本文提出了一种基于算术加法生成器的测试或内建自测试的低功耗测试方法。
A low power test approach for test or built-in self-test based on arithmetic additive generator is proposed in this paper.
基于算术加法测试生成,提出了VLSI中加法器的一种自测试方案:加法器产生自身所需的所有测试矢量。
A self-test scheme, under which all test patterns for adder under test in VLSI are produced by the adder self, is presented based on arithmetic additive generator.
Python对算术运算提供完整支持,包括加法、减法、乘法和除法(参见表3)。
Python provides full support for arithmetic operations, including addition, subtraction, multiplication, and division (see Table 3).
操作:LESS和Sass都支持简单的算术操作,例如加法。将这个特性和变量结合起来,会使得CSS变得更加灵活。
Operations: both LESS and Sass allow for simple arithmetic operations such as adding values, which becomes useful with variables to make CSS files more flexible.
正如您所猜测的,算术运算是基本的数学操作:加法、减法、乘法和除法。
As you might guess, Arithmetic operations are the fundamental math operations: addition, subtraction, multiplication, and division.
学算术要学会加法和减法。
本文提出了一种利用整数加法和移位实现二值算术编码的方法。
In this paper, we propose a new implementation of bit level arithmetic coding by use of integer additions and shifts.
二进制加减法,全加器实现及其性能,高速加法,带符号算术运算。
Binary Addition and Subtraction, Implementation and Performance of the Full Adder, High-speed Addition, Signed Arithmetic.
复数算术推导了正弦,余弦的加法公式。
We derive the addition formulas for sine and cosine from the arithmetic of complex numbers.
种族进化史研究表明,动物具备算术能力,它们运用数量感来表征可数与不可数的数量,并以此为基础进行加法、减法、乘法和除法运算。
It means they can represent countable and uncountable quantity with mental magnitude. They can perform addition, subtraction, multiplication and division.
算术逻辑运算单元(ALU)决定着中央处理器(CPU)的性能,而加法器又决定着ALU的性能。
The arithmetic logic unit(ALU) decides the performance of the Central Processing Unit(CPU), while the adder decides that of the ALU.
该加法器可以实现两输入的光学算术运算。
This adder can realize the optical arithmetic operation with two inputs.
算术逻辑部件的缩写,执行全部算术计算,例如加法和乘和全部比较运算的一台计算机的零件。
Abbreviation of arithmetic logic unit, the part of a computer that performs all arithmetic computations, such as addition and multiplication, and all comparison operations.
在现代的电脑中,加法器存在于算术逻辑单元之中。
In the modern computer, the adder being present in the arithmetic logic unit.
在现代的电脑中,加法器存在于算术逻辑单元之中。
In the modern computer, the adder being present in the arithmetic logic unit.
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