考虑使用64位系统来托管数据库。
推荐使用64位系统制作这类报告。
It is recommended to use 64-bit systems when producing such reports.
从32位系统移植到64位系统。
在64位系统中,这个位称为位63。
在32位系统上,int和long大小相同。
对于64位系统,缓冲池实际上可以是任何大小。
For a 64-bit system, the buffer pool can be practically any size.
配备一个64位系统才能完美发挥4G内存优势。
You’ll need a 64-bit operating system to take advantage of more RAM than that.
位Linux内核能够处理32位系统调用。
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
上面的代码在64位系统上会失败,它只会显示低4字节的内容。
The above code snippet will fail on 64-bit systems and will display only the lower 4 bytes.
要在64位系统上进行位移,应该使用1l,如下所示。
To get the shift done on a 64-bit system, 1l should be used as shown below.
从32位到64位系统的移植是一个非常广阔的研究领域。
Porting from 32 - to 64-bit systems is an extensive field of study in itself.
在32位系统上,我们使用的是常量0x80000000。
On a 32-bit system, the constant 0x80000000 is used. But a more portable way of doing this is to use a shift expression.
例如,您不能够将一个64位系统映像迁移到一个32位平台。
For example, you can not move a 64-bit system image to a 32-bit platform.
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.
64-位Linux内核包含对处理32 -位系统调用的支持。
The 64-bit Linux kernel contains support to handle 32-bit system calls.
DEC最后的18位系统是PD P - 15,其在1969年推出。
DEC's last 18-bit system was the PDP-15, introduced in 1969.
可以将32位系统上创建的备份镜像恢复到64位系统,但是反之则不行。
You can restore a backup image taken on a 32 bit level system into a 64 bit level, but not the opposite.
虽然对于64位系统有一些限制,但是在未来的一段时间内还不大可能触及这些限制。
While there are restrictions to 64-bit systems, we will most likely not reach these limits for some time to come.
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。
Therefore we will focus on and discuss in detail the memory limitations affecting 32-bit systems.
要想让您的代码在32位和64位系统上都可以工作,请注意以下有关声明的用法。
To enable your code to work on both 32-bit and 64-bit systems, note the following regarding declarations.
表2给出了这个结构中每个成员的大小,以及这个结构在32位系统和64位系统上的大小。
Table 2 shows the size of each member of the structure and the structure size itself on 32-bit and 64-bit systems.
这意味着诸如结构或联合之类的数据对象的大小在32位和 64 位系统上是不同的。
This means that the size of data objects such as a structure or a union will be different on 32-bit and 64-bit systems.
这个安装是为32位的系统设置的,因此只有在希望获得一个严格的64位系统时才需要这样做。
The installation is set up for a 32-bit system, so you would need to do this only if you have a strict 64-bit system.
位系统的限制,特别是4GB的虚拟内存上限,已经极大地刺激很多公司开始考虑迁移到64位平台上。
The constraints of 32-bit systems, particularly the 4gb virtual memory ceiling, have spurred companies to consider migrating to 64-bit platforms.
对于AIX5L 来说,总的方向是从32 位系统标识符迁移到 64位系统标识符。
The general direction for AIX 5L is to migrate from 32-bit system identifiers to 64-bit system identifiers. To prepare for this switch, applications should do the following
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.
本文从机理建模入手,应用流体力学理论对双容水箱液位系统进行力学分析,建立非线性数学模型。
By using hydrodynamics theory and method, we can analyze the mechanics principle of two-tank system and establish the system mathematics model.
这个问题的解决方案是使用 %p,如下所示;这在32 位和 64位系统上都可以很好地工作
The solution for this is to use the %p specification as shown below, which will work fine on both 32-bit and 64-bit systems.
如果有些变量在32位系统上是32位的,在64位系统上是64位的,请将其类型定义为long。
If the variable should be 32-bits on 32-bit systems and 64-bits on 64-bit systems, define them to be long.
应用推荐