Power体系结构既支持64-位寻址,也支持32 -位寻址。
The Power Architecture supports both 64-bit and 32-bit addressing.
简要介绍了MCS - 51系列单片机中的位寻址区和位操作指令。
The bit operation instruments and bit addressable locations in MCS-51 series microcontroller are introduced.
Itanium体系结构提供的64位寻址去除了32位计算中内存寻址能力上的约束。
The 64-bit addressing provided by the Itanium architecture removes the constraint on memory-addressing capability in 32-bit computing.
Version11于 1997 年引入,这是第一个支持 64位寻址的版本。
Version 11 was first introduced in 1997. This was HP's first release to support 64-bit addressing.
如果每个地址引用一个存储字节,那么一个16位物理地址将允许处理器寻址64KB内存。
If each address references a byte of storage, a 16-bit physical address would allow a processor to address 64kb of 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。
Hence we have a 36-bit address, aligned to 8 bytes, for a total of 64gb addressable physical 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。
Most modern non-64-bit systems have the ability to create an address space of 36 bits, yielding 64 GB of addressable memory.
通过将大部分DB 2工作内存从32位迁移到64位,DB 210极大地提高了可以寻址的虚拟内存量。
DB2 10 substantially increases the amount of virtual storage that can be addressed by moving most DB2 working memory from 32-bit to 64-bit.
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。
The increased data bus width enables support for addressable memory space above the 4gb generally available on 32bit architectures.
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 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。
With 32-bit memory structure, no matter how big the physical RAM is, the instance, database configurations are limited by the 4gb addressable space.
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。
On 32-bit AIX, the 4GB of addressable memory space is broken down to 16 segments, 256MB each.
因此,提供64位的寻址和整数运算能力必须要修改现有数据类型的绑定或映射,或者向c语言中添加新的数据类型。
Thus, providing 64-bit addressing and integer arithmetic capabilities involves changing the bindings or mappings of the existing data types, or adding new data types to the language.
可寻址内存-一个32位系统只可以直接寻址4gb的地址空间。
Memory addressability - a 32-bit system can directly address only a 4-gb address space.
位支持增加的代理的可寻址储存,并且进一步降低了管理的复杂性。
64-bit support increases the addressable storage of the broker, and further reduces administrative complexity.
位体系结构与64位体系结构中的可寻址内存。
Addressable memory in a 32-bit architecture versus 64-bit architecture.
位指针只能寻址4gb的虚拟地址空间。
32-bit Pointers can address only 4gb of virtual address space.
位Solaris可寻址内存结构如图9所示。
The 32-bit Solaris addressable memory structure is shown in Figure 9.
工作在32位系统上,可以寻址4GB内存。
Working on a 32-bit system, you can address 4 GB of memory, out of this 2 GB is typically reserved to the Operating System and 2 GB are allowed for each user mode process, such as w3wp.exe
本发明提供了含有可寻址电极和电极对应位点上两种或多种不同类型的捕获复合物的微阵列。
A microarray is provided having addressable electrodes and two or more different types of capture complexes at sites corresponding to the electrodes.
本发明提供了含有可寻址电极和电极对应位点上两种或多种不同类型的捕获复合物的微阵列。
A microarray is provided having addressable electrodes and two or more different types of capture complexes at sites corresponding to the electrodes.
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