Thinking in Java, 3rd ed. Revision 4.0 Preface Introduction 1: Introduction to Objects 2: Everything is an Object 3: Controlling Program Flow 4: Initialization & Cleanup 5: Hiding the Implementation 6: Reusing Classes 7: Polymorphism 8: Interfaces & Inner Classes 9: Error Handling with Exceptions 10: Detecting Types 11: Collections of Objects 12: The Java I/O System 13: Concurrency 14: Creating Windows & Applets 15: Discovering Problems 16: Analysis and Design A: Passing & Returning Objects B: Java Programming Guidelines C: Supplements D: Resources Index
标签: Introduction Thinking Revision Preface
上传时间: 2014-07-13
上传用户:netwolf
Top module name : SHIFTER (File name : SHIFTER.v) 2. Input pins: SHIFT [3:0], IN [15:0], SIGN, RIGHT. 3. Output pins: OUT [15:0]. 4. Input signals generated from test pattern are latched in one cycle and are synchronized at clock rising edge. 5. The SHIFT signal describes the shift number. The shift range is 0 to 15. 6. When the signal RIGHT is high, it shifts input data to right. On the other hand, it shifts input data to left. 7. When the signal SIGN is high, the input data is a signed number and it shifts with sign extension. However, the input data is an unsigned number if the signal SIGN is low. 8. You can only use following gates in Table I and need to include the delay information (Tplh, Tphl) in your design.
上传时间: 2013-12-13
上传用户:himbly
Top module name : SHIFTER (File name : SHIFTER.v) 2. Input pins: SHIFT [3:0], IN [15:0], SIGN, RIGHT. 3. Output pins: OUT [15:0]. 4. Input signals generated from test pattern are latched in one cycle and are synchronized at clock rising edge. 5. The SHIFT signal describes the shift number. The shift range is 0 to 15. 6. When the signal RIGHT is high, it shifts input data to right. On the other hand, it shifts input data to left. 7. When the signal SIGN is high, the input data is a signed number and it shifts with sign extension. However, the input data is an unsigned number if the signal SIGN is low. 8. You can only use following gates in Table I and need to include the delay information (Tplh, Tphl) in your design.
上传时间: 2014-01-20
上传用户:三人用菜
This utility has two views: (a) one view that will show you the entire PnP enumeration tree of device objects, including relationships among objects and all the device s reported PnP characteristics, and (b) a second view that shows you the device objects created, sorted by driver name. There is nothing like this utility available anywhere else.
标签: enumeration utility entire devic
上传时间: 2013-12-17
上传用户:zjf3110
The "GEE! It s Simple" package illustrates Gaussian elimination with partial pivoting, which produces a factorization of P*A into the product L*U where P is a permutation matrix, and L and U are lower and upper triangular, respectively. The functions in this package are accurate, but they are far slower than their MATLAB equivalents (x=A\b, [L,U,p]=lu(A), and so on). They are presented here merely to illustrate and educate. "Real" production code should use backslash and lu, not this package.
标签: illustrates elimination Gaussian pivoting
上传时间: 2016-11-09
上传用户:wang5829
The "GEE! It s Simple" package illustrates Gaussian elimination with partial pivoting, which produces a factorization of P*A into the product L*U where P is a permutation matrix, and L and U are lower and upper triangular, respectively. The functions in this package are accurate, but they are far slower than their MATLAB equivalents (x=A\b, [L,U,p]=lu(A), and so on). They are presented here merely to illustrate and educate. "Real" production code should use backslash and lu, not this package.
标签: illustrates elimination Gaussian pivoting
上传时间: 2014-01-21
上传用户:lxm
KPMstats is a directory of miscellaneous statistics functions written by Kevin Patrick Murphy and various other people
标签: miscellaneous statistics directory functions
上传时间: 2014-01-13
上传用户:hfmm633
function [U,V,num_it]=fcm(U0,X) % MATLAB (Version 4.1) Source Code (Routine fcm was written by Richard J. % Hathaway on June 21, 1994.) The fuzzification constant % m = 2, and the stopping criterion for successive partitions is epsilon =??????. %*******Modified 9/15/04 to have epsilon = 0.00001 and fix univariate bug******** % Purpose:The function fcm attempts to find a useful clustering of the % objects represented by the object data in X using the initial partition in U0.
标签: fcm function Version Routine
上传时间: 2014-11-30
上传用户:二驱蚊器
1、 采用原始变量法,即以速度U、V及压力P作为直接求解的变量 2、 守恒型的差分格式,离散方程系对守恒型的控制方程通过对控制容积作积分而得出的,无论网格疏密程度如何,均满足在计算区域内守恒的条件; 3、 采用区域离散化方法B,即先定控制体界面、再定节点位置 4、 采用交叉网格,速度U、V与其他变量分别存储于三套网格系统中; 5、 不同的项在空间离散化过程中去不同的型线假设,源项采用局部线性化方法;扩散——对流项采用乘方格式(但很容易转化为中心差分、迎风差分或混合格式);街面上的扩散系数采用调和平均法,而密度与流速则用线性插值; 6、 不稳态问题采用全隐格式,以保证在任何时间步长下均可获得具有物理意义的解; 7、 边界条件采用附加源项法处理; 8、 耦合的流速与压力采用SIMPLE算法来求解; 9、 迭代式的求解方法,对非线性问题,整个求解过程具有迭代性质;对于代数方程也采用迭代法求解; 10、 采用交替方向先迭代法求解代数方程并补以块修正技术以促进收敛。
标签: 变量
上传时间: 2013-12-18
上传用户:时代电子小智
1、 采用原始变量法,即以速度U、V及压力P作为直接求解的变量 2、 守恒型的差分格式,离散方程系对守恒型的控制方程通过对控制容积作积分而得出的,无论网格疏密程度如何,均满足在计算区域内守恒的条件; 3、 采用区域离散化方法B,即先定控制体界面、再定节点位置 4、 采用交叉网格,速度U、V与其他变量分别存储于三套网格系统中; 5、 不同的项在空间离散化过程中去不同的型线假设,源项采用局部线性化方法;扩散——对流项采用乘方格式(但很容易转化为中心差分、迎风差分或混合格式);街面上的扩散系数采用调和平均法,而密度与流速则用线性插值; 6、 不稳态问题采用全隐格式,以保证在任何时间步长下均可获得具有物理意义的解; 7、 边界条件采用附加源项法处理; 8、 耦合的流速与压力采用SIMPLE算法来求解; 9、 迭代式的求解方法,对非线性问题,整个求解过程具有迭代性质;对于代数方程也采用迭代法求解; 10、 采用交替方向先迭代法求解代数方程并补以块修正技术以促进收敛。
标签: 变量
上传时间: 2013-12-13
上传用户:qlpqlq
