在本例中,求幂运算符是另一种形式的二进制运算符,所以使用现有BinaryOp case类就可以。
In this case, the exponentiation operator is another form of binary operator so the existing BinaryOp case class serves.
堆栈滤波器的特点是具有阈值分解和堆栈特性,这两个重要性质将滤波过程转化到二进制运算,易于VLSI 并行实现。
These two important properties ensure that thefiltering go on in binary filed only with easy comparison, addition and multiplication, which allow an efficient VLSI implementation.
下一个UDF在给定的两个整数值之间执行EXLUSIVE OR运算,这两个值已经被转换成二进制形式
The next UDF performs EXLUSIVE OR operation between two given integer values as translated to binary expressions
为了验证该函数确实按照所设计的方式工作,我们需要再次将每个整型数字转换成二进制数字,对每一个位执行EXLUSIVE OR运算,然后将结果还原成integer。
To verify that the function indeed works as designed, we, again, need to convert each integer to BINARY, perform EXLUSIVE or for each bit, and then convert the result back to integer.
逐位运算在其二进制形式的整型变量上执行逻辑AND、OR、EXLUSIVE OR和NOT运算。
Bitwise operations perform logical and, or, EXLUSIVE or, and NOT operations on binary representations of their integer arguments.
本文提出了一种能实时完成二进制逻辑运算的光学并行处理系统,并给出了作为半加法器的实验结果。
A real time optical logic processor is presented, that can perform binary logic operations in parallel. Experimental result is given of the system as a half adder.
本文介绍了一种在微处理器中用二进制定点运算和查表相结合的方法简单实现三角函数和反三角函数运算的方法。
This paper introduces a computation method of trigonometric functions and inverse trigonometric functions in microprocessor by usr of combination binary fixed point operation with look-up table.
接收端根据发送端的相关规则,进行非混沌同步的逆运算,恢复出二进制信息序列。
In the receive site, we operate non-chaos synchronization in reverse and resume binary message sequence by the correlated rule of the sender.
通过引入二进制分数及其相关运算,提出一种新的基于混沌映射的分组密码算法。
By introducing binary fraction and its related operations, a novel block cipher based on chaotic maps is proposed in this paper.
我们采用与十进制运算对比的办法来介绍二进制数的运算方法。
Let us look at parallels between arithmetic using binary Numbers and arithmetic using decimal Numbers.
此算法只扫描一遍数据库,并且二进制数的位运算速度比候选集与事务记录的比较运算速度要快得多。
This algorithm scans the data base only once and the speed of binary operation is faster than the speed of comparison of item sets and transactions.
二进制数常用来在电子计算机内部进行计数和运算,除此之外,在数学的其它领域中似乎与我们接触不多。
The binary numeration system is usually used to count Numbers and to calculate in (computers), while it is not used in other fields of mathematics.
根据混沌系统产生的二进制序列,设定神经网络的权值和阈值,对每一个像素进行加密和解密运算。
According to a binary sequence generated from a chaotic system, the weights and biases of the network are set for the encryption and or decryption of each signal element.
该算法利用二进制数分割无向图的顶点集,通过对子图各顶点的关联集的运算产生相应的割集。
The algorithm use a binary digit to divide the vertex set of a non-direction graph, and employ the incident sets of the vertices in the subgraph to produce opposite cut sets.
给出了用该网络实现两幅非相干输入的二进制光学图象的各种实时逻辑运算的实验结果。
The experimental results of all kinds of real -time diginal optical logical computing of two incoherent input images with the interconnection are given.
基本逻辑元素(门或运算符)之一,它至少有两个二进制输入信号和一个二进制输出信号。
One of the basic logic elements (gates or operators) which has at least two binary input signals and a single binary output signal.
数字逻辑电路则用来表示二进制数集合上的各项逻辑运算功能的一种实现方式。
These digital logic circuits are viewed as implementations of Boolean functions that operate on a set of binary valued variables.
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.
通过FIR数字滤波器卷积和操作的计算机数值仿真表明,采用这些方法运算得到的结果与传统二进制算术编码算法完全等效,可应用于混沌信号处理系统。
By computer simulation with convolution sum of FIR digital filter, the results show that the model is the same as traditional binary coding arithmetic which can be used in chaotic...
分析结果表明:在译二进制码时,时域算法的运算量较少、实现比较容易;
The decoding in time domain is shown be simpler in a binary system;
把原单词和替换词分别代入SHA - 1算法运算,通过比较摘要信息的大小而确定原单词与替换词各表示的二进制值。
Then these two words will be sent to SHA-1 for digest calculation, the results of which will decide the binary values of both words.
传统的二进制计数系统具有链式进位,往往限制了计算机的运算速度。
The conventional binary number system has a carry chain which often limits the efficiency of computer arithmetic.
研究了怎样利用基于TOAD的光开关来设计全光集成电路,从而进行二进制加减法运算。
We try to exploit the advantages of TOAD-based optical switch to design an integrated all-optical circuit which can perform binary addition and subtraction.
基本出发点是减少运算的重复迭代次数,采用每次运算能得到二位结果的算法而不是常规的每次只能得到一位结果的二进制算法。
These algorithms are aimed at reducing the number of repeated iterative operations. The use of radix 4 leads to 2-digit results for each iterative operations.
基本出发点是减少运算的重复迭代次数,采用每次运算能得到二位结果的算法而不是常规的每次只能得到一位结果的二进制算法。
These algorithms are aimed at reducing the number of repeated iterative operations. The use of radix 4 leads to 2-digit results for each iterative operations.
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