1) fundamental arithmetic circuit
基本算术运算电路
2) fundamental operation of arithmetic
算术基本运算
3) basic operation
基本运算
1.
An approach of employing MTN for basic operation in ternary logic was proposed to achieve arbitrary ternary functions in neural networks.
分析了利用多阈值神经元实现多维空间中多区域非线性划分的原理,以利用神经元实现异或运算为例,阐述了采用多阈值神经元相对于单阈值神经元实现逻辑运算的优点,提出用一个多阈值神经元实现三值逻辑基本运算的方法,从而解决了用多阈值神经网络实现任意三值逻辑函数的问题。
2.
This paper discusses on the basic operations of mathematical morphology and researches on the method of using these operations to process the image polluted by noise.
讨论了数学形态学的基本运算及其性质,研究了应用这些运算恢复噪声污染图像的方法。
4) fundamental operations
基本运算
1.
How to express eivision operation with fundamental operations in relational algebra;
关系代数中用基本运算表示除法运算
5) operational circuit
运算电路
1.
It is usually a case that the resistance balancing at the input end of the operational circuit can not meet the need with the realization of operational relations as required at same time.
求和运算电路输入端电阻平衡和实现所要求的运算关系,往往不能同时满足要求,本文给出的电路可以做到这一
6) computation circuit
运算电路
1.
By producing evaluating completion signal early and using DSDCVS logic to design computation circuit of reconfigurable cell,a modified control circuit is proposed.
通过提前产生求值完成信号,使用DSDCVS逻辑实现可重构单元的运算电路,改进了异步可重构单元的控制电路。
补充资料:不定积分的运算法则
又称为“不定积分的性质”,包含如下两个性质:
(1)设函数f(x)的原函数存在,k是常数,k≠0,则
∫kf(x)dx=k∫f(x)dx
(2)设f(x),g(x)是两个可积分的函数,则
∫[f(x)+g(x)]dx=∫f(x)dx+∫g(x)dx
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