Split (1)

train · 122k rows

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61104cdad4133b469153dceb02d70ea6985ea1ec	449d555969bfd7befe906877abab098c6e63a0e8	/1040/CH3/EX3.2/Ex3_2.sce	4686ddaea4967fd9f8f83e89f49293a200f5620b	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	2,655	sce	Ex3_2.sce	//Harriot P.,2003,Chemical Reactor Design (I-Edition) Marcel Dekker,Inc.,USA,pp 436. //Chapter-3 Ex3.2 Pg No. 96 //Title:Residence time and heat generation for four STR's in series //======================================================================================== clear clc // COMMON INPUT X_A=0.95;//Given conversion t_batch=6;//Batch time to reach the desired conversion N=4//No.of reactors in series X_final=X_A; //CALCULATION (Ex3.2.a) k=log((1/(1-X_A)))/t_batch;//Refer equation 3.29 Pg No. 90 t_1=((1/(1-X_A))^(1/N)-1)/k;//Refer equation 3.40 Pg No. 94 t_Tot=Nt_1; //OUTPUT (Ex3.2.a) mprintf('\n OUTPUT Ex3.2.a'); mprintf('\n=================================================================='); mprintf('\nThe total residence time of the four reactors in series= %f hr',t_Tot); //======================================================================================= //Title:Heat generation in CSTR in Series //============================================================================================================= //CALCULATION (Ex3.2.b) t_1=((1/(1-X_final))^(1/N)-1)/k;//Refer equation 3.40 Pg No. 94 for i=1:N X(i)=1-(1/(1+kt_1)^(i)); end delQ_by_Q(1)=(X(1))/X_final; // Ratio of heat generated in 1st reactor for i=1:N-1 delQ_by_Q(i+1)=(X(i+1)-X(i))/X_final; // Ratio of heat generated in 2nd, 3rd and 4th reactors end //OUTPUT (Ex3.2.b) mprintf('\n========================================================================================\n') mprintf('\n OUTPUT Ex3.2.b'); mprintf('\n=================================================================='); mprintf('\nReactor vessel \t Conversion \t Fraction of total heat released \n') mprintf('\n==================================================================') for i=1:N mprintf('\n %d \t \t %0.3f \t \t \t %0.3f \n',i,X(i),delQ_by_Q(i)) end //FILE OUTPUT fid=mopen('.\Chapter3-Ex2-Output.txt','w'); mfprintf(fid,'\n OUTPUT Ex3.2.a'); mfprintf(fid,'\n=================================================================='); mfprintf(fid,'\nThe total residence time of the four reactors in series= %f hr',t_Tot); mfprintf(fid,'\n==================================================================') mfprintf(fid,'\nReactor vessel \t Conversion \t Fraction of total heat released \n') mfprintf(fid,'\n==================================================================') for i=1:N mfprintf(fid,'\n %d \t \t %0.3f \t \t \t %0.3f \n',i,X(i),delQ_by_Q(i)) end mclose(fid); //=============================================================END OF PROGRAM================================
23616c23a0979f725b9ebe3854f33924c2f627f9	a5f0fbcba032f945a9ee629716f6487647cafd5f	/Dump/Copy/Train Test split_Demo.sce	c87327e1a51e7c14b34260315006bde02a131178	[]	no_license	SoumitraAgarwal/Scilab-gsoc	692c00e3fb7a5faf65082e6c23765620f4ecdf35	678e8f80c8a03ef0b9f4c1173bdda7f3e16d716f	refs/heads/master	2021-04-15T17:55:48.334164	2018-08-07T13:43:26	2018-08-07T13:43:26	126,500,126	1	1	null	null	null	null	UTF-8	Scilab	false	false	127	sce	Train Test split_Demo.sce	// Demo script for train test split getd('.') // Data preparation M = csvRead('Datasets/weather.csv') x = M(1:2000, [6, 10]);
