Current versions of Lotus Domino use the AIX large memory model.
LotusDomino的当前版本使用AIX大内存模型。
To accommodate programs with larger data requirements, AIX provides the large memory model.
为了适应对数据需求较高的程序,AIX提供了一个大内存模型。
Programs that use the AIX large memory model have the following memory layout shown in figure 2.
使用AIX大内存模型的程序具有图2所示的内存布局。
If you want a native heap larger than 2gb and you are running AIX 5.1 or later, you can use the AIX very large memory model.
如果您希望本机堆大于2gb,并且运行的是AIX 5.1或更高版本,那么您可以使用AIX超大内存模型。
In the large memory model, the native heap starts at segment 3; segment 2 is only used for the primordial (initial) thread stack.
在大内存模型中,本机堆从分段3开始;分段2仅用于原始(初始)线程栈。
In the currently used AIX large memory model, ConstrainedSHMSizeMB should be used only to support third-party applications that require Shared memory.
在当前使用的AIX大内存模型中,ConstrainedSHMSizeMB应该只用来支持需要共享内存的第三方应用程序。
The very large memory model, like the large memory model, can be enabled for an executable at compile time with a linker option or at run time using the LDR_CNTRL environment variable.
与大内存模型类似,可以通过一个链接器选项或在运行时使用LDR_CNTRL环境变量来为编译时的可执行程序启用超大内存模型。
The reason that a generational GC memory model is preferred with large JVMs has to do with minimizing the amount of time spent performing GC.
之所以首选分代GC内存模型,是因为大型JVM必须尽可能减少执行gc的时间。
The reason for using only a subset is that the inference model needs to be held in memory, and the WordNet model is too large for an in-memory model to be practical.
仅使用子集的原因是推理模型需要保存在内存中,WordNet模型对于内存模型过大而不能实现。
A probabilistic model for large earthquake occurrences with spatial memory is presented in this paper.
本文给出的概率模型考虑了大地震的发生在空间上的记忆性。
In the model, the short-period memory capacity restricting theory is used to save a large mount of system storage space so as to provide a good condition for system distributed expansion;
在该模型中,应用短时记忆容量限制理论来节省系统大量的存储空间,为系统的分布式扩展提供了良好的条件;
Consequently, compare with the traditional data memory model, the design for an intelligentized USB terminal is of great importance for the data collection and large-capacity data on site memory.
对比传统的数据存储方式,设计一个智能化的USB终端装置,用于实现数据的采集和大容量的数据现场存储显得尤为重要。
Consequently, compare with the traditional data memory model, the design for an intelligentized USB terminal is of great importance for the data collection and large-capacity data on site memory.
对比传统的数据存储方式,设计一个智能化的USB终端装置,用于实现数据的采集和大容量的数据现场存储显得尤为重要。
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