A bit memory of graduate life in renmin University of China;
在中国人民大学读研究生的学习生活点滴回忆;
Table 1. DB2 memory set limits based on 32-bit memory structure.
表1 -基于32位内存结构的DB 2内存集限制。
Table 1 - DB2 memory set limits based on 32-bit memory structure.
表1-基于32位内存结构的DB 2内存集限制。
Figure 6 shows the 32-bit memory address space for a DB2 agent process.
图6展示了用于一个DB 2代理进程的32位内存地址空间。
Note: The rest of the article will dedicate to 32-bit memory architecture only.
注意:本文的后续部分只针对32 位内存体系结构。
If you have a 64-bit DB2 instance, that means DB2 is using the 64-bit memory architecture.
如果有一个64位的DB 2实例,则意味着DB 2使用的是64位的内存体系结构。
Last week, one report hinted that the CARDS would have 256-bit memory interfaces and meaty performance.
上周有媒体报导称该系列显卡的显存位宽将为256bit,并称显卡的性能相当不错。
At the bottom of the blurred diagram are what looks like 6 MCs, which confirms the 384-bit memory interface we reported earlier.
在模糊图的底部是什么像6管委会,这印证了384位内存接口,我们曾报道外观。
The AIX 32-bit memory model is divided and managed as 16 256mb segments. Figure 2 shows the layout of the default 32-bit AIX memory model.
AIX32位内存模型被分成16个256MB分段进行管理。
The half-height Quadro 600 covers the "entry level" with 96 stream processors, 1GB of DDR3 RAM, a 128-bit memory interface, and a $199 MSRP.
而Quadro600则定位于“入门级”,内含96个流处理器,1GBGDDR3显存,128bit显存位宽,建议零售价199美元。
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。
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。
Due to the disadvantages of recent multi-bit memory, for example high programming power, cross talk between two bits, small programming window, et al, a novel multi-bit memory device is proposed.
针对目前多位非挥发存储器存在的编程功耗大、比特间串扰严重、编程窗口小等缺陷,本论文提出一种新型多位非挥发存储器件结构。
His father began to lose his memory bit by bit, becoming increasingly forgetful.
他父亲的记忆力开始一点点衰退,变得越来越健忘。
By not having to import the object into the closure, we can save quite a bit of memory, especially if we have many closures that don't need this feature.
由于无需将对象导入闭包中,因此可以节省大量内存,尤其是在拥有许多不需要此功能的闭包时。
Use 64-bit processes (execution groups) rather than 32 bit processes from memory perspective.
从内存的角度而言,请使用64位进程(执行组),而不要采用32位进程。
This is not the case on 64 bit JVMs due to the increased memory support.
由于增加的内存支持,64位JVMs上的情况与此不同。
As you can see, tail-calls take a few more instructions, but they can save quite a bit of memory. There are a few restrictions for using them.
可见,尾部调用使用了更多一些指令,但是它们可以节省相当多内存。
Common problems with allocating database Shared memory on 32-bit Sun solaris.
位SunSolaris中与分配数据库共享内存有关的常见问题。
Memory addressability - a 32-bit system can directly address only a 4-gb address space.
可寻址内存-一个32位系统只可以直接寻址4gb的地址空间。
Page-tables can normally be stored only in low memory on 32-bit machines.
在32 位机器上页表通常只可以存储在低端内存中。
Therefore we will focus on and discuss in detail the memory limitations affecting 32-bit systems.
因此,我们将焦点放在影响32位系统的内存限制,并对之进行详细的讨论。
Larger Memory Footprint - 64-bit software will take up more RAM than its 32-bit equivalent due to the way information is stored.
更大的内存占用——64位软件比32位软件平均占用内存要大,这是由其信息存储的方式决定的。
This memory must also come from low memory, which on 32-bit hardware is somewhat limited.
这些内存必须使用低端内存,而这在32位硬件上有点不够用。
You can also develop an algorithm that efficiently manages memory but USES a bit more memory.
也可以开发一个算法来有效地管理内存,但却要使用更多的内存。
Memory is a bit more expensive, but even so, it can be replaced and even upgraded without trashing the whole project.
内存稍微昂贵一点,但即便如此,也可以替换甚至升级它,而不需要废弃整个项目。
On SLES 8, only 2 GB used for central memory because of the 31-bit operating system, and 2 GB expanded memory used for swap space.
在SLES8 上,只有2GB 的内存用作中央内存,因为这是一个 31 位的操作系统,有 2 GB 的扩展内存用作交换空间。
Allocated memory is a bit trickier.
分配内存需要点技巧。
On SLES 8, only 2 GB were used for central memory, because of the 31-bit operating system, 2 GB expanded memory for swap space.
在SLES8上,仅使用了2GB的中心内存,因为是31位的操作系统,2 GB的扩展内存将用于交换空间。
On SLES 8, only 2 GB were used for central memory, because of the 31-bit operating system, 2 GB expanded memory for swap space.
在SLES8上,仅使用了2GB的中心内存,因为是31位的操作系统,2 GB的扩展内存将用于交换空间。
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