The bit operation instruments and bit addressable locations in MCS-51 series microcontroller are introduced.
简要介绍了MCS - 51系列单片机中的位寻址区和位操作指令。
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。
64-bit support increases the addressable storage of the broker, and further reduces administrative complexity.
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。
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。
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 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。
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。
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。
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。
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