辅助存储设备可以加大内存容量。
有些因素能够增加每位虚拟用户的内存容量。
There are factors that can increase the amount of memory per virtual user.
存贮器的组成和内存容量及构造有关。
Memory organization relates to internal memory capacity and structure.
检测到的内存容量低于最小系统配置。
The amount of tested memory is below the minimum system configuration.
当你有了足够的内存容量以后,是时候开始调整了。
Once you're working with the right amount of memory, it's time to get tweaking.
此外,手机的内存容量,通信芯片的性能非常接近。
In addition, the phone's memory capacity, communications chip performance very close.
无线设备的内存容量相对较小,显然不可能处理任意长度的响应。
Wireless devices have relatively small amounts of memory, and clearly cannot process responses of arbitrary length.
还采用动态存贮器分配技术解决了内存容量小的矛盾。
As for the difficulty of unsufficient internal memory capacity, it can be overcome by means of the dynamic memory allocation technique.
一般所说的计算机内存容量是指随机访问存储器的容量。
General had said the computer memory capacity refers to random access memory capacity.
这些要求最终限制了无线设备的处理能力以及内存容量。
These constraints, in turn, have restricted the processing power and memory capacity of wireless devices.
一般来说,大多数的人想要使用 CPU数量和服务器的内存容量。
Typically, most people want to see the CPU count and the memory size of the servers.
占用空间小是非常重要的,因为大多数嵌入式系统仅具有很小的内存容量。
The small footprint is extremely important, as most embedded systems have a small amount of memory.
但是对更高级的应用,市场压力不断提升性能需求及内存容量。
But for advanced applications, market pressures are driving up performance needs and memory sizes.
在本系列的第1部分中,我们讨论了使用VMM提升系统内存容量的效果。
In Part 1 of this series, and, where appropriate, we covered the effect of using AME to squeeze more memory out of your systems.
这些要求最终限制了无线设备的处理能力以及内存容量(存储器)。
These constraints, in turn, have restricted the processing power and memory capacity (storage) of wireless devices.
在回放或录音过程中,您可以配置将用于缓冲音频数据的内存容量。
You may configure the amount of memory that will be used for buffering audio data during playback or record.
建议的计算方法所需计算机内存容量少,便于在微型机上实现和推广。
This method will results in that the computer memory is less, so as to be essay to be widely used in micro-computer.
如今,内存容量已经成为妨碍工作负载借助处理器的力量进行线性扩展的主要瓶颈之一。
Today, memory capacity is one of the major bottlenecks that prevents a workload to scale linearly with the power of processors.
某计算机内存容量为512kb,那么它的内存地址寄存器需要19位二进制。
A computer memory capacity for 512kb, then its memory address register need 19 binary.
在这种情况下,您并不需要一个命令模块,但是内存容量十分有限,其大小只有100个字节。
You don't really need a command module for this, but the memory is very limited. There is a small 100-byte buffer that holds the bytecode instruction stream.
受限于内存容量,向缓存中加载大量数据通常也意味着它们很快会被清除出去,这会增加GC开销。
Loading large amounts of data into your cache also usually means that it will be evicted quickly due to your limited memory capacity, which increases GC overhead.
应该保持使用同一代的处理器和相同的内存容量并标准化硬件供应商,从而简化这个问题。
Simplify the problem by keeping within the same generation of processor and the same amount of RAM as well as standardizing your hardware vendor.
因为在那个时候,计算机的处理速度和内存容量有限,所以程序必须很小,并且相对比较简单。
Because of the processing speed and amount of memory in computers those days, programs had to be small and, relatively, simple.
小型计算机一种比微型计算机内存容量大且运行速度高的小型计算机,通常可装入一个机柜。
A small computer, usually fitting within a single cabinet, that has more memory and a higher execution speed than a microcomputer.
由于16位和32位机的资源相对丰富,上网方案相对成熟,都是基于大内存容量的协议栈。
The method on 16bit and 32bit processors is quite mature, because of their relatively abundant resources, all of the methods are based on stacks which need a great deal of ram.
最主要的限制包括内存容量、电池寿命、适应不同屏幕大小和分辨率的能力、安全和网络带宽。
The main constraints are memory, battery life, ability to adapt to difference screen sizes and orientations, security, and network bandwidth.
因为ame的使用带来的内存容量的有效增加使得吞吐量有所增加,同时还导致了LPAR的利用率的增加。
The effective increase in memory capacity, due to AME, leads to higher throughput and increased utilization of the LPAR.
这个内存扩展因数为操作系统提供了有关用户尝试实现的有效内存容量的输入,即OS应尝试纳入内存的数据量。
This memory expansion factor provides input to the operating system on the effective memory capacity the user is trying to achieve, and thus, the amount of data the OS should try to fit into memory.
伍德称各手机厂商之间已展开了一场不断升级手机功能的“技术军备竞赛”---如增加内存容量,提高拍摄质量。
He said there had been an “arms race” amongst mobile phone manufacturers, who were competing to add features to their phones such as increased memory and better cameras.
当设备储存以满,会反馈网络并且不再接受短信改为“内存容量突破”,特别是在3GPP 23.040。
Response given to network in case of device memory full when receiving SMS and not able to receive it changed to "Memory capacity exceeded" as specified in 3GPP 23.040.
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