代码搜索:Disc
找到约 1,656 项符合「Disc」的源代码
代码结果 1,656
www.eeworm.com/read/39706/1134825
pcblib capacitor non-polar disc.pcblib
www.eeworm.com/read/253643/4393215
cfg anjian6--kong--1disc.cfg
Model=LA2124
AutoSavesetting= 1
AutoLoadsetting= 0
dso29left
-60
dso29top
-60
dso29width
15480
dso29height
11190
form2left
690
form2top
2970
clock source
0
TrigCh
0
www.eeworm.com/read/253643/4393231
cfg anjian6---1disc---1.cfg
Model=LA2124
AutoSavesetting= 1
AutoLoadsetting= 0
dso29left
-60
dso29top
-60
dso29width
15480
dso29height
11190
form2left
690
form2top
2970
clock source
0
TrigCh
0
www.eeworm.com/read/421857/10692188
txt recover a quick erased cd rw.txt
Procedure used to recover data from a quick-erased CD-RW disc
1. Make a file of exactly the size of the cdrw disc's capacity (650MB in my case).
(this step may not be needed)
2. With Nero I cr
www.eeworm.com/read/418731/10934600
txt recover a quick erased cd rw.txt
Procedure used to recover data from a quick-erased CD-RW disc
1. Make a file of exactly the size of the cdrw disc's capacity (650MB in my case).
(this step may not be needed)
2. With Nero I cr
www.eeworm.com/read/415537/11066234
txt recover a quick erased cd rw.txt
Procedure used to recover data from a quick-erased CD-RW disc
1. Make a file of exactly the size of the cdrw disc's capacity (650MB in my case).
(this step may not be needed)
2. With Nero I cr
www.eeworm.com/read/287260/8699336
m energy_ho.m
function erg = energy_ho(kappa,psi,base,p,cliques,disc_bar,th,quant)
%energy_ho Energy from kappa labeling and psi phase measurements.
% erg = energy_ho(kappa,psi,base,p,cliques,disc_bar,p,th,qu
www.eeworm.com/read/258097/11886491
h sphe8200.h
#ifndef __SPHE8200_H
#define __SPHE8200_H
#include "set.h"
#include "user_init.h"
//
// 8200 versions
//
#define SPHE8200A 0
#define SPHE8200_VER SPHE8200A
//
// system configuratio
www.eeworm.com/read/276140/10759752
txt readme.txt
_______________________________________________________________
Companion Disc
for
INSIDE VISUAL C++ 1.5
Copy
www.eeworm.com/read/305390/13772273
m muller.m
function [p,y,err]=muller(f,p0,p1,p2,delta,epsilon,max1)
%Input - f is the object function
% - p0, p1, and p2 are the initial approximations
% - delta is the tolerance for p0, p