ccd2fdb2127c3c18854a74e715b4a80ebac4c851	449d555969bfd7befe906877abab098c6e63a0e8	/1322/CH19/EX19.10/169ex2.sce	2e9f58389a0b17c71bfca45219093ff56f0ef3e4	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	204	sce	169ex2.sce	//logarithm : -1.6175-(-3.8463) clear; clc; close; mantissa=1.6175-0.8463; //in borrowing to subtract 8 from 6, -1(characteristic) becomes -2 characteristic=-2-(-3); mantissa+characteristic
ee6e785867d135ac310485b528d71944072e137e	449d555969bfd7befe906877abab098c6e63a0e8	/3417/CH3/EX3.9.1/Ex3_9_1.sce	360fc1b7aed1835fb7df61ce156f1888835ee7c3	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	2,249	sce	Ex3_9_1.sce	//calculate the useful gain,exit fluid temperature and collection efficiency //Optical properties are estimated as p=0.85; //(T. alpha)=0.77;let A=(T. alpha) A=0.77 gama=0.94; Do=0.06; L=8;//unit=meter,//L=length of concentrator W=2;//W=width of concentrator in meter dco=0.09;//dco=diameter of transpaarent cover Ar= %piDoL;//Ar=area of the receiver pipe A_alpha=(W-dco)L;//aperture area of the concentration Cp=0.30;//unit=kcal/kg degree calcius m=400;//unit=kg/hr,m=flow rate HbRb=600;//unit=kcal/hr m^2 Tfi=150;//degree calcius T_alpha=25;//degree calcius //Heat transfer coefficient from fluid inside to surroundings, Uo=5.2;//unit=kcal/hr-m^2 //Heat transfer coefficient from absorber cover surface to surroundings, UL=6;//unit=kcal/hr-m^2 F=(Uo/UL); //Heat removed factor FR is //FR=((mCp)/(ArUL))(1-(%e^-((ArULF)/(mCp)))) //let X=(mCp)/(ArUL);Y=(%e^-((ArULF)/(mCp))) X=(mCp)/(1.51UL0.86); Y=%e^(-1/X); FR=X0.86(1-Y); //Absorbed solar energy is S=HbRbpgamaA; printf(" Area of the receiver pipe Ar= %f=1.51 m^2 \n A_aplha= %f m^2=collection efficiency factor ",Ar,A_alpha); printf("\n value of F= %f",F); printf("\n Heat removed factor FR=%f \n Absorbed solar energy is \n S=%f kcal/Hr m^2 .....(MKS) ",FR,S); //for unit in S.I. , 1 kcal/Hr m^2 = 1.16298 W/m^2 s= S1.16298; //in W/m^2 printf("\n S=%f W/m^2.....(SI)",s); //the values of F,FR will be same in any unit,since they are factors(dimensionless) //Useful Gain=Qu=A_alphaFR(S-((ArUL)/A_alpha)(Tfi-T_alpha)) //In MKS unit Qu=A_alphaFR(S-((1.51UL)/A_alpha)(Tfi-T_alpha)) printf("\n useful gain in (MKS) Qu=%f kcal/hr",Qu); //IN SI unit qu=A_alphaFR(s-((1.516.98)/A_alpha)(Tfi-T_alpha))//UL=6.98 W/m^2 degree celcius printf("\n useful gain in (SI) Qu=%f Watt",qu); //the exit fluid temperature can be obtained from tci=150;//degree celcius tco=tci+(Qu/(mCp));//from Qu=mCp(tco-tc); where, tco=collector fluid temp. at outlet,tci=Fluid inlet temp. n=(Qu/(16HbRb))100;//ncollector=Qu/(A_alphaHbRb)100; printf("\n collector fluid temp. at outlet tco=%f degree celcius \n ncollector = %f percent ",tco,n); //The values/results/answers is approximate in the text book to the real calculated value
4d97a7ed4e4023ba8b710cd29108ec14a7ca4414	449d555969bfd7befe906877abab098c6e63a0e8	/2219/CH6/EX6.16/Ex6_16.sce	0d73c2c9a6bf77b759e039d9caa90137b866433f	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	754	sce	Ex6_16.sce	// Chapter 6 example 16 //------------------------------------------------------------------------------ clc; clear; // Given data h = 6.6310^-34; // planck's constant in Joule-sec el = 0.25; // lower energy level in eV from energy level diag. eh = 1.5; // higher energy level in eV from energy level diag. e = 1.610^-19; // charge of electron c = 310^8; // vel. of light in m/s // calculations hf = (eh - el)e // energy diff b/w two levels in J f = hf/h; // frequency lamda = c/f // o/p laser wavelength in m // Output mprintf('Output laser wavelength = %3.0e m or%3.0f µm ',lamda,lamda*10^6)
