在上面的内存变量声明中可以看到几点差异。
You can see several differences above in the declaration of memory variables.
因为在虚拟化内存环境中有性能调优和监视方面的差异,我们还有许多要学习的东西。
There is still a lot to learn, as there will be performance tuning and monitoring differences in a virtualized memory environment.
即便如此,在那些依赖于体系架构的领域、内存映射、线程或一些特殊的领域(例如系统管理和自然语言的支持),它们之间还是有差异的。
Even so, differences can arise in the areas that depend on the architecture, memory maps, threading, or some specific areas like system administration or natural language support.
我们很高兴不用再操心垃圾回收、内存管理和硬件差异。
We've happily given away responsibility for garbage collection, memory management, and hardware differences.
你可以看到哪些地方实际存在问题,也可以看到全世界范围内存在的极大差异。
You can see where the problems really are, and you can see the extreme differences in the world.
但即使有这个优点,各种无线设备在内存、处理能力、电池寿命、显示屏大小和网络带宽等方面的能力差异还是相当大的。
But even with this advantage, wireless devices offer a vast range of capabilities in terms of memory, processing power, battery life, display size, and network bandwidth.
启动另一个Eclipse实例,然后在此实例上运行vadump,输出见清单14。初看上去,内存使用量的差异非常小。
Starting another instance of Eclipse and then running vadump on that instance, as shown in Listing 14, initially seems to show very little difference in memory usage.
分析内存使用率,以显示计算性和非计算性页面之间的差异。
Analysis of memory utilization to show the split between computational and non-computational pages.
这是由于利用率波动导致的最小和最大客户内存需求之间的差异造成的。
This is due to a large difference between minimum and maximum guest memory requirements caused by swings in utilization.
这意味着,在公司内存在战略上的“核心”与“非核心”资源与能力,只有那些核心竞争力产生显著而持续的差异。
This means that, there are strategically 'core' and 'non-core' resources and capabilities in a firm, of which only core competences make significant persistent differences.
虽然不是非常完美,但这些技术能造成分配内存量和实际使用量之间的实际差异。
While not perfect, these techniques can result in a substantial difference between the amount of memory that is allocated and the amount actually used.
在采用稀疏分布式内存的超级计算机里,记忆与数据处理之间的差异消失了。
But in a parallel supercomputer with a sparse, distributed memory, the distinction between memory and processing fades.
再次,低带宽常会掩盖CPU或内存限制的算法中的速度差异。
Then again, the slowness of bandwidth will very often swamp speed differences in CPU or memory-bound algorithms.
它可能有一些JIT编译的步骤由分析器跳过。这可以解释在内存使用的差异。尝试创建一个脂肪二?
IT could be that some JIT-compile step is skipped by the profiler. This could explain the difference in memory usage. Try creating a fat binary?
WeightedRound Robin (wrr):使用附加的权重因子进行RR调度以补偿各种realserver功能(如附加cpu、更多内存等)的差异。
Weighted Round Robin (WRR) : RR scheduling with additional weighting factor to compensate for differences in realserver capabilities such as additional CPUs, more memory, and so on.
通常我们会认为温度过高时导致内存故障率较高的主要因素之一。但据这次谷歌研究的结果表明,内存工作温度上的差异对故障率高低的影响其实很小。
Higher temperatures generally cause more error rates, but differences in temperature at Google's data center "had a marginal impact on the incidence of memory errors."
而且不同的盐激时间还出现不同的差异蛋白,说明其细胞内存在复杂的应答盐激的蛋白质网络调控。
In addition, the appearance of differential displayed proteins responding to different salt shock periods was also demonstrated, illuminating that complex network of regulation exist in cell.
比较了并行和传统FDTD方法运算耗时与内存消耗的差异。
The time differences and memory cost between parallel FDTD and traditional one are also compared.
这可以解释在内存使用的差异。
工程师必须解决设计差异,比如中断能力、默认变量长度以及内存中地址的分配。
Engineers must address architectural differences, such as interrupt capabilities and default variable sizes and their layout in memory.
同时,针对前后台数据处理白勺实时性差异,给出了共享内存白勺通讯任务实现。
Simultaneously, in order to resolve the questions of real-time data processing, implementation of Shared memory communication tasks is also given here.
主要结论如下:1。黄帚橐吾个体总状花序内存在花序内变异,且不受种群差异的限制。
Mostly conclusion as follows:1. There is intra-inflorescence variation in raceme of L. virgaurea individual, and it's not limited by different population.
主要结论如下:1。黄帚橐吾个体总状花序内存在花序内变异,且不受种群差异的限制。
Mostly conclusion as follows:1. There is intra-inflorescence variation in raceme of L. virgaurea individual, and it's not limited by different population.
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