In this case, you will need at least 2GB of physical RAM to start both databases simultaneously.
在这种情况下,您将需要至少2GB的实体RAM 才能同时启动两个数据库。
More physical RAM must be added.
这是必须增加更多的物理ram。
Physical RAM on server is 1GB.
服务器上的物理RAM是1GB。
Best solution, add more physical RAM.
最好的解决方案是,增加更多的物理ram。
More than likely, add more physical RAM.
更可能的是,增加更多的物理ram。
Attempt to increase the swap space to 2x the physical RAM. Or.
尝试将交换空间增加到物理ram的两倍。
That location could be physical RAM, a file, or the swap partition.
该位置可以是物理ram、文件或交换区。
On a desktop system, allocate at least as much swap space as physical RAM.
在桌面系统上,至少分配与物理ram一样多的交换空间。
Limit: Because Shared memory is pinned to physical RAM, it will never be swapped out.
限制:因为共享内存是固定到物理ram的,所以这种内存不会被换出。
If the configured swap space is less than the physical RAM, such dumps are not possible.
如果所配置的交换空间小于物理ram,此类转储就无法实现。
Some administrators believe you should never have less swap space than physical RAM.
有些管理员认为,您的交换空间决不应该少于物理ram。
Some administrators believe you should never have less swap space than physical RAM .
有些管理员认为,您的交换空间决不应该少于物理RAM。
Please refer to the Quick Beginnings for proper value to set depending on your physical RAM.
请参考QuickBeginnings,以了解如何根据物理ram设置适当的值。
In this case, you will need at least 1.55gb of physical RAM to start both databases simultaneously.
在这种情况下,您将需要至少1.55GB的物理ram,才能同时启动这两个数据库。
Therefore, we can only allocate up to 1gb (physical RAM available) of Shared memory for database use.
因此,我们只能分配最多1gb(可用的物理ram)的共享内存给数据库使用。
The memory addresses in the address space allow the agent to access the memories in the physical RAM.
在内存空间中的内存地址允许代理访问物理ram中的内存。
The working set of a process is the set of memory pages currently visible to the process in physical RAM memory.
作用就是设置一个进程在当前物理内存中的可视内存页。
The goal is to prevent an ill-behaved application from locking up all of the physical RAM and bringing down the system.
我们的目标是要防止写出一个病态的、锁定所有物理内存、让系统崩溃的程序。
A little used and relatively new feature is the RAM disk, which allows for the use of physical RAM as the storage for a file system.
一个不常用并且较新的特性是RAM磁盘,它允许使用物理ram存储文件系统。
The size of the physical address (the address used by the processor to index physical RAM) limits the amount of memory that can be addressed.
物理地址(处理器用于索引物理ram的地址)的大小限制了可以寻址的内存。
When configuring IDS memory, we need to consider the total available memory, both physical RAM and virtual memory and daily load on the system.
在配置IDS内存时,我们需要考虑总的可用内存,包括物理ram、虚拟内存和系统上的日常负载。
With 32-bit memory structure, no matter how big the physical RAM is, the instance, database configurations are limited by the 4gb addressable space.
对于32位内存结构,不管物理ram有多大,实例、数据库配置都受到4gb可寻址空间的限制。
Even though each one of them is capable of accessing a 4gb range of memory, it doesn't mean that they each get their own 4gb allotment of physical RAM.
即使其中每个系统都能访问4gb的内存范围,这并不表示它们各自拥有4gb的物理内存分配。
Limit: Because the physical RAM is only 1gb, the database Shared memory set can only map to what is physically available to it, which is 1gb + swap space.
限制:由于物理ram只有1gb,数据库共享内存集只能映射到它在物理上可以使用的空间,即1gb +交换空间。
The benefit of a VM system is that physical RAM is more effectively used — this happens because it only holds executing applications and the data being used.
VM系统的优点在于,物理ram得到了更有效的利用——这是因为它仅包含正在执行的应用程序和正在使用的数据。
With the 32-bit memory structure, regardless of how much physical RAM you may have on the system, the addressable memory by any process on any platform is 4gb.
对于32位内存结构,不管系统有多少物理ram,在任何平台上任何进程的可寻址内存都是4gb。
Another common problem with allocating database Shared memory on Solaris is due to the fact that all pages of a Shared memory segment are pinned in physical RAM.
Solaris中另一个与分配数据库共享内存有关的常见问题是由于这样的一个事实导致的,即共享内存段的所有页都是固定在物理ram中的。
When both database A and database B is started simultaneously, we will require at least 1.55GB (898MB + 656MB) of physical RAM available for shared memory to pin against.
如果同时启动数据库A和数据库B,我们将请求至少 1.55GB (898MB + 656MB)的可用物理RAM,以便同样地将共享内存固定在 RAM 中。
A very low amount of free space and a high number for pages in and out probably indicates a lack of VM and, with very high pages in and out, probably a lack of physical RAM.
非常低的空闲空间量和较高的换入或换出页数可能表明VM不足,非常高的换入和换出页数可能表明物理ram不足。
A very low amount of free space and a high number for pages in and out probably indicates a lack of VM and, with very high pages in and out, probably a lack of physical RAM.
非常低的空闲空间量和较高的换入或换出页数可能表明VM不足,非常高的换入和换出页数可能表明物理ram不足。
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