1·The loop decrypts a given memory block using an 8bit XOR key.
通过一个8位异或对给定的内存块进行循环解密。
2·Standard Boolean operators are available, such as and, or, xor and not.
可以使用标准的布尔操作符,比如and、or、xor和not。
3·This instruction handler is therefore handling Virtual XOR instruction.
这个指令操作是处理虚拟XOR指令。
4·This allows you to perform bitwise logical and, or, XOR, and NOT comparisons.
这样便可以执行逐位的逻辑AND、OR、XOR和NOT比较。
5·Due to the fact that encryption is done by XOR, the algorithm is pretty fast.
由于是通过加密进行异或事实上,该算法非常快。
6·To encrypt a byte, we xor this pseudo-random byte with the byte we want to encrypt.
对一个字节进行加密,我们对伪随机字节和要加密的字节进行异或运算。
7·XOR - Matches documents where either the first or second expression match, but not both.
XOR—匹配那些或者第一个或者第二个表达式匹配,而不是两个都匹配的文档。
8·The principle of using karnaugh maps to simplify XOR logical functions is explored.
探讨了卡诺图化简异或逻辑函数的原理,提出了化简异或逻辑函数的新方法。
9·The logical operators or, and, NOT and XOR can be used with a specified search proximity.
逻辑或营办商,并没有和异或可用于与指定的搜索距离。
10·So the XOR operation is one of the most frequent and important operations for RAID systems.
因此,异或运算是RAID系统工作时频繁而且重要的操作之一。
1·So to see if this is a losing position we have to XOR the number of objects in each row, as follows.
因此,要看看这是一个失去的地位,我们必须异或在每一行对象的数量,内容如下。
2·The logical operators or, and, NOT and XOR can be used with a specified search proximity.
逻辑或营办商,并没有和异或可用于与指定的搜索距离。
3·The multilogic function devices based on the RST (real space charge transfer) structure are being used to realize such logic functions as XOR, "OR" and "NAND.
(实空间电荷转移)逻辑器件已能够实现“异或” 、“或” 以及“与非”功能。
4·The xor thinking and specific methods of carrying out easy animation with C language are proposed.
提出C语言实现简单动画的异或思路和具体方法。