指令译码器集成丰富的指令集;
The instruction decoder integrates a large number of instructions.
当微处理器对该指令译码是,的操作序列来执行。
Each instruction may require a different sequence of operations to execute the instruction.
尽管图中没有显示,但指令译码器还有下列功能的控制线。
Although they are not shown in this diagram, there would be control lines from the instruction decoder.
按照指令译码的结果,这些指令的执行不会用到系统总线。
As with instruction decoding, the execution of these instructions does not make use of the system buses.
在协处理器中,微程序控制器的微码控制是协处理器指令译码的控制核心。
The executing of the microcode function of the microprogram controller is very crucial to the instructions decoder in the coprocessor.
控制单元由程序存储器ROM、指令译码器、地址生成模块、程序计算器PC 组成。
The control path contain Instructor ROM, instructor register, instructor decode unit, address creating module and Program Counter (PC)module.
当微处理器对该指令译码时,它确定处理的是哪一条指令以便选择正确的操作序列去执行。
When the microprocessor decodes the instruction, it determines which instruction it is in order to select the correct sequence of operations to perform.
指令译码器将编码指令信号进行译码,最后由驱动电路来驱动执行电路实现各种指令的操作。
Encoding instruction decoder for decoding command signals, and finally by the drive circuit to drive the implementation of circuit operation to achieve a variety of commands.
接收器一般由接收电路、放大电路、解调电路、指令译码电路、驱动电路和执行电路几部分组成。
Receiver general by the receiving circuit, amplifier, demodulator circuits, instruction decoder circuit, drive circuit and the implementation of the circuit composed of several parts.
译码单元由指令缓存器和指令译码器构成,针对12位的指令代码翻译成16位控制信号,传送给处理器内部各个部件,用以保证各部件正常工作。
The encoding unit, composed of instruction buffer and command encoder, translates the 12-bit command code to 16-bit control signal, and ensures each part of the system to work steadily.
有了 tokenizer,就很容易译码处理指令。
With the tokenizer, it is easy to decode the processing instructions.
流水线是 CPU所使用的一个众所周知的概念,它用于减少取指令-译码-执行 周期中出现的延迟。
Pipelining is a well-known concept employed by CPUs for reducing the latency involved in the fetch-decode-execute cycle.
采用编译控制的译码方法,具体分析了译码的数据处理流程,介绍了模态指令处理等相关问题。
The way of compiling control coding is adopted, and coding data process flow is analyzed detailed, while some relevant problems such as modal instrument procession are introduced.
对486指令系统的指令长度、指令的使用频率、指令的编码特点进行了深入分析,提出了加快译码速度的设计方案。
Deeply studied the length of the 486 instructions, frequency in using of the instructions, the character of the instruction encoder. Brought out the design idea to speedup decoding.
作为固定循环指令中的复合固定循环功能,由于包含较复杂的加工信息,如何快速而正确地对其识别是译码的难点之一。
As fixed multiple repeating function contains complex machine information, it's quite a little difficult to translate the relative codes rapidly and accurately.
控制部件从存储器中取出指令,并确定其类型或对之进行译码,然后将每条指令分解成一系列简单的、很小的步骤或动作。
The control unit fetches instructions from memory and determines their type or decodes them. It then breaks each instruction into a series of simple small steps or actions.
微指令不需译码。
像RISC一样,这些早期的计算机是具有简单且易于译码指令系统的直接支持计算机。
Like RISC, these early computers were direct-execution machines that ha simple and easy-to-decode instruction sets.
文章以FANUC车床CNC系统为例,介绍了复合固定循环功能的含义以及采用C语言对该类指令进行译码的一种简捷方法。
This article take the lathe CNC system of FANUC for example, explaining the meaning of fixed multiple repeating function and a com…
文章以FANUC车床CNC系统为例,介绍了复合固定循环功能的含义以及采用C语言对该类指令进行译码的一种简捷方法。
This article take the lathe CNC system of FANUC for example, explaining the meaning of fixed multiple repeating function and a com…
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