170ca9ec93808f9e96e541c1455735792f67e548	7ef51c5d0a21a0b16fdcf1e2b0ba34941a192b5d	/resultados/load_chords_constants.sci	bb56730877e232d3081ca30c963555d2c38ad8fc	[]	no_license	josepedro/TCC	c4ab515fea01859420ba3f5123815430ea2b0e02	72622069c60ae6c639d9aa2189f868b6db22c6df	refs/heads/master	2021-01-21T22:29:10.992789	2014-12-26T22:32:02	2015-01-02T03:06:25	22,113,358	2	0	null	null	null	null	UTF-8	Scilab	false	false	3,067	sci	load_chords_constants.sci	//-------------------------- BD(12,48) = 0; // inicializando o banco de dados para acordes //-------------------------- //C //CM BD(1,1) = 1; //baixo BD(5,1) = 1; //terça BD(8,1) = 1; //quinta //Cm BD(1,2) = 1; //baixo BD(4,2) = 1; //terça BD(8,2) = 1; //quinta //Caum BD(1,3) = 1; //baixo BD(5,3) = 1; //terça BD(9,3) = 1; //quinta //Cdim BD(1,4) = 1; //baixo BD(4,4) = 1; //terça BD(7,4) = 1; //quinta //C# //C#M BD(2,5) = 1; //baixo BD(6,5) = 1; //terça BD(9,5) = 1; //quinta //C#m BD(2,6) = 1; //baixo BD(5,6) = 1; //terça BD(9,6) = 1; //quinta //C#aum BD(2,7) = 1; //baixo BD(6,7) = 1; //terça BD(10,7) = 1; //quinta //C#dim BD(2,8) = 1; //baixo BD(5,8) = 1; //terça BD(8,8) = 1; //quinta //D //DM BD(3,9) = 1; //baixo BD(7,9) = 1; //terça BD(10,9) = 1; //quinta //Dm BD(3,10) = 1; //baixo BD(6,10) = 1; //terça BD(10,10) = 1; //quinta //Daum BD(3,11) = 1; //baixo BD(7,11) = 1; //terça BD(11,11) = 1; //quinta //Ddim BD(3,12) = 1; //baixo BD(6,12) = 1; //terça BD(9,12) = 1; //quinta //D# //D#M BD(4,13) = 1; //baixo BD(8,13) = 1; //terça BD(11,13) = 1; //quinta //D#m BD(4,14) = 1; //baixo BD(7,14) = 1; //terça BD(11,14) = 1; //quinta //D#aum BD(4,15) = 1; //baixo BD(8,15) = 1; //terça BD(12,15) = 1; //quinta //D#dim BD(4,16) = 1; //baixo BD(7,16) = 1; //terça BD(10,16) = 1; //quinta //E //EM BD(5,17) = 1; //baixo BD(9,17) = 1; //terça BD(12,17) = 1; //quinta //Em BD(5,18) = 1; //baixo BD(8,18) = 1; //terça BD(12,18) = 1; //quinta //Eaum BD(5,19) = 1; //baixo BD(9,19) = 1; //terça BD(1,19) = 1; //quinta //Edim BD(5,20) = 1; //baixo BD(8,20) = 1; //terça BD(11,20) = 1; //quinta //F //FM BD(6,21) = 1; //tonica BD(10,21) = 1; //terça BD(1,21) = 1; //quinta //Fm BD(6,22) = 1; BD(9,22) = 1; BD(1,22) = 1; //Faum BD(6,23) = 1; BD(10,23) = 1; BD(2,23) = 1; //Fdim BD(6,24) = 1; BD(9,24) = 1; BD(12,24) = 1; //F# //F#M BD(7,25) = 1; BD(11,25) = 1; BD(2,25) = 1; //F#m BD(7,26) = 1; BD(10,26) = 1; BD(2,26) = 1; //F#aum BD(7,27) = 1; BD(11,27) = 1; BD(3,27) = 1; //F#dim BD(7,28) = 1; BD(10,28) = 1; BD(1,28) = 1; //G //GM BD(8,29) = 1; BD(12,29) = 1; BD(3,29) = 1; //Gm BD(8,30) = 1; BD(11,30) = 1; BD(3,30) = 1; //Gaum BD(8,31) = 1; BD(12,31) = 1; BD(4,31) = 1; //Gdim BD(8,32) = 1; BD(11,32) = 1; BD(2,32) = 1; //G# //G#M BD(9,33) = 1; BD(1,33) = 1; BD(4,33) = 1; //G#m BD(9,34) = 1; BD(12,34) = 1; BD(4,34) = 1; //G#aum BD(9,35) = 1; BD(1,35) = 1; BD(5,35) = 1; //G#dim BD(9,36) = 1; BD(12,36) = 1; BD(3,36) = 1; //A //AM BD(10,37) = 1; BD(2,37) = 1; BD(5,37) = 1; //Am BD(10,38) = 1; BD(1,38) = 1; BD(5,38) = 1; //Aaum BD(10,39) = 1; BD(2,39) = 1; BD(6,39) = 1; //Adim BD(10,40) = 1; BD(1,40) = 1; BD(4,40) = 1; //A# //A#M BD(11,41) = 1; BD(3,41) = 1; BD(6,41) = 1; //A#m BD(11,42) = 1; BD(2,42) = 1; BD(6,42) = 1; //A#aum BD(11,43) = 1; BD(3,43) = 1; BD(7,43) = 1; //A#dim BD(11,44) = 1; BD(2,44) = 1; BD(5,44) = 1; //B //BM BD(12,45) = 1; BD(4,45) = 1; BD(7,45) = 1; //Bm BD(12,46) = 1; BD(3,46) = 1; BD(7,46) = 1; //Baum BD(12,47) = 1; BD(4,47) = 1; BD(8,47) = 1; //Bdim BD(12,48) = 1; BD(3,48) = 1; BD(6,48) = 1;
