在程序设计中,把数据送入存储器或工作寄存器。
In programming, to enter data into storage or working registers.
在程序设计中,把数据送入存储器或工作寄存器。
In computer security, data left in storage after processing operations and before degaussing or rewriting has taken place.
内存中的一块留用存储区,当程序中断产生时,CPU自动在其中保存程序计数器和工作寄存器的内容。
A reserved area of memory where the CPU automatically saves the program counter and the contents of working registers when a program interrupt occurs.
设计能在Linux操作系统下工作的C2调试工具(然而这个任务需要C2调试说明书,比如寄存器映象和引用命令——如能提供帮助万分感激)
To prepare the C2 debugging tools working under Linux OS (however C2 debugging specifications, like register map and command reference, are needed for that task - any help is appreciated)
它有单独的浮点寄存器,可以从低端工作站扩展到高端工作站。
It had separate floating point registers and could scale from the low - to the high-end workstations.
更好的是,对于小型对象,J VM可以把分配工作完全优化掉,只把对象的字段放入寄存器。
Even better, for small objects, the JVM can optimize away the allocation entirely and simply hoist the object's fields into registers.
与使用32 位的寄存器相比,由于使用了 64位的寄存器,要执行相应的计算工作,只需使用更少的指令。
These can, by virtue of 64-bit registers, perform computations with fewer instructions than with 32-bit registers.
按照逻辑芯片设计特点,将芯片工作时的信号分为4种:时钟信号、输入信号、组合输出信号和寄存器输出信号。
According to the logic chip design feature, the chip work's time signal can be divided into 4 kinds: clock signal, input signal, combination output signal and register output signal.
一些个人平台提供了一种方式写这些从C控制寄存器,但是没有便携式接口,跨平台工作。
Some individual platforms provide a means to write to these control registers from C, but there's no portable interface that works cross-platform.
软件上,通过设置相应寄存器的控制位,可以使单片机在不同的低功耗模式下工作。
For software, we can have the microprocessor to work with different low power modes by setting the controller bit of the corresponding register.
之后,驾驶员命令设备来完成其工作(通过操纵其寄存器)和直接在设备传送输出数据在存储器中分配的缓冲区。
Then the driver commands the device to do its job (by manipulating its registers) and the device transfers output data directly to the allocated buffer in the memory.
对ARM处理器的工作模式,寄存器的设置和分配进行了研究。
The operation model, the setting and distributing of register in ARM processor have been studied.
论文分析了处理器内部部件的工作原理,详细阐述了微处理器的取指单元、译码单元、执行单元、寄存器组和控制核心的设计。
The work principle of every part of microprocessor is analyzed, and a strong emphasis is laid on the design of program counter, instructions decipher, execute unit, register group and control center.
本文的不足之处是没有对其他模块如寄存器模块和位时序逻辑模块等进行详细的研究和设计,以后还需要做进一步的工作。
The shortcoming of the article is the lack of the detailed study and design of other modules such as the register module and bit timing logic modules. Further work needs to be done later.
介绍了音频模拟接口芯片TLC320AD50C的原理和使用注意事项,以及TMS320 VC 5402串行口的主要特点,并且详细分析了TMS320 VC 5402控制寄存器的配置和工作过程。
The TLC320AD50C principles and main characteristic of the serial port of TMS320VC5402 are introduced and the configuration of control registers and their process of operation are analyzed.
文章详细讨论了RTCC、OPTION寄存器、预定标器及同步延时单元的电路结构、工作原理及设计特点。
The paper details the RTCC, OPTION register, prescaler and sync delay circuit principle and design feature.
分析了卷积交织原理和交织器中移位寄存器的工作方式。
The principle of convolutional interleaver and the working mode of shift registers are analysed.
上述工作是为了建立一个将寄存器传输级语言描述翻译成硬件逻辑图的自动逻辑综合系统。
The above work is intended to set up an automatic logic synthesis system to translate a register transfer level language descriptions into hardware logic diagrams.
在电流工作方式下,通过设计优化的存储单元、新型高速电流灵敏放大器以及一种灵敏放大器控制信号产生电路,提高了寄存器堆的读取速度。
High speed is achieved by using current mode techniques, which include designing optimum register cell, new high speed current sense amplifier and sense amplifier control signal generator.
掉电模式时晶体振荡器停 止振荡,所有功能除了中断和硬件复位之外都停止工作,寄存器的内容则一直保持;
The Powerdown mode saves the register contents but freezes the Oscillator, disabling all other chips until the next interrupt or hardware reset.
利用一个片内控制寄存器,用户可以设置不同的工作条件,包括模拟输入范围和配置、输出编码、功耗管理及通道序列化。
An on-chip control register allows the user to set up different operating conditions, including analog input range and configuration, output coding, power management, and channel sequencing.
初始化配置通过对高频头的内部结构分析,从而对相关寄存器进行配置,驱动高频头正常工作。
The initialization task is to initialize the registers to drive the RFC by analyzing the interior structure of RFC.
通过设置812IE寄存器、初始化CAN控制器并将其置为复位模式、配置控制器寄存器并置为正常工作模式等,可实现CAN通讯。
After configuring IE register in AduC812, initializing CAN Contrloller and configuring it into normal modes etc, The communication on CAN Bus began.
微处理器的一般结构:寄存器组,寄存器管理,总线时序,工作模式以及类型提供配置。
The general composition of microprocessor: register group, register management, bus line sequential, working mode and type offer configuration.
电势分布沿信号电荷密度流方向衰减且电荷载流子倍增寄存器工作频率越高,电势衰减越快。
It is attenuated along the direction of charge density. The higher the CCM frequency is, the sooner the potential attenuation is.
电势分布沿信号电荷密度流方向衰减且电荷载流子倍增寄存器工作频率越高,电势衰减越快。
It is attenuated along the direction of charge density. The higher the CCM frequency is, the sooner the potential attenuation is.
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