最高有效位

The most significant bit is transferred first during address and data phases.

最高有效位被首先移送，在地址和数据阶段。

In this paper we will use the concept of "mutual opposite form" to simultaneously recode two scalars stating at most significant bit to least significant bit, i.e. left-to-right recoding. We propose a new representation with low joint Hamming weight to reduce the number of elliptic curve point additions to achieve decreasing the operation cost.

本文将透过符号交替表示式，针对两纯量从最高有效位元(most significant bit， MSB)编码至最低有效位元(least significant bit， LSB)以同步的方式重新编码，新的表示式具有低结合汉明权重特性，可以减少椭圆曲线点加法运算次数，达到降低运算成本的目的。

The coding method includes the steps of representing respective digital data by digits of a predetermined same number, and coding the digital data represented by digits of the same number by a predetermined coding method from the uppermost significant digit sequence to the least significant digit sequence.

编码方法包括以下步骤：用相同的预定位数表示有关数字数据，以及使用预定编码方法自最高有效位序列至最低有效位序列将由相同位数表示的数字数据编码。

In computing , most significant bit is the bit position in a binary number having the greatest value. The msb is sometimes referred to as the left-most bit , due to the convention in positional notation of writing more significant digits further to the left.

在计算机运算中，最高有效位，是指在一个二进制数中具有最大值的那一个二进制位。msb有时也被称为"最左边的位"，这是因为在权位记数法中习惯上将较大的有效数字顺序的写在左边。

This paper presents a non-watermarking algorithm based on the most significant bits to construct the key. Firstly, the binary watermarking image is scrambled and extended to the size of the main image. Then the value of every pixel of the watermarking image is compared with that of the corresponding MSB of the main image. When the compared value is true, the location of the main image is marked by a zero matrix, and the marked zero matrix is a key that can be used to detect the watermarking image later.

本文提出一种基于最高有效位构造密钥的零水印算法，先将二值水印图像置乱并拓展为载体图像的大小，再将其像素值与载体像素的MSB进行对应比较，当比较结果为真时，用一个零矩阵来标记载体像素的位置，被标记过的零矩阵作为密钥来检测水印。

This paper presents a nonwatermarking algorithm based on the most significant bits to construct the key. Firstly, the binary watermarking image is scrambled and extended to the size of the main image.Then the value of every pixel of the watermarking image is compared with that of the corresponding MSB of the main image. When the compared value is true,the location of the main image is marked by a zero matrix, and the marked zero matrix is a key that can be used to detect the watermarking image later.

本文提出一种基于最高有效位构造密钥的零水印算法，先将二值水印图像置乱并拓展为载体图像的大小，再将其像素值与载体像素的MSB进行对应比较，当比较结果为真时，用一个零矩阵来标记载体像素的位置，被标记过的零矩阵作为密钥来检测水印。

Because this threshold is set from the four MSBs, the user can quickly adjust the system gain to avoid an overrange condition.

由于此阈值由四个最高有效位设置，因此用户可以迅速调整系统增益，以避免发生超量程情况。

The modular design of printNet system is divided into several application part, such as data processing tools, design tools, products, Business card printing tools, and solutions to technical tools, of which the highest is a design tool over the actions that it printLayout from page formatting and setting variables, but also can be used by an operator in a transform tool programming, so that the contents of the variables in a database in output for operations, now produetion of mostly to one-dimensional bar codes and encrypted bit or anti-false, the party is a method in the bar code by addition, subtraction, multiplication, Division, opinins Mo, and so after the results or the results of data, or the result is converted to the data that corresponds to a location in one of the ntehs detection accuracy is valid, just make a bit of the inverse operation, the operation that results in comparison with the original data, such as the same as the data is valid, such as different then the data is not valid, this scenario is the most simple and most primitive anti-counterfeit. PrintNet software to complex product environment " interpuntion and output the integration of integrated management " solution possible.

printNet系统的模块式设计分为几个应用部分，如数据处理工具、设计工具、产品制卡工具以及方案解决工具，其中技术含量最高的是对设计工具printLayout的操作，它除了设计页面格式和设置变量外，还可由操作员在转换工具中编程，以便对数据库中的变量内容在输出时进行运算操作，现在生产中应用的大多是给一维条码加校验位或是防伪加密，其方一法是将条码中的数据经过加、减、乘、除、取莫等运算后，将结果或将结果中的几位至于数据后，或将结果转换成对应符号放在数据中的某个位置，如须检测某一数据是否准确有效，只要把校验位上的数进行逆运算，把运算结果与原数据比较，如相同则数据有效，如不同则数据无效，这种方案是最简单最原始的防伪加密的方法。printNet软件系统使得在复杂产品环境下的&排版与输出一体管理&的集成解决方案成为可能。