3d2ad2163d3469466fd042913fb7d76798da0edd	449d555969bfd7befe906877abab098c6e63a0e8	/2087/CH4/EX4.48/example4_48.sce	fdf76d578812eded26057308970ce9959a86ad40	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	424	sce	example4_48.sce	//example 4.48 //calculate evaporation from reservior surface during the week clc;funcprot(0); //given h1=7.75; //initial depth of water r=3.80; //rainfall during the week hr=2.50; //depth of water removed C=0.7; //pan coefficient ha=r-hr; hl=ha+h1; h2=8.32; ev=hl-h2; evs=evC; evs=round(evs100)/100; mprintf("evaporation from reservior surface during the week=%f cm.",evs);
21257f3dbf3ee42b77e1e210798ea866b4d25111	449d555969bfd7befe906877abab098c6e63a0e8	/848/CH13/EX13.1/Example13_1.sce	d932eb5b784f97af063b418b5a7a038d89fd9acd	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	806	sce	Example13_1.sce	//clear// //Caption: Calculation of power budget for optical link //Example13.1 //page 464 clear; clc; close; N = [5,10,50]; //number stations alpha = 0.4;//attenuation in dB/Km L_tap = 10;// coupling loss in dB L_thru = 0.9;// coupler throughput in dB Li = 0.5;//Intrinsic coupler loss in dB Lc = 1.0; // coupler-to-fiber loss in dB L = 0.5; //link length in Km fiber_Loss = alphaL; //fiber loss in dB Pbudget = N(alphaL+2Lc+Li+L_thru)-alphaL-2L_thru+2*L_tap; disp(fiber_Loss,'fiber loss in dB for L =500 m') disp(Pbudget,'power budget in dB for optical link when N = 5,10 and 50 stations respectively =') //Result //fiber loss in dB for L =500 m // 0.2 //power budget in dB for optical link when N = 5,10 and 50 stations respectively = // 36. 54. 198.
f6160c6f32ffca56ba0055a70af589fe4810bbe5	449d555969bfd7befe906877abab098c6e63a0e8	/3830/CH2/EX2.2/Ex2_2.sce	80d2014c6a854eb212dd896d2f5433987e8d960e	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	352	sce	Ex2_2.sce	// Exa 2.2 clc; clear; // Given // A wien bridge oscillator under consideration fo= 10^6 ; // frequency of oscillations in Hz // Solution printf(' Let R = 3 k Ohms \n'); R = 3000; // Ohm's // since, fo = 1/(2%piRC); therefore, C = 1/(2%pifoR); printf(' Substituting that, the value of capacitor = %d pf \n',C*10^12);
9c997f234429c3712111afcd8e835924b5317c5e	2e162df2ad0363dd248a7604edce59180dfc431f	/6-laba/6-laba.sci	cdebc54cb96a66e3f8e29016e7bc441e763881ed	[]	no_license	imnetcat/graphs-online	9f03a7071d1a5d79ead29e4e111dd38f28631b13	5a24fa16622355047467caead4d35129cba6d0e0	refs/heads/master	2022-09-01T02:23:20.724040	2020-05-20T19:19:48	2020-05-20T19:19:48	240,755,646	3	0	null	null	null	null	UTF-8	Scilab	false	false	422	sci	6-laba.sci	n1 = 9 n2 = 5 n3 = 0 n4 = 5 n = 10 + n3 n1_str = string(n1); n2_str = string(n2); n3_str = string(n3); n4_str = string(n4); nn = strcat([ n1_str, n2_str, n3_str, n4_str ]); rand("seed", strtod(nn)); T = rand(n, n) + rand(n, n); A = floor((1.0 - n30.01 - n40.005 - 0.05)T); Wt = round(rand(n,n)100 .* A); B = Wt & ones(n,n); Wt = (bool2s(B & ~B') + bool2s(B & B') .* tril(ones(n,n),-1)) .* Wt; W = Wt + Wt'; A W
