1) ripple carry adder
行波进位加法器
1.
The BIST of the principle of achieving is introduced first in this paper,then take the 8-bit ripple carry adder as an example,describes the design process of BIST.
文中首先介绍了内建自测试的实现原理,在此基础上以八位行波进位加法器为例,详细介绍了组合电路内建自测试的设计过程。
2) anticipated carry adder
先行进位加法器
3) ripple carry method
行波进位法
4) ripple adder,traveling wave accellerator
行波加法器
5) ripple adder
函位进位加法器
6) Carry look-ahead adder
超前进位加法器
1.
Design of 16-bit carry look-ahead adder;
16位超前进位加法器的设计
2.
In a computer,which is comprised of some logic parts with serial logic functions,the adder is the most basic and important logic circuit,but the traditional rapid adder circuit uses the carry look-ahead adder,which has some shortcomings,such as abnormity,needing long-line drive.
传统的快速加法器是使用超前进位加法器,但其存在着电路不规整,需要长线驱动等缺点。
补充资料:加行结愿
【加行结愿】
(术语)密法传授之加行终了也。
(术语)密法传授之加行终了也。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条