易失性随机访问存储器(RAM)。
非易失的随机访问存储器。
动态随机访问存储器。
动态随机访问存储器。
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.
这些简单的概念是最普通的直接访问存储器即磁芯存储器的基础。
These simple ideas are the basis of the most common immediate access store which is called a core store.
本发明公开了一种动态随机访问存储器(DRAM)的控制器及用户指令处理方法。
The invention discloses a controller of a dynamic random-access memory (DRAM) and a user instruction treatment method.
你设计将随机分配并且访问存储器的大的街区的一个实用程序制造并且使用网络连接。
You design a utility program that will randomly allocate and access large blocks of memory make and use network connections.
从分析存储器操作数的存放地址入手,可以更好地理解寻址方式,准确访问存储器操作数。
We can understand the addressing mode better and call it correctly by analyzing the storing position of memory's data operation.
参考答案:有两种类型的记忆体晶片:只读存储器(ROM)和随机访问存储器(RAM)。
There are two types of memory chips: read only memory (ROM) and random access memory (RAM).
使用VM系统,您有两个主要区域来存储有关活动应用程序及其使用的数据的信息——物理随机访问存储器(RAM)和硬盘驱动器上分配的空间。
With a VM system, you have two primary areas that store information about the active applications and the data it USES — the physical random access memory (RAM) and space allocated on hard drives.
假定您已经编写了一个文本编辑器;它提供了访问、读取、修改单独文件以及将它们写回到存储器的方法。
Suppose you have written a text editor; it provides means for accessing individual files, reading them, modifying them, and writing them back to storage.
您可以将变量的这些“线程局部”副本看作是与缓存类似,在每次线程需要访问变量的值时帮助它避免检查主存储器。
You could consider these "thread-local" copies of variables to be similar to a cache, helping the thread avoid checking main memory each time it needs to access the variable's value.
对物理存储器的访问:诸如设备驱动程序之类的RT应用程序总是需要追溯根源。
Access to physical memory: RT applications such as device drivers often need to get down to the metal.
它提供了一个通用的内存存储器,可保存任何东西,包括本地语言的对象,这就让您可以存储各种各样的信息并可以从诸多的应用程序和环境访问这些信息。
It provides a generalized memory store that can hold anything, including native-language objects, enabling you to store a variety of information and access it from many applications and environments.
一系列服务器通过一个客户界面访问Ceph生态系统,这就明白了元数据服务器和对象级存储器之间的关系。
A set of servers access the Ceph ecosystem through a client interface, which understands the relationship between metadata servers and object-level storage.
它具有一个18位的地址空间,可以访问256kb的本地存储器,后者是芯片本身的一个部分。
It has an 18-bit address space that accesses 256kb of local store that are part of the chip itself.
PPE用载入和存储指令访问主存储器(有效地址空间),可以在主存储器与内容可以缓存的私有寄存器文件之间移动数据。
The PPE accesses main storage (the effective-address space) with load and store instructions that move data between main storage and a private register file, the contents of which may be cached.
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。
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).
相反,SPU可以以L1缓存的速度来访问本地存储器中的任何128位的字。
Instead, the SPU can access any 128-bit word in the local store at L1 cache speed.
无法访问共享存储器。
本接口采用存储器访问模式,克服了某些CPU外围通信接口少的缺点,易于实现双CPU间的总线对接,且无需考虑复杂的总线仲裁机制。
This type of bus interface can be accessed by memory mode and be applied to the exchange of data between two hosts, which can overcome the lack of communication interface in some types of CPU.
该方法能够有效地利用存储器访问的局部性特征,实施快速的完整性检验过程;
This approach efficiently utilizes the locality pattern of memory accessing to quicken the checking processes of integrity.
在提高了词典访问速度的同时,也兼顾了提高主存储器的空间利用率,而且本算法实现起来也比较容易。
It improves the speed of segmentation and utilization ratio of main memory. Furthermore, its implement is very easy.
为了提高嵌入式多媒体应用的实时性能,提出了一种最大化数据并行访问以便充分发挥CPU处理能力的片上存储器分配方法。
A memory allocation algorithm was developed to maximize parallel data access and make full use of CPU processing ability to improve real-time performance of embedded multimedia applications.
文章介绍了计算密集型体系解决存储器访问瓶颈的研究趋势。
The paper introduces the research trend for the access bottleneck between the data intensive computing architecture and memory.
比如说,你若不想让网络上所有人登录路由器管理界面以访问US B存储器,说明书中只提到了唯一方法。
For example, you wouldn't want everyone on the network to sign in to the router's administration screen just to access the USB storage, yet that's the only method it mentions.
目标处理器能够比访问系统存储器中的数据更有效率地访问高速缓存中的数据。
The target processor can access data in the cache more efficiently than it accesses data in the system memory.
目标处理器能够比访问系统存储器中的数据更有效率地访问高速缓存中的数据。
The target processor can access data in the cache more efficiently than it accesses data in the system memory.
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