de2638b12059cbc5523677f74db84b0ba42a44bf	a0a5d5ebe851ee0b7ca102fe609581961e1789fa	/config/tst/sapo2.ok.tst	13716cda42e8c6717920e4fa6fe69d0573774958	[]	no_license	ElfenStomp/Projet_S6	db1b4480c9df265f4eddf9e05f524a2529d002db	eb4490f849d9d7d39f7c78149b903ef2b427694b	refs/heads/master	2021-01-22T02:33:54.992167	2017-03-03T10:42:48	2017-03-03T10:42:48	81,054,531	0	1	null	null	null	null	UTF-8	Scilab	false	false	188	tst	sapo2.ok.tst	Configuration : 5x9 Card types : 16 Nb of cards : 61 Objectives : 3 - (8,4) (8,2) (8,0) Holes : 2 - (5,3) (2,1) Allow boulder : yes Allow breaks : yes Repair=Break : no
03cc32afee1af8f3cce3e7284381709e94ae85f9	089894a36ef33cb3d0f697541716c9b6cd8dcc43	/NLP_Project/test/blog/bow/bow.19_20.tst	7a8bb3864a6549fa014b4f1dbcf86deaae566029	[]	no_license	mandar15/NLP_Project	3142cda82d49ba0ea30b580c46bdd0e0348fe3ec	1dcb70a199a0f7ab8c72825bfd5b8146e75b7ec2	refs/heads/master	2020-05-20T13:36:05.842840	2013-07-31T06:53:59	2013-07-31T06:53:59	6,534,406	0	1	null	null	null	null	UTF-8	Scilab	false	false	3,779	tst	bow.19_20.tst	19 62:1.0 76:0.125 118:1.0 448:1.0 19 1:0.020833333333333332 38:0.1 135:1.0 1470:1.0 19 3:0.3333333333333333 62:1.0 297:1.0 549:1.0 19 1:0.020833333333333332 38:0.1 135:1.0 197:1.0 19 15:0.08333333333333333 62:1.0 19 1:0.020833333333333332 15:0.08333333333333333 38:0.1 76:0.125 471:1.0 19 15:0.08333333333333333 62:1.0 19 1:0.020833333333333332 38:0.1 76:0.125 107:1.0 19 62:1.0 94:0.125 350:0.5 19 1:0.020833333333333332 38:0.1 76:0.125 94:0.125 19 62:1.0 123:0.5 19 1:0.020833333333333332 38:0.1 76:0.125 94:0.125 19 62:1.0 549:1.0 19 5:0.14285714285714285 6:1.0 68:1.0 197:1.0 1411:1.0 19 17:0.1111111111111111 45:1.0 94:0.125 19 18:1.0 94:0.125 1053:1.0 19 1:0.041666666666666664 3:0.3333333333333333 5:0.2857142857142857 6:1.0 15:0.25 44:0.3333333333333333 69:1.0 101:0.5 203:0.3333333333333333 206:1.0 244:1.0 280:1.0 462:1.0 466:1.0 481:1.0 518:1.0 618:1.0 19 6:1.0 18:1.0 27:0.3333333333333333 38:0.1 59:1.0 68:1.0 76:0.25 84:0.125 94:0.375 106:0.3333333333333333 124:1.0 125:1.0 352:1.0 555:1.0 19 1:0.020833333333333332 5:0.2857142857142857 24:1.0 32:1.0 117:1.0 126:1.0 172:1.0 310:0.25 316:0.2 19 1:0.020833333333333332 3:0.3333333333333333 15:0.08333333333333333 17:0.1111111111111111 35:0.5 47:0.14285714285714285 93:0.5 125:1.0 206:1.0 244:1.0 259:1.0 280:1.0 371:1.0 618:1.0 991:1.0 1017:2.0 19 3:0.3333333333333333 8:0.16666666666666666 17:0.1111111111111111 71:0.07692307692307693 94:0.125 125:1.0 160:1.0 174:1.0 203:0.3333333333333333 206:2.0 265:1.0 277:1.0 294:0.3333333333333333 459:1.0 477:1.0 603:1.0 611:1.0 19 1:0.020833333333333332 2:1.0 5:0.14285714285714285 15:0.08333333333333333 68:1.0 84:0.125 111:1.0 203:0.3333333333333333 206:3.0 268:1.0 302:1.0 19 17:0.1111111111111111 46:1.0 91:2.0 203:0.6666666666666666 264:1.0 19 1:0.041666666666666664 3:0.3333333333333333 9:0.16666666666666666 15:0.16666666666666666 38:0.1 56:0.5 84:0.125 93:1.0 111:1.0 122:1.0 162:0.2 203:0.3333333333333333 206:4.0 265:1.0 416:1.0 424:0.3333333333333333 19 63:0.5 68:1.0 179:1.0 19 1:0.041666666666666664 3:0.3333333333333333 17:0.1111111111111111 44:0.3333333333333333 63:0.5 68:1.0 93:0.5 203:0.3333333333333333 206:1.0 243:1.0 247:1.0 263:1.0 412:0.5 504:1.0 1060:1.0 19 19:1.0 36:1.0 47:0.14285714285714285 84:0.125 111:1.0 206:1.0 247:1.0 425:1.0 19 14:1.0 22:0.25 94:0.25 106:0.3333333333333333 220:1.0 19 15:0.08333333333333333 19 1:0.0625 6:1.0 8:0.16666666666666666 15:0.4166666666666667 26:0.5 38:0.3 56:0.5 58:1.0 107:1.0 121:0.125 172:1.0 216:0.2 247:1.0 254:0.6666666666666666 264:1.0 265:0.5 270:1.0 277:4.0 308:1.0 309:1.0 317:1.0 318:1.0 341:0.5 390:2.0 