Automated storage and memory management.
自动的存储和内存管理。
Embedded database servers must often respect strict storage and memory limits.
嵌入式数据库服务器常常在存储空间和内存方面受到严格的限制。
New automated storage and memory management add to existing support for automated recovery of system failures.
除了对系统故障自动恢复的现有支持之外,增加了新的自动存储和内存管理特性。
Between data storage and memory structure, there are number of virtual or background processors that are busy with processing SQL statements.
在数据存储器和内存结构之间,有许多虚拟或后台处理器忙于处理sql语句。
In addition to increasing database capacity, large RID support can also simplify table space management (through consolidation) and improve storage and memory utilization.
除了增加数据库容量外,对大型RID的支持还简化了表空间的管理(通过合并),并可以提高存储和内存的利用率。
However, the functional plasticity, accompanying the molecular modifications, remains to be elucidated for the understanding of the hippocampus-dependent information storage and memory retrieval.
然而,因分子特性改变造成的功能变化对于我们正确理解海马依赖性的信息储备和记忆提取的机制仍然非常局限。
In this view, continual adjustments are made between learning or memory storage (input) and forgetting (output).
根据这种观点,在学习或记忆存储(输入)和遗忘(输出)之间不断进行调整。
The bootable image is created along with interfaces with the server's boot Read-Only Storage (ROS) and Erasable Programmable Read-Only Memory (EPROM).
可启动映像以及一些接口是通过服务器的启动只读存储器(ROS)和可擦可编程只读存储器(EPROM)创建的。
Associated with the instance are the configuration components of virtual CPUs, memory, and local (ephemeral) storage.
与实例相关的是虚拟cpu、内存与本地(临时性)存储的配置组件。
Because cloud environments are virtualized, a fraction of the total CPU, memory, and disk storage is allocated to each user request.
因为云计算是虚拟化的,所以全部CPU、内存和磁盘存储的一部分被分配给每个用户请求。
It starts with the argument that a bigger brain must be better since it allows more memory storage and faster processing simply because it would have more neurons and connections.
它源于脑袋大就一定更好这种讨论,这只是因为脑袋大可以有更多的记忆存储量以及更快的处理,因为它会有更多的神经元和连接。
The size of servers with respect to operating system, processor, memory, data storage, and so on dictates the true maximum size.
服务器的大小与操作系统、处理器、内存和数据存储等有关,这些因素决定实际的大小。
He said that virtualization technologies are extending beyond CPU and memory to cover areas such as storage and policy.
他说,虚拟化技术已经不再限于CPU和内存,而是扩展到了存储和策略领域。
Instance resources include memory, cache, process, sessions, thresholds, and storage resources.
实例资源包括内存、缓存、进程、会话、阈值和存储资源。
Many view virtualization as a consolidation of CPU, memory, and storage, but this oversimplifies the solution.
许多人视虚拟化为CPU,内存和存储的巩固,但是这样太过简单化解决方案了。
Each server has disk storage and one or more central processing units with memory.
每一个服务器都具有磁盘存储和一个或多个附带内存的中央处理单元。
Computers memory, data storage, and data communication have their own rough approximations of Moore's Law.
电脑内存、数据储存与传输,都拥有大致类似于摩尔定律的规律。
The price here is complexity and the resources hog in the way of memory and storage, which often leads to poorer performance.
这里的代价是内存和存储器方面的复杂性和资源消耗,这通常会导致性能降低。
The memory footprint for the aspect oriented runtime has been reduced for applications and additionally the memory footprint and file storage size for probes metering snapshots has been reduced.
对应用来说,其面向方面运行时的内存需求量已经降低了,而且对于探测器计量快照,内存需求量和文件存储尺寸也降低了。
These efficiencies are even more pronounced in today's high-performance, multi-core processors systems with large amounts of memory and disk storage.
这些效率在如今具有大量内存和磁盘存储的高性能、多内核处理器系统中更加明显。
In addition to stack space, each thread requires some native memory for thread-local storage and internal data structures.
除了栈空间之外,每个线程都需要一些本机内存用于线程本地存储和内存数据结构。
Computer memory, data storage, and data communications have their own rough approximations of Moore's Law.
计算机内存、数据存储设备和数据通讯设备也有着它们自己的类似定律。
The SPEs access main storage with direct memory access (DMA) commands that move data and instructions between main storage and a private local memory, called a local store or local storage (LS).
SPE用直接内存访问(DMA)命令访问主存储器,可以在主存储器与称为本地库或本地存储(LS)的私有本地内存之间移动数据和指令。
These characteristics recognize that service realization ultimately runs in one or more physical containers with limited resources such as CPU cycles, storage, memory, network bandwidth, and so on.
这些特征意味着服务实现最终在一个或多个物理容器中运行,容器具有有限的CPU周期、存储空间、内存、网络带宽等资源。
UWE includes support for unlimited data storage, processors, and memory, as well as deep compression that can reduce disk space usage as much as 80 percent while further enhancing performance.
UWE提供了对无限制数据存储、处理器、内存以及深度压缩的支持,可减少80%的磁盘空间使用量,同时进一步提高性能。
Plus, the performance warehouse and built-in reporting show memory usage and storage growth trends to help keep pace with business growth.
此外,性能数据仓储以及内置报告还展示了内存使用情况以及存储增长趋势,来保证系统与业务增长的同步。
Optimized software is used to modify and compress a system so that an application can execute more rapidly or operate with a reduced amount of memory storage and other resources.
优化软件用于修改和压缩系统,这样应用程序执行速度更快或操作更少的内存存储量和其他资源。
Round-tripping is the term used to describe a complete cycle, from storage medium into memory and back.
往返用于描述从存储媒介到内存然后回到存储媒介的完整循环。
The blade servers have their own processors, memory, operating systems, and perhaps additional storage.
这些刀片服务器拥有自己的处理器、内存、操作系统、也许还有额外的存储器。
The blade servers have their own processors, memory, operating systems, and perhaps additional storage.
这些刀片服务器拥有自己的处理器、内存、操作系统、也许还有额外的存储器。
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