Zeroed and Free memory is ready for use, with Zeroed memory cleared to zeros.
Zeroed和Free内存可以随时使用,并且Zeroed内存被清零。
While the heap is expanding, analyzing free memory trends is very problematic.
当扩展堆时,分析可用内存趋势会非常困难。
Verbose GC gives free memory statistics directly after a GC cycle, PMI data does not.
详细的垃圾收集在垃圾收集周期之后直接提供了可用内存统计信息,而 PMI数据不能提供。
When the new space runs out of free memory, the garbage is collected only in that space.
当新空间耗尽空闲内存时,将仅在该空间中进行垃圾收集。
How big is too big is something that DB2 decides based on the availability of free memory.
多大才算太大由DB 2基于空闲内存的可用性来决定。
This tends to leave holes in the heap requiring more time to efficiently manage the free memory.
这样会在堆中留下一些洞,需要花一些时间才能有效地管理空闲内存。
And when you free memory, it becomes blue, representing previously allocated but then freed memory.
当您释放内存时,它就变成蓝色,这表明开始被分配后来被释放。
If free memory is less than the free memory threshold, the scanning rate is increased by 300 pages.
如果空闲内存小于空闲内存阈值,扫描速率会增加300页。
Periods are analyzed by looking for downward trends in the approximated/summarized free memory statistics.
通过在粗略/概要性的可用内存统计信息中查找下降趋势来分析周期。
Free memory fluctuates upward and downward as the collector finds free memory to return to the application.
随着收集器将找到的自由内存返回给应用程序,自由内存量不断上下变化。
If the free memory after a GC cycle is consistently decreasing, then there is a high chance of a memory leak.
如果垃圾收集周期之后的可用内存持续降低,那么存在内存泄漏的可能性较高。
To allocate and free memory is expensive, therefore we should reuse buffers (memory) which have been allocated.
l分配和释放内存是很费时间的,因此我们要反复利用分配好的内存。
For this reason, it's normal to see the immortal free memory in the verbose GC log drop without ever recovering.
出于这个原因,常常会发现冗余gc记录中的永久自由内存下降并且不会恢复。
Total memory less the free memory threshold exceeds the total amount of memory assigned to all virtual machines.
总内存较少的空闲内存阈值超过分配给所有虚拟机的内存总数。
The number of pages to scan per interval is either increased or decreased depending on the amount of free memory.
每次扫描的页面数会根据空闲内存而增加或减少。
In most cases, saving the model and re-starting the application will resolve the problem as the free memory is reset.
大多数情况下,保存模型然后重启应用程序,就会解决问题,因为空闲内存被重置了。
I chose 256mb on my system, but your choice may vary depending on what kind of free memory you have on your computer.
我选择256MB,但是你可以根据你电脑有多少空闲内存而变化。
Most UNIX systems try to use free memory for caching, which is why it often looks like your system has no free memory.
大多数UNIX系统会尝试用空闲内存执行缓存,这就是系统常常看起来没有空闲内存的原因。
The period of time for the shortest intervals is not set but is derived by the variance of the free memory statistics.
没有设置最短的时间间隔,而是通过可用内存统计信息的变化得出。
As with the mark phase, the cost of sweeping dead objects back into the free memory pool can't be completely predicted.
与标志阶段类似,将死对象清理回自由内存池的耗费也不能完全预测。
Instead, Shared memory is allocated from the system's free memory pool and is annexed by each process that wants access.
共享内存是从系统的空闲内存池中分配的,希望访问它的每个进程连接它。
However, the free memory statistic is likely to be unreliable since the OS USES a lot of dynamic buffers and caches.
然而,可用内存统计可能是不可靠的,因为操作系统使用了很多动态缓冲区和缓存。
A second pass then sweeps away the unmarked objects, leaving behind free memory than can be used for new allocations.
然后,第二轮访问扫除未标记的对象,将未使用的闲置内存留作新分配之用。
These areas allow tasks to use memory without being required to block if the garbage collector needs to free memory in the heap.
如果垃圾收集器需要释放堆中的内存,则这些内存区域将允许任务使用内存而不需要中断任务。
Querying the OS about the amount of free memory may seem like a good idea to evaluate how well your application is performing.
查询操作系统的可用内存量,看起来像一个好主意,以评估您的应用程序是如何更好的执行。
You can find an array of different tools across the UNIX variants that report available free memory and VM usage with current usage.
您可以在各种 UNIX变体中找到一批不同的工具,它们报告可用空闲内存和VM使用情况以及当前使用情况。
We approximate the free memory after a garbage collection cycle by using algorithms that analyze the variance of free memory statistics.
通过使用分析可用内存统计信息变化的算法,我们可粗略计算垃圾收集周期之后的可用内存。
The my_module_cleanup function is called when the module is being unloaded and is used to free memory and generally remove traces of the module.
my_module_cleanup函数是在卸载这个模块时被调用的,它用来释放内存并清除这个模块的踪迹。
As the tool performs various tasks, available free memory will rise and fall depending on the computational requirements of the action performed.
当该工具执行各种任务时,可用空闲内存将根据执行操作的计算需求升高或降低。
As the tool performs various tasks, available free memory will rise and fall depending on the computational requirements of the action performed.
当该工具执行各种任务时,可用空闲内存将根据执行操作的计算需求升高或降低。
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