行为观察值不一定适用于拥有更高的RAM配置的系统。
For hardware, the recommended system should come with 1 CPU, 1gb memory configuration. In this article, the hardware used (p615) has the following resources.
对于硬件,推荐系统配置为1个CPU和1gb内存。
The self-tuning memory feature in DB2 9 simplifies the task of memory configuration by automatically setting values for several memory configuration parameters at startup.
DB2Viper 中的自调优内存管理特性能够在启动时自动为一些内存配置参数设置值,从而简化内存配置任务。
With the call to start_kernel, a long list of initialization functions are called to set up interrupts, perform further memory configuration, and load the initial RAM disk.
通过调用start_kernel,会调用一系列初始化函数来设置中断,执行进一步的内存配置,并加载初始ram磁盘。
This shell partition is used to reserve the resources required to create the inbound LPAR, or processor entitlements, memory configuration, and virtual adapter configuration.
这个分区shell用来保留创建LPAR所需的资源(即处理器权利)、内存配置和虚拟适配器配置。
The STMM log file parser has the goal of filtering out important tuning information and formatting it so that the evolution of the memory configuration can be easily discerned.
STMM日志文件分析器的目的是过滤出重要的调优信息并进行格式化,从而便于了解内存配置的修改过程。
Another advantage is that this solution can handle cascading failures of application servers, which is only possible with more than one replica in a memory to memory configuration.
此解决方案的另一个优势是能够处理应用服务器的级联故障,而这在内存到内存配置中只有使用多个副本才有可能实现。
NTLDR loads the basic memory configuration and switches to 32-bit mode (protected mode). NTLDR then places itself into high memory to free up as much memory space as possible.
NTLDR载入基本的内存配置并转为32位模式(保护模式)。然后NTLDR将自己放入高内存以尽可能多地释放内存。
Experimental results show that the parser reduces the requirements of the embedded system processing capabilities and memory configuration, and meets the needs of handheld readin...
实验结果表明,该解析器降低了对嵌入式系统处理能力与内存配置的要求,能满足手持阅读设备的需要。
However, DB2 currently does not automatically enable 64 kilobytes for agent private memory, nor does it allow custom configuration of agent private memory configuration with 16-gigabyte pages.
然而,DB 2目前不会自动为代理私有内存启用64KB的页面大小,也不允许为代理私有内存自定义配置16 GB的页面大小。
Limit: In this configuration, the limit for database Shared memory is 2gb, or 8 segments.
限制:在此配置中,对于数据库共享内存的限制是2gb或8个段。
Associated with the instance are the configuration components of virtual CPUs, memory, and local (ephemeral) storage.
与实例相关的是虚拟cpu、内存与本地(临时性)存储的配置组件。
For each logging token read from the Shared memory or configuration file on its first invocation, OPEN_LOG builds a hash key using the name of the token and the size of the hash table.
对于每个从共享内存或初次调用使用的配置文件中读取的日志标记,OPEN_LOG都会使用标记名和散列表的大小来生成一个散列值。
Memory usage problems due to insufficient memory resources can be caused by configuration issues or system capacity issues.
由于内存资源不足而产生的内存使用问题可能是由于配置问题或系统容量问题所导致的。
This section describes recommendations for system performance, including memory and paging, disk configuration, and connectors.
本小节提供调优系统性能的建议,包括内存和分页、磁盘配置以及连接器。
Table 2 lists the default memory model configuration for different ranges of heap size.
表2列出了不同堆大小范围的默认内存模型配置。
Aside from CPU statistics, the tool can also provide data relating to memory allocation and LPAR configuration and state change history.
除了CPU统计数据之外,这个工具还可以提供关于内存分配以及LPAR配置和状态变化历史的数据。
When running, the subsystem's shared memory contains the actual usable configuration information.
当运行时,子系统的共享内存包含了实际有用的配置信息。
Each application connected to the database has memory allocated to it; therefore accurate configuration of the parameters affecting the application Shared memory becomes crucial.
每个连接到数据库的应用程序都会被分配内存;因此,正确地配置会影响应用程序共享内存的参数非常重要。
应用推荐