394:0.3333333333333333 591:1.0 592:1.0 600:1.0 618:1.0 791:1.0 872:0.3333333333333333 1140:1.0 1279:1.0 1425:1.0 19 5:0.42857142857142855 8:0.16666666666666666 15:0.08333333333333333 32:1.0 38:0.4 41:1.0 58:1.0 81:1.0 94:0.25 117:1.0 162:0.2 172:1.0 201:0.3333333333333333 216:0.4 223:0.5 247:1.0 254:0.3333333333333333 305:1.0 317:1.0 390:1.0 455:1.0 600:1.0 853:1.0 1425:1.0 1491:1.0 19 5:0.14285714285714285 12:1.0 15:0.08333333333333333 38:0.1 172:1.0 203:0.3333333333333333 206:1.0 216:0.2 341:0.5 853:1.0 19 38:0.1 68:1.0 91:1.0 206:1.0 215:1.0 216:0.2 230:1.0 233:1.0 254:0.3333333333333333 532:1.0 19 15:0.08333333333333333 46:1.0 92:1.0 206:1.0 19 3:0.3333333333333333 12:1.0 31:1.0 34:1.0 38:0.1 56:0.5 84:0.125 94:0.125 144:1.0 206:1.0 216:0.2 247:1.0 254:0.6666666666666666 268:1.0 408:1.0 477:1.0 872:0.3333333333333333 1425:1.0 19 84:0.125 206:1.0 19 1:0.020833333333333332 91:1.0 94:0.125 247:1.0 19 17:0.1111111111111111 58:1.0 186:1.0 206:1.0 295:1.0 390:1.0 818:0.3333333333333333 1278:1.0 19 1:0.020833333333333332 4:1.0 5:0.14285714285714285 46:1.0 47:0.14285714285714285 220:1.0 254:0.3333333333333333 422:1.0 438:0.5 19 1:0.020833333333333332 28:1.0 31:1.0 61:1.0 103:1.0
1f6ff4e016385838487b4d9c1f8ad41889b8cc3a	449d555969bfd7befe906877abab098c6e63a0e8	/3516/CH15/EX15.5/Ex15_5.sce	9607778b23f828b5d35973983dd0566e1155695a	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	4,961	sce	Ex15_5.sce	printf("\t example 15.5\n"); printf("\t approximate values are mentioned in the book \n"); W=40800; // lb/hr w=4570; // lb/hr printf("\t 1.for heat balance \n"); Ht1=241; // enthalpy of liquid at 228F, Btu/lb, fig 9 Ht2=338; // enthalpy of vapourat 228F, Btu/lb, fig 9 Q=(W(Ht2-Ht1)); printf("\t total heat required for butane is : %.2e Btu/hr \n",Q); l=868; // Btu/(lb), table 7 Q=((w)(l)); // Btu/hr printf("\t total heat required for steam is : %.2e Btu/hr \n",Q); delt=125; // delt=LMTD, isothermal boiling, eq 5.14 // Tc and tc: Both streams are isuthermal printf("\t trail 1 \n"); A1=((Q)/((12000))); // Q/A1 =12000, first trial should always be taken for the maximum allowable flux printf("\t A1 is : %.1e ft^2 \n",A1); a1=0.1963; // ft^2/lin ft L=16; N1=(A1/(La1)); // table 10 printf("\t number of tubes are : %.0f \n",N1); N2=109; // assuming one tube passes, 13.25-in ID, from table 9 A2=(N2La1); // ft^2 printf("\t total surface area is : %.0f ft^2 \n",A2); UD=((Q)/((A2)(delt))); printf("\t correct design overall coefficient is : %.1f Btu/(hr)(ft^2)(F) \n",UD); // Assume 4: 1 recirculation ratio rowv=(58/(359(688/492)(14.7/290))); // eq 15.18 printf("\t vapour density : %.2f lb/ft^3 \n",rowv); Vv=0.44; Vl=0.0372; // fig 6 W1=4W; printf("\t weight flow of recirculated liquid : %.3e lb/hr \n",W1); VL=W1Vl; VV=WVv; printf("\t volume of liquid : %.2e ft^3 \n",VL); printf("\t volume of vapour : %.3e ft^3 \n",VV); V=VL+VV; printf("\t total volume out of reboiler : %.3e ft^3 \n",V); vo=(V/(W1+W)); printf("\t vo is : %.4f ft^3/lb \n",vo); Pl=((2.316)/(144(vo-Vl)))(log10(vo/Vl)); printf("\t pressure leg : %.1f psi \n",Pl); printf("\t frictional resistance \n"); Nt=109; n=1; // number of passes at1=0.302; // flow area,table 10, in^2 at=((Ntat1)/(144n)); // total area,ft^2,from eq.7.48 printf("\t flow area is : %.3f ft^2 \n",at); Gt=((W1+W)/(at)); // mass velocity,lb/(hr)(ft^2) printf("\t mass velocity is : %.2e lb/(hr)(ft^2) \n",Gt); mu1=0.242; // at 228F, fig 14,lb/(ft)(hr) D=0.0517; // ft