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逻辑 的英文翻译、例句

逻辑

基本解释 (translations)
dialectics  ·  logic  ·  logics

更多网络例句与逻辑相关的网络例句 [注:此内容来源于网络,仅供参考]

There is important realism meaning in-depth researching for arithmetic of logic function complement set .

逻辑函数的求补在逻辑综合中最为常见,求补算法的优劣直接关系到逻辑优化算法的时效,在逻辑优化算法中由于会频繁调用逻辑函数求补运算过程[1~3],因此逻辑函数的求补是逻辑优化算法的基础。

Legal syllogism is the basic model which is used by the accuser, the defender and the trier in criminal trial. What is its logical foundation? There are mainly three kinds of viewpoints up to now. According to traditional theory, it is categorical syllogism and deductivists think it is whole deductive logic, while anti-deductivists deny that logic plays an important role in a trial.

法律三段论是刑事诉讼中控、辩、审三方所采用的最基本的法律论证模式,其背后的逻辑基础是什么,目前主要有三种观点:根据传统观点,法律三段论的逻辑基础是直言三段论;演绎逻辑基础论者主张演绎逻辑是法律三段论的逻辑基础;反演绎逻辑基础论者基本上否定了逻辑在法律审判中的作用。

Legal syllogism is the basic model which is used by the accuser,the defender and the judge in criminal trial.What is its logical foundation? There are mainly three kinds of viewpoints up to now.According to traditional theory,it is categorical syllogism,and deductivists think it is whole deductive logic,while anti-deductivists deny that logic plays an important role in a trial.

法律三段论是刑事诉讼中控、辩、审三方所采用的最基本的法律论证模式,其背后的逻辑基础是什么,目前主要有三种观点:根据传统观点,法律三段论的逻辑基础是直言三段论;演绎逻辑基础论者主张演绎逻辑是法律三段论的逻辑基础;反演绎逻辑基础论者基本上否定了逻辑在法律审判中的作用。

The main contributions of the second part of this dissertation are focused on the cryptographic properties of logical functions over finite field, with the help of the properties of trace functions, and that of p-polynomials, as well as the permutation theory over finite field: The new definition of Chrestenson linear spectrum is given and the relation between the new Chrestenson linear spectrum and the Chrestenson cyclic spectrum is presented, followed by the inverse formula of logical function over finite field; The distribution for linear structures of the logical functions over finite field is discussed and the complete construction of logical functions taking on all vectors as linear structures is suggested, which leads to the conception of the extended affine functions over finite field, whose cryptographic properties is similar to that of the affine functions over field GF (2) and prime field F〓; The relationship between the degeneration of logical functions and the linear structures, the degeneration of logical functions and the support of Chrestenson spectrum, as well as the relation between the nonlinearity and the linear structures are discussed; Using the relation of the logical functions over finite field and the vector logical functions over its prime field, we reveal the relationship between the perfect nonlinear functions over finite field and the vector generalized Bent functions over its prime field; The existence or not of the perfect nonlinear functions with any variables over any finite fields is offered, and some methods are proposed to construct the perfect nonlinear functions by using the balanced p-polynomials over finite field.

重新定义了有限域上逻辑函数的Chrestenson线性谱,考察了新定义的Chrestenson线性谱和原来的Chrestenson循环谱的关系,并利用一组对偶基给出了有限域上逻辑函数的反演公式;给出了有限域上随机变量联合分布的分解式,并利用随机变量联合分布的分解式对有限域上逻辑函数的密码性质进行了研究;给出了有限域上逻辑函数与相应素域上向量逻辑函数的关系,探讨了它们之间密码性质的联系,如平衡性,相关免疫性,扩散性,线性结构以及非线性度等;讨论了有限域上逻辑函数各类线性结构之间的关系,并给出了任意点都是线性结构的逻辑函数的全部构造,由此引出了有限域上的"泛仿射函数"的概念;考察了有限域上逻辑函数的退化性与线性结构的关系、退化性与Chrestenson谱支集的关系;给出了有限域逻辑函数非线性度的定义,利用有限域上逻辑函数的非线性度与相应素域上向量逻辑函数非线性度的关系,考察了有限域上逻辑函数的非线性度与线性结构的关系;利用有限域上逻辑函数与相应素域上向量逻辑函数的关系,揭示了有限域上的广义Bent函数与相应素域上的广义Bent函数的关系,以及有限域上的完全非线性函数与相应素域上向量广义Bent函数之间的关系;给出了任意有限域上任意n元完全非线性函数存在性与否的完整证明,并利用有限域上平衡的p-多项式的性质给出了有限域上完全非线性函数的一些基本构造方法。

The method includes establishing one reverse mapping list comprising list items; reading the mapping data recorded in the data block state list item area to the list items during system initialization; checking reverse mapping list and finding the data block in Flash memory during reading some logic block; and writing the updated data into the empty data area of one new data block, writing the mapping data between the new logic block and the new data block into the state list item area and updating the mapping data of the corresponding list item in the reverse mapping list during writing some logic blcok.

包括:建立一个由表项组成的反向映射表,一个表项对应一个逻辑块;在系统初始化过程中,将数据块状态表项区中记录的映射信息,按逻辑块号与表项间的对应关系读取到各表项中;读取某逻辑块时,以其逻辑块号作为表项索引查找反向映射表,定位到表项,根据表项中记录的映射信息,在Flash存储器件中查找到数据块;写入某逻辑块时,将更新数据写入一新数据块的空白数据区中和将该逻辑块与新数据块间的映射信息写入状态表项区中,同时更新反向映射表相应表项的映射信息。

Administrative jurisprudence analyse logic fundamentally moves forward from subject and object logical relation,state will expression and state will ution logical relation,individual and public interest logical relation,behavior regulation and standard system logical relation,involved element and designed element logical relation.

