講述fpga的幻燈片,很有用的講解。主要涉及到fpga-plus方面的知識。
上傳時間: 2014-08-13
上傳用戶:xhz1993
Please read this document before attempting to compile and run the libraries and applications! The projects must be compiled in a particular order. Standard support questions are about compiler and/or linker errors that are generated when users try to compile the projects in the wrong order. Other information of interest is available here, so read the entire document fi rst. Wild Magic Version 2.1 is what ships with the fi rst printing of the Game Physics book. Some of the applications that are referenced in the book did not make it onto the CD–ROM for the book. Version 2.2 contains those applications, plus more
標簽: applications attempting and libraries
上傳時間: 2014-01-16
上傳用戶:Late_Li
function [U,center,result,w,obj_fcn]= fenlei(data) [data_n,in_n] = size(data) m= 2 % Exponent for U max_iter = 100 % Max. iteration min_impro =1e-5 % Min. improvement c=3 [center, U, obj_fcn] = fcm(data, c) for i=1:max_iter if F(U)>0.98 break else w_new=eye(in_n,in_n) center1=sum(center)/c a=center1(1)./center1 deta=center-center1(ones(c,1),:) w=sqrt(sum(deta.^2)).*a for j=1:in_n w_new(j,j)=w(j) end data1=data*w_new [center, U, obj_fcn] = fcm(data1, c) center=center./w(ones(c,1),:) obj_fcn=obj_fcn/sum(w.^2) end end display(i) result=zeros(1,data_n) U_=max(U) for i=1:data_n for j=1:c if U(j,i)==U_(i) result(i)=j continue end end end
標簽: data function Exponent obj_fcn
上傳時間: 2013-12-18
上傳用戶:ynzfm
//奇異值分解法求廣義逆 //本函數返回值小于0表示在奇異值分解過程, //中迭代值超過了60次還未滿足精度要求. //返回值大于0表示正常返回。 //a-長度為m*n的數組,返回時其對角線依次給出奇異值,其余元素為0 //m-矩陣的行數 //n-矩陣的列數 //aa-長度為n*m的數組,返回式存放A的廣義逆 //eps-精度要求 //u-長度為m*m的數組,返回時存放奇異值分解的左奇異量U //v-長度為n*n的數組,返回時存放奇異值分解的左奇異量V //ka-整型變量,其值為max(n,m)+1 //調用函數:dluav()
上傳時間: 2016-12-15
上傳用戶:康郎
MATLAB是一個非常好的用于測量,分析和可視化的數據,控制儀器,并建立測試系統。安捷倫信號和頻譜分析儀可讓您分析失真,虛假的,相位噪聲,用于2G到4G無線通信測量。這種Matlab下開發的高級數據可視化(ADV)的應用軟件,擴展了安捷倫信號和頻譜分析儀的可視化功能,提供了四個不同的顯示格式:Analog Advanced, Analog Plus, Waterfall,和Spectrogram。這些顯示使得更加容易捕獲間歇性信號。
上傳時間: 2016-12-24
上傳用戶:zhaoq123
selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin + CS) can either start an acquisition interval or initiate a edge (Figure 6). However, if the second control byte combined acquisition plus conversion. The sampling contains ACQMOD = 1, an indefinite acquisition interval interval occurs at the end of the acquisition interval. is restarted. The ACQMOD bit in the input control byte offer
標簽: configures the selects channel
上傳時間: 2013-12-09
上傳用戶:
selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin + CS) can either start an acquisition interval or initiate a edge (Figure 6). However, if the second control byte combined acquisition plus conversion. The sampling contains ACQMOD = 1, an indefinite acquisition interval interval occurs at the end of the acquisition interval. is restarted. The ACQMOD bit in the input control byte offer
標簽: configures the selects channel
上傳時間: 2016-12-24
上傳用戶:朗朗乾坤
selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin is restarted. The ACQMOD bit in the input control byte offer+ CS) can either start an acquisition interval or initiate a edge (Figure 6). However, if the second control byte combined acquisition plus conversion. The sampling contains ACQMOD = 1, an indefinite acquisition interval interval occurs at the end of the acquisition interval.
標簽: configures the selects channel
上傳時間: 2016-12-24
上傳用戶:yzhl1988
//使用gray code的解法 #include <iostream> #include <cmath> using namespace std #define ZERO 0 #define ONE 1 #define ODD 1 #define EVEN 0 #define RIGHT 1 #define LEFT 0 #define MAX 10
標簽: include namespace iostream define
上傳時間: 2016-12-31
上傳用戶:luke5347
計算全息close all clc clear A=zeros(64) A(15:20,20:40)=1 A(15:50,20:25)=1 A(45:50,20:40)=1 A(30:34,20:35)=1 % ppp=exp(rand(64)*pi*2*i) A=A.*ppp % Author s email: zjliu2001@163.com figure imshow(abs(A),[]) Fa=fft2(fftshift(A)) Fs=fftshift(Fa) Am=abs(Fs) % amplitude Ph=angle(Fs) % phase s=11 % 這表示邊長嗎? cgh=zeros(64*s) th=max(max(abs(Fs)))
上傳時間: 2014-10-13
上傳用戶:wweqas