Ret=((D)(Gt)/mu1); // reynolds number printf("\t reynolds number is : %.1e \n",Ret); f=0.000127; // using fig.26 s=0.285; phyt=1; delPt=((f(Gt^2)(L)(n))/(5.22(10^10)(D)(s)(phyt))); // using eq.7.45,psi printf("\t delPt is : %.2f psi \n",delPt); P=Pl+delPt; printf("\t total resisitance : %.2f psi \n",P); F=(160.4362.5/144); printf("\t driving force : %.2f psi \n",F); // The resistances are greater than the hydrostatic head can provide; hence the recirculation ratio will be less than 4: 1 printf("\t trial 2 \n"); // Assume 12'0" tubes and 4:1 recirculation ratio A1=((Q)/((12000))); // Q/A1 =12000, first trial should always be taken for the maximum allowable flux printf("\t A1 is : %.1e ft^2 \n",A1); a1=0.1963; // ft^2/lin ft L=12; N1=(A1/(La1)); // table 10 printf("\t number of tubes are : %.0f \n",N1); N2=151; // assuming one tube passes, 15.25-in ID, from table 9 A2=(N2La1); // ft^2 printf("\t total surface area is : %.0f ft^2 \n",A2); UD=((Q)/((A2)(delt))); printf("\t correct design overall coefficient is : %.0f Btu/(hr)(ft^2)(F) \n",UD); Pl=((2.312)/(144(vo-Vl)))(log10(vo/Vl)); printf("\t pressure leg : %.1f psi \n",Pl); printf("\t frictional resistance \n"); Nt=151; n=1; // number of passes at1=0.302; // flow area,table 10, in^2 at=((Ntat1)/(144n)); // total area,ft^2,from eq.7.48 printf("\t flow area is : %.3f ft^2 \n",at); Gt=((W1+W)/(at)); // mass velocity,lb/(hr)(ft^2) printf("\t mass velocity is : %.2e lb/(hr)(ft^2) \n",Gt); mu1=0.242; // at 228F, fig 14,lb/(ft)(hr) D=0.0517; // ft Ret=((D)(Gt)/mu1); // reynolds number printf("\t reynolds number is : %.2e \n",Ret); f=0.000135; // using fig.26 s=0.285; phyt=1; delPt=((f(Gt^2)(12)(n))/(5.22(10^10)(D)(s)(phyt))); // using eq.7.45,psi printf("\t delPt is : %.2f psi \n",delPt); P=Pl+delPt; printf("\t total resisitance : %.2f psi \n",P); F=(120.4362.5/144); printf("\t driving force : %.2f psi \n",F); // Since the driving force is slightly greater than the resistances, a recirculation ratio better than 4:1 is assured. printf("\t hot fluid : shell side,steam \n"); ho=1500; // condensing steam printf("\t cold fluid:inner tube side, butane \n"); jH=330; // from fig.24 Z=0.115; // Z=k((c)(mu1)/k)^(1/3), fig 16 Hi=((jH)(1/D)(Z)); //, Hi=(hi/phyt)using eq.6.15d,Btu/(hr)(ft^2)(F) printf("\t individual heat transfer coefficient is : %.0f Btu/(hr)(ft^2)(F) \n",Hi); Hio=((300)(0.62/0.75)); //Hio=(hio/phyp), using eq.6.9 printf("\t Correct Hio to the surface at the OD is : %.0f Btu/(hr)(ft^2)(F) \n",Hio); Uc=((Hio)(ho)/(Hio+ho)); // clean overall coefficient,Btu/(hr)(ft^2)(F) printf("\t clean overall coefficient is : %.0f Btu/(hr)(ft^2)(F) \n",Uc); UD=89; Rd=((Uc-UD)/((UD)(Uc))); // (hr)(ft^2)(F)/Btu printf("\t actual Rd is : %.4f (hr)(ft^2)(F)/Btu \n",Rd); // end
1d271da49bdc5e8dc7c0287d1c082f7d085c0016	449d555969bfd7befe906877abab098c6e63a0e8	/1004/CH12/EX12.4/Ch12Ex4.sci	92dd23229d67a8957d36e8ec9b4d3c6d970f4162	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	581	sci	Ch12Ex4.sci	// Scilab Code Ex12.4 Energy released during fusion of deuterium nuclei: PG: 247 (2008) e = 1.6e-019; // Energy equivalent of 1 eV, J/eV amu = 931.5; // Energy equivalent of 1 amu, MeV M_H = 2.014102; // Mass of hydrogen nucleus, amu M_He = 4.002603; // Mass of helium nucleus, amu m = 2M_H-M_He; // Mass difference, amu E = mamu; // Energy released during fusion of deuterium nuclei, MeV printf("\nThe energy released during fusion of deuterium nuclei = %6.3f MeV", E); // Result // The energy released during fusion of deuterium nuclei = 23.847 MeV
