To temporarily adjust the allocation of storage and program memory, move the slider.
要临时调整存储和程序内存的分配,可移动滑块。
This program memory addressing logic is handled by a register referred to as a program counter.
程序存储器的导址逻辑是由寄存器来实现的,这个寄存器叫程序计数器。
Memory is managed automatically. To temporarily adjust the allocation of storage and program memory, move the slider.
设备可自动管理内存。要临时调整存储和程序内存的分配,可移动滑块。
As a result, one full duplex implementation needs 33 MIPS, 1.7 K words of program memory, and 2.3 K words of data memory.
实际结果表明,一路全双工实现所需计算量为33MIPS(兆整点指令每秒),1.7k字程序空间和2.3 k字数据空间。
The on-chip Flash allows the program memory to be reprogrammed in-system or by a conventional nonvolatile memory programmer.
片上闪存步伐存储器可以编程就可以在体系或由传统的非易失性存储器编程。
Its successor was the 4040 processor (released in 1974), which had an expanded instruction set, program memory, register set, and stack.
其后面是4040处理器(1974发布),其具有扩展指令集、程序内存、寄存器集和堆栈。
Another embodiment includes applying a lower program voltage to program memory cells of the last word line to select physical states.
另一实施例包括施加较低的编程电压,以将所述最末字线的存储器单元编程为选择物理状态。
DSP adopts Harvard structure in which program memory and data memory are divided. DSP can realize various digital signal process algorithms by special hardware multiplier.
DSP内部采用程序和数据分开的哈佛结构,具有专门的硬件乘法器,可以用来快速地实现各种数字信号处理算法。
The display changes when you swap memory pages so you need not copy an Image object from program memory to video memory; you merely change video Pointers and the display changes.
当交换内存页时显示就发生更改,所以您不需要将Image对象从程序内存复制到显示内存;您只要更改视频指针,显示就会发生更改。
User program memory size required is not only the function of the system with the PLC, but also with the function of the realization of the method, the level of programming.
用户程序所需的存储容量大小不仅与PLC系统的功能有关,而且还与功能实现的方法、程序编写水平有关。
The medical image processing system, which centers on the least system of the PXA255 processor, is expanded by adding program memory, data memory, UART, USB and Ethernet interface.
医学影像处理系统以PXA255处理器的最小系统为核心,扩展了程序存储器、数据存储器、UART串口、USB和以太网接口。
The system adopted AT89S51 CPU, which can finish controlling, computing, storing and communication functions through extending program memory, data memory, serial port and parallel port.
本系统CPU采用AT 89s51,通过程序存贮器、数据存贮器、串口和并口的扩展,可以完成控制、计算、存贮和通讯等功能。
Wang Feng showed his super memory in the program Super Brain.
王峰在《最强大脑》节目中展示了他超强的记忆力。
Using them along with the debugger helps you track memory use with the program execution which manifests a memory error.
利用它们和这个调试器将帮助您跟踪带有程序执行的内存,这表明一个内存错误。
This instructs DB2 to pass the index keys to the sort program in memory, rather than having the keys written to and read once again from sort work files on DASD.
这将指示DB 2将索引键传递给内存中的排序程序,而不是再次将这些键写到DASD上的排序工作文件中,然后从中读取这些键。
However, such an implementation is hardly ever acceptable: it will cause a program to run out of memory quickly since it never reclaims unused space.
尽管如此,这样的实现是无法接受的:因为它从来不回收不使用的空间,它导致程序很快会用光内存。
Many memory leaks result due to program errors that cause clean up methods from not getting invoked.
许多内存泄漏是由于程序错误产生的,此类错误导致清除了未调用的方法。
In general, "state" refers to information about the current conditions of program execution-runtime data stored in memory.
总的来说,“状态”是指关于程序当前的执行状况的信息——存储在内存中的运行时数据。
For example, your program runs out of memory or encounters divide-by-zero.
例如,你的程序运行耗尽内存,或者遇到被零除。
As mentioned above, many types of memory usage errors are insidious: the program appears to behave normally, even though it's at risk for memory corruption and improper behavior.
正如上面所提到的,许多内存使用错误都是潜伏的:程序似乎在正常地运行,即使它所面临着内存崩溃或者错误行为的危险。
This example program creates a cloned thread sharing memory space with the parent process.
这个程序例子创建了一个与其父进程共享存储器空间的克隆线程。
Notice that you're telling the GDB Debugger to quit debugging a program that is still active in memory.
请注意,您正告诉gdb调试工具停止对一个仍在内存中活动的程序的调试。
The DWARF line table contains the mapping between the source lines (for the executable parts of a program) and the memory containing the code corresponding to the source.
DWARF行表包含源行(属于程序的可执行部分)与内存(包含与源代码对应的代码)之间的映射关系。
This program demonstrates a basic memory leaking operation involving an unbounded growth in a cache object.
此程序演示的基本内存泄漏操作涉及缓存对象中的无限增长。
Every time a memory location is addressed for program instructions or data, a virtual address is translated into a physical or real memory address.
每次为程序指令或数据处理内存位置时,都需要将虚拟地址转换成物理(或实际)内存地址。
When a program writes to memory, the processor only modifies the line in the cache, but does not update main memory.
当一个程序写入存储,处理器仅仅只会修改缓存线,而不会更新主要的存储内容。
When a program tries to access memory using a virtual address, the OS in combination with on-chip hardware maps that virtual address to the physical location.
当程序尝试使用虚拟地址访问内存时,操作系统结合片上硬件将该虚拟地址映射到物理位置。
When a program tries to access memory using a virtual address, the OS in combination with on-chip hardware maps that virtual address to the physical location.
当程序尝试使用虚拟地址访问内存时,操作系统结合片上硬件将该虚拟地址映射到物理位置。
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