We will talk about addressable memory later.
我们在后面会谈到可寻址内存。
What is the range of addressable memory in protected mode?
在保护模式下的寻址范围是什么?
The 32-bit Solaris addressable memory structure is shown in Figure 9.
位Solaris可寻址内存结构如图9所示。
Addressable memory in a 32-bit architecture versus 64-bit architecture.
位体系结构与64位体系结构中的可寻址内存。
The cache occupies the same addressable memory space as the applications.
缓存与应用程序占用相同的可寻址内存空间。
On 32-bit AIX, the 4GB of addressable memory space is broken down to 16 segments, 256MB each.
在32 位的AIX 上,4GB 的可寻址内存空间被拆分为16 个段,每段 256MB。
Thus arrays support what is sometimes referred to as content-addressable memory or associative memory.
因此,数组支持所谓的按内容寻址的存储器或关联存储器。
The 4g of addressable memory is broken down into 4 quadrants, where each quadrant is 1g in size, as shown in Figure 11.
4g的可寻址内存被拆分成4个象限,每个象限大小为1g,如图11所示。
Most modern non-64-bit systems have the ability to create an address space of 36 bits, yielding 64 GB of addressable memory.
大多数现代的非 64位系统都能够创建36位的地址空间,从而产生 64GB 的可寻址内存。
This leaves an additional 1GB of addressable memory which is normally reserved by the O/S and allocated to system resources.
还剩余1GB的可寻址内存,通常由O/S所保留,分配给系统资源。
When the main buffer pools are configured too large, it is possible that they will not fit into the addressable memory space.
如果主缓冲池配置得太大,则可能出现主缓冲池不适合可寻址内存空间的情况。
The increased data bus width enables support for addressable memory space above the 4gb generally available on 32bit architectures.
增加的数据总线带宽实现了对32位架构上通常可用的4gb以上可寻址内存空间的支持。
In recent days, increasing volumes of data and processor-addressable memory has rendered the 4-kilobyte page size somewhat ineffective.
最近,随着数据量和处理器可寻址内存的增加,4KB的页面大小的效率变得有些低下了。
The answer to this question has to do with the limitation to the addressable memory (as opposed to physical memory), which we will discuss later.
答案跟可寻址内存(而不是物理内存)的限制有关,我们在后面会加以讨论。
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。
With addressable memory in the range of hundreds to billions of gigabytes, it is the available physical memory (RAM) limitation that becomes much more important.
由于可寻址内存的范围从数百到数十亿gb,可用物理内存(RAM)的限制变得更加重要。
A mixed serial-parallel content addressable memory (CAM) includes serial CAM cells and parallel CAM cells that are arranged in multiple (n) columns and multiple (m) rows.
一种混合串并行内容可寻址存储器(CAM)包含布置为多个(n)列及多个(M)行的串行CAM单元及并行CAM单元。
In this paper, base on the associative characteristics of holography, complementary encode and threshold detection, a content addressable memory optical computing set up was designed.
本文设计了一种利用全息的关联特性、互补编码和阈值判断的内容寻址光查表系统。
In this thesis, considering the associative characteristics of holography, complementary encode and threshold detection. Wedesign a content addressable memory optical computing set-up.
本文设计了一种利用全息的关联特性、互补编码和阈值判断的内容寻址光查表系统。
How much memory should we allocate for instance memory, database memory and application Shared memory, so they can fit into the 4gb addressable space?
应该为实例内存、数据库内存和应用程序共享内存分配多少的内存,以使它们能放入到4gb的可寻址空间?
Regions in a process's virtual address space can be mapped to physical memory, to a file, or to any other addressable storage.
进程的虚拟地址空间中的区域可被映射到物理内存、文件或任何其他可寻址存储。
Hence we have a 36-bit address, aligned to 8 bytes, for a total of 64gb addressable physical memory.
因此,我们有了36位地址,和8字节保持了一致,总共64gb的物理内存都是可寻址的。
When configuring DB2 memory usage, keep in mind that all the memory pools need to fit into the addressable user space.
在配置DB 2内存的使用时应记住,所有内存池应该能够纳入可寻址用户空间。
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。
A table or diagram containing the name and address range of each peripheral addressable by the processor within the memory space.
一个在内存空间中的,包含每个外设的名字和可由处理器设置的地址范围的表格或图表。
Memory - storing approach for storing one character in each addressable location.
在每个可编址单元存储一个字符的存储器存储方法。
Again, for those — for whom this is blocked, I'm just dividing the rectangle into smaller squares which is to say that memory is addressable.
这是一整块的,我只是把它划分成一个个小区域,每个小区域都可以设定一个地址。
Again, for those — for whom this is blocked, I'm just dividing the rectangle into smaller squares which is to say that memory is addressable.
这是一整块的,我只是把它划分成一个个小区域,每个小区域都可以设定一个地址。
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