行政法学分析逻辑的基本进路包括从主体与客体的逻辑关系进行分析、从表达国家意志与执行国家意志的逻辑关系进行分析、从个体利益与公共利益的逻辑关系进行分析、从行为规则与规范体系的逻辑关系进行分析、从介入元素与设计元素的逻辑关系进行分析。

The properties and expression of knowledge are discussed in brief and binary and multiple truth expression and inference of knowledge are studied focally. The neural networks which can realized the three valued logic are overviewed. The new idea of uncertain inference based on three valued logic is proposed for the first time The models of neural logic, which can realize three valued logic and uncertain three valued logic inference are proposed, too. The learning algorithm of coefficient of MVL's function based on the canonical realization of MVL network is investigated for the first time and the appropriate algorithm is proposed.

4简要地论述了知识的特征及其表现形式,重点研究了知识的真值二值和多值表示法以及基于知识真值表示法的逻辑推理;通过对目前可实现三值逻辑推理的逻辑神经元及其网络的简要回顾,指出了各自的局限性,首次提出了基于三值逻辑的不定性推理的新概念以及可实现三值逻辑和三值逻辑不定性推理的逻辑神经元模型,同时对基于这种逻辑神经元模型的推理系统的应用领域进行了探索性尝试;另外,首次对基于多值逻辑网络正规实现的多值逻辑函数的系数参数的学习算法进行了研究,并提出了相应的学习算法。

He explained relevant clauses in Canon of Moism by referring to the theory of Western logic and Indian classical logic so that he could rather sufficiently revealed the logical meaning of many basic concept and propositions in Canon of Moism. Moreover his method had a great effect on the contemporary and following researchers of Chinese logical history.The fourth part is concluding remarks.

其次,正确运用逻辑方法深入地挖掘中国古代的逻辑思想,正确认识中国逻辑的特点,确立中正确认识中国逻辑的特点,确立中国古代逻辑在世界逻辑史上的地位,并通过中外逻辑思想的对比分析,找出我国逻辑科学发展中存在的问题及其原因,以推动我国逻辑科学的更大发展。

It summarizes Liang Qichaos achievements and shortcomings, and the enlightenments his achievements and shortcomings give us. Such are his shortcomings: his exposition of all kinds of scientific methods was not systematic and thorough; his comparative method of studying logic of Moism still had some defect, becau

同时,我们要注意在运用比较方法挖掘墨家逻辑学时,应运用多种逻辑方法如形式逻辑、数理逻辑逻辑语义学、论证、论辩逻辑、辩证逻辑、模态逻辑等作为工具和手段,全面阐发墨家逻辑思想。

Logic逻辑 A logical field consists of a two-state value that can represent pass or fail, married or unmarried, shipped or unshipped.

逻辑栏可以包括两种状态值,亦可代表合格或不合格,结婚或未婚,传送或未传送。

更多网络解释与逻辑相关的网络解释 [注:此内容来源于网络,仅供参考]

logical color palette:逻辑色板 逻辑色板

logical brush 逻辑笔刷 逻辑笔刷 | logical color palette 逻辑色板 逻辑色板 | logical connection 逻辑连接 逻辑连接

combinational logic circuits:组合逻辑电路

第四章 组合逻辑电路(Combinational Logic Circuits) 一、组合逻辑电路分析 1、什么是组合逻辑电路? 在模拟电子线路中放大器可分为普通放大器和带负反馈放大器两大类,数字逻辑电路也可分为两大类电路:组合逻辑电路和时序逻辑电路. 这里只介绍组合逻辑电路,

gal:通用阵列逻辑

用ROM 实现组合逻辑函数; 随机存取存储器(RAM); 10、 可编程逻辑器件 可编程逻辑器件的基本结构 可编程逻辑器件(PAL) 通用阵列逻辑 (GAL) 现场可编程门阵列(FPGA) 在系统可编程逻辑器件(ISP-PLD) 11、 常用数字集成电路介绍 课时150,

logic level:逻辑电平,逻辑级

logic gate 逻辑门 | logic level 逻辑电平,逻辑级 | logic level indicator 逻辑电平指示器,逻辑级指示器

logical element:逻辑元件

逻辑元件(logical element)或逻辑电路(logical circuit)是具有逻辑功能的元件(电路),也称门电路. 常见的有"与"门、"或"门、"非"门、"与非"门及"或非"门等. 利用这些门可以组成电子计算机所需的各种逻辑功能电路. 逻辑元件-特点 不同的逻辑元件具有不同的设计特点.

logical shift:逻辑移位 逻辑移位

logical operator 逻辑运算子 逻辑运算符 | logical shift 逻辑移位 逻辑移位 | logical unit 逻辑单元 逻辑单元

logical escape symbol:逻辑换码符,逻辑转义符

logical equation 逻辑方程,逻辑方程式 | logical escape symbol 逻辑换码符,逻辑转义符 | logical expression 逻辑表达式

Logical operations:逻辑运算,逻辑操作

logical network | 逻辑网(络) | logical operations | 逻辑运算,逻辑操作 | logical operator | 逻辑运算符,逻辑算子

NOR:逻辑或非

11章 逻辑与(AND)电路与逻辑或(OR)电路的读法11.1 逻辑与(AND)电路的读法11.2 逻辑或(OR)电路的读法第12章 逻辑与非(NAND)电路与逻辑或非(NOR)电路的读法12.1 逻辑与非(NAND)电路的读法12.2 逻辑或非(NOR)电路的读法第13章

logical NOT circuit:逻辑NOT电路,逻辑反电路

逻辑NOR电路,逻辑反或电路 logical NOR circuit | 逻辑NOT电路,逻辑反电路 logical NOT circuit | 逻辑号码 logical number