The sleep time between scans is adjusted according to host memory size.
扫描之间的休眠时间会根据主机内存大小调整。
Pressure is applied to guests according to the level of host memory pressure.
根据主机内存压力级别将压力分配到客户。
Rebooting may allow you to use slightly more host memory to run virtual machines.
重新导入的话可能会使你的主机有稍微多一点的主机内存来运行虚拟计算机。
PHP has no limit on the size of a string, aside from the amount of host memory available.
PHP对于字符串的长度没有限制,只要主机的可用内存够大就行。
The use of RDMA enables direct updates in member host memory without requiring member processor time.
RDMA的使用支持成员主机内存中的直接更新,不需要成员处理器时间。
The main function of DMA engine is to handle the receive and transmit data and descriptor transfers between the host memory and the NIC.
DMA引擎的主要功能是进行主机和网卡之间的接收和发送数据以及描述符的传送。
It is impractical for mobile devices to be a host due to insufficient memory and CPU power.
由于受到内存和cpu不足的限制,要想让移动设备充当主机是不现实的。
Memory space breach — Accomplished via stack overflow, buffer overrun, or heap error, enables execution of arbitrary code supplied by the attacker with the permissions of the host process.
内存空间缺口——通过栈溢出、缓冲区溢出或堆错误来实现,以宿主进程的权限执行攻击者提供的任何代码。
The use of any overcommitment mechanism fundamentally affects the operation of the host and guest memory management systems.
使用任何超量使用机制都会从根本上影响主机和客户内存管理系统的运行。
You can work on them as they relate to learning and memory or host defense mechanisms.
你可以因为它们涉及学习和记忆或寄主防御机制而研究它们。
The process of migration centers around packaging the suspended state of the VM (represented by memory) and moving those pages to a new host, and then restoring the VM to execute.
迁移过程的中心是打包VM 的挂起状态(存储在内存中),并将这些包移动到新主机上,然后恢复 VM来执行相关操作。
The server's host name is DAISY, and it has 4 processors and 2 GB of memory.
这台服务器的主机名是DAISY,并且它配有4 个处理器和2GB内存。
Our memory ballooning strategy is designed to prevent host swapping, instead directing memory pressure onto the guests.
我们的内存膨胀策略的思路是防止主机交换,把内存压力转移到其他客户上。
Shared memory is slightly more complicated to implement but is otherwise an excellent choice for intra host collaboration between multiple processes.
共享内存的实现有点儿复杂,尽管如此,对于多个进程之间的主机内协作,共享内存是不错的方法。
To avoid host swapping, each guest's memory balloon is dynamically adjusted in accordance with host and guest memory pressure.
为了避免主机交换,每个客户的内存膨胀都根据主机和客户内存压力动态调整。
The processor also supports the memory translation process by tapping into the hypervisor (host kernel) when an unmapped memory location is accessed.
处理器也可以通过在访问未经映射的内存位置时使用系统管理程序(主机内核)来支持内存转换进程。
If you are using a hosting service it is important to verify that your host can provide sufficient memory for the set of modules you are deploying or may deploy in the future.
如果您使用的是虚拟主机,务必请确认您的主机未来在部署更多模块时,允许使用更多的内存。
Pacifica also amends address translation with host and guest memory management unit (MMU) tables.
Pacifica还可以使用宿主和客户内存管理单元(MMU)表来进行地址转换。
To overcommit memory on a host, we deployed Memknobs onto 32 virtual machines where each instance used memory in a unique pattern.
要在主机上超量使用内存,我们将Memknobs部署在32 台虚拟机上,每个实例都以独一的模式使用内存。
We calibrated the Memknobs memory load, shown in Figure 3, to place the host under enough memory pressure to cause regular swapping activity.
我们校准Memknobs内存负载,如图3所示,将主机置于足够的内存压力之下,以产生定期交换活动。
Each machine runs a daemon called gmond which collects and sends the metrics (like processor speed, memory usage, etc.) it gleans from the operating system to a specified host.
每台计算机都运行一个收集和发送度量数据(如处理器速度、内存使用量等)的名为gmond 的守护进程。它将从操作系统和指定主机中收集。
Now, let's explore the Linux approach to memory sharing and how you can use it to increase the memory density of a server and therefore increase its ability to host additional applications or VMs.
下面,我们将探索这种Linux内存共享方法,以及如何使用该方法提高服务器的内存密度,从而增加其托管其他应用程序或VMs的能力。
In this case, runtime analysis results are evaluated in the target memory endlessly, until you decide to dump them back to the host machine.
在这种情况下,运行时分析结果都在目标内存中得到评价,直到您决定将其返回至主机为止。
This technique can help refocus memory pressure from the host onto a guest.
此技术能帮助将内存压力重新从主机转移到客户上。
The destination system must have at least an equal amount of processors and memory available (as dictated by the active partition profile) as the host mobile partition.
目标系统必须与主机迁移分区具有相同数量的内存和处理器(在活动分区配置文件已经指定)。
The host system only needs to allocate memory purely for the need of guest system (and its forked processes).
宿主系统只需要分配完全只是客户系统(及其派生的进程)所需要的内存。
The -g flag gives you a global view for memory utilization on your host (see Listing 6).
G标志可以为主机中的内存使用情况提供全局视图(见清单6)。
While the host is managing the memory allocated to a KVM guest, the guest kernel is simultaneously managing the same memory.
当主机管理分配给KVM客户的内存时,客户内核也同时在管理相同的内存。
The -g flag gives you a global view for memory utilization on your host (see Listing 5).
G标志可以为主机中的内存使用情况提供全局的视图(请参见清单5)。
Although effective at limiting memory, using a huge page reservation to reduce host available memory may interfere with the host's memory management algorithms in subtle ways.
尽管有效限制了内存,使用大页面保留减少可用内存却可能对客户内存管理算法产生一点小影响。
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