This didn't affect data (which was 56 kilobits per second in the seven most significant bits) nor the signaling which required every signal to be repeated multiple

这样做不会影响数据（7位最高有效位中传输速率为56Kbps）或信令（每一个信号到达接收机前需要重复发送多

As PTDT does in threshold traits, PTDT is valid not only for different QTL effect level, but also for maker with multiple alleles and multiple tightly linked markers.(2) Under an appropriate selection ratio s (in this study, s is 0.2, 0.4, 0.6, 0.8, respectively), the power of PTDT can be improved and the genotying individuals can be decreased using selective genotyping design. However, the power of PTDT is related with population size and population structure, an appropriate selection ratio can be defined by simulation based on the existing data.(3) Among the three transforming methods, mixed-family selection is the best, full-sib selection has same power to mixed-family selection in many parameter combinations, and Estimated Breeding Value selection is inferior to them.

数量性状QTL定位的模拟研究结果表明：(1)数量性状经有效转化后，PTDT对数量性状QTL定位保持了阈性状QTL定位的稳健与高效，对不同效应大小的QTL(10％，30％，50％)PTDT都是一个有效的分析方法；(2)在多等位基因标记、多标记方面，PTDT的检验功效与阐性状分析时一样高效；(3)在合适的选择率下(本研究的分别为0.2，0.4，0.6，0.8，1.0)，选择性基因型测定不仅可以减少基因型测定的数量，而且可以提高PTDT的检验功效，但选择性基因型测定的PTDT检验功效很大程度上与群体大小和结构有关，这个可根据具体情况通过模拟找到一个合适的选择率；(4)三种转化方法的转化效力结果表明，家系内混合家系选择的转化效力最高，家系内全同胞选择次之，估计育种值选择的转化效力较差。

catch sb. out：发觉某人的错误

vaporescence 汽化(或蒸发)过程 | catch sb. out 发觉某人的错误 | most significant bit 最高(有效)位

crucify：十字架上钉死

pale around the gills 脸色苍白 | crucify 十字架上钉死 | highest significant position 最高有效位

macro command：宏指令

系统中的主控微处理器则通过向cl680发送宏指令(macro command)完成与cl680的通讯. 程序流程图如图3所示. CL680的宏指令分为高优先级和低优先级两种,通过命令ID的最高有效位区分(1为高优先级命令,0为低优先级命令).

segmenting：分段

8位数字-模拟转换器(DAC),它们能方便地与大多数通用微处理器接口.这些器件是8位,乘法(multiplying)DAC,具有输入锁存以及与随机存取存储器写周期相类似的装载周期(load cycles).分段(segmenting)高阶位可使最高有效位变化期间内的闪变为最小,

most significant digit：最高有效位

通常我们从最高有效位(most significant digit)开始自左向右书写一个数字. 在理解有效位这个概念时,可以想象一下你的支票数额的第一位增加1和最后一位增加1之间的巨大区别,前者肯定会让你喜出望外.

MSB most significant figure：(最高有效位)

LSB least significant figure(最低有效位) | MSB most significant figure(最高有效位) | mantissa 尾数

LSB least significant figure：(最低有效位)

significant figures 有效数字 | LSB least significant figure(最低有效位) | MSB most significant figure(最高有效位)

most significant bit：最高(有效)位

uint64, sint32, sint64, fixed32, fixed64, bool, string, bytes等,另外支持枚举、嵌套/引用的消息类型等高位为0的字节去掉以后,用来存储整数的每一个字节,其最高有效位(most significant bit)用作标识位,0表示这是整数的最后一个字节,

most significant character：最高有效字符

most significant bit最高有效位 | most significant character最高有效字符 | most significant digit最高位

most significant character：最高位字符,最高有效字符

most significant byte ==> 最高有效字节=>最上位のバイト | most significant character ==> 最高位字符,最高有效字符 | most significant digit ==> 最高有效数,最高有效位数字