5138dc80c4c264d38329e5f570d2b8e0f1a9d095	7d91f8b3cb8d228617c08467d41edcff14343b7f	/fdm_kolo.sce	4b0e67225891230a526da24bc67343d18d564e44	[]	no_license	szymczykmichal/KWP	aae875431be6fa9c1a370016396f2476cb06f793	77cbdf39521e41e2bbb9aa9c00fbba0766ec052e	refs/heads/master	2020-04-26T08:50:05.726038	2019-04-24T19:47:19	2019-04-24T19:47:19	173,435,873	0	0	null	null	null	null	UTF-8	Scilab	false	false	380	sce	fdm_kolo.sce	clc; clear;close; exec('./ode1.sci'); //EI = 250e9; // szywnosc na zginanie, Nmm^2 E = 210000 //N/mm^2 I = 1940e4 //mm^4 EI = E*I _q = 10000; // sila skupiona, N q=_q/1000 L = 4000; // dlugosc belki, mm n=5; A = zeros(n,n) for i=1:n if i==1 \|\| i==n then A(i,i) = 1 else A(i,i-1) = 1 A(i,i) = -2 A(i,i+1) = 1 end end
88ea9ee17f8284389bd5ec063e9a5abee3cc6157	449d555969bfd7befe906877abab098c6e63a0e8	/2045/CH5/EX5.12/Ex5_12.sce	ad9c9c4618fbfa1b1309f9c21a8e9d55065fa479	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	698	sce	Ex5_12.sce	//pagenumber 292 example 12 clear hfe=110; hie=1.610^3;//ohm hoe=2010^-6;//ohm colres=4.710^3;//ohm hre=210^-4; r1=47010^3;//ohm curgai=-hfe/(1+hoecolres); ri=hie+hrecurgaicolres; volgai=curgaicolres/ri; y1=hoe-((hfehre)/(hie+110^3)) z1=1/y1; disp("voltage gain = "+string((volgai))); disp("current gain = "+string((curgai))); disp("impedance = "+string((z1))+"ohm"); r0=z1colres/(z1+colres); curgai=-hfe; ri=hie; disp("parameters using approxmiate"); volgai=curgai*(colres)/ri; disp("voltage gain = "+string((volgai)));//correction in the book disp("current gain = "+string((curgai))); disp("impedance = "+string((z1))+"ohm");
bf1bb95d4142da256ae3df61bbff1622119213a5	449d555969bfd7befe906877abab098c6e63a0e8	/2873/CH12/EX12.11/Ex12_11.sce	f3306fbdcd5e42e5d017eac46912f89b42908e75	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	939	sce	Ex12_11.sce	// Display mode mode(0); // Display warning for floating point exception ieee(1); clear; clc; disp("Engineering Thermodynamics by Onkar Singh Chapter 12 Example 11") r_wire=3;//radius of electric wire in mm k=0.16;//thermal conductivity in W/m oc T_surrounding=45;//temperature of surrounding in degree celcius T_surface=80;//temperature of surface in degree celcius h=16;//heat transfer cooefficient in W/m^2 oc disp("for maximum heat transfer the critical radius of insulation should be used.") disp("critical radius of insulation(rc)=k/h in mm") rc=k1000/h disp("economical thickness of insulation(t)=rc-r_wire in mm") t=rc-r_wire disp("so economical thickness of insulation=7 mm") disp("heat convected from cable surface to environment,Q in W") disp("Q=2%pircLh(T_surface-T_surrounding)") L=1;//length in mm Q=2%pircLh(T_surface-T_surrounding)10^-3 disp("so heat transferred per unit length=35.2 W")
228b901fa693dcddc3ffdf0bccd13c8adc098d15	449d555969bfd7befe906877abab098c6e63a0e8	/608/CH6/EX6.05/6_05.sce	c0744941f1f2943cca8861d20b0ee416a87846cf	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	361	sce	6_05.sce	//Problem 6.05: The flux density between two plates separated by mica of relative permittivity 5 is 2 μC/m2. Find the voltage gradient between the plates. //initializing the variables: D = 2E-6; // in μC/m2 e0 = 8.85E-12; // in F/m er = 5; //calculation: E = D/(e0*er) printf("\n\nResult\n\n") printf("\n Electric field strength E %.2E V/m\n",E)
ecbae400bdf7fefc8408d7410753ba2409a5afe2	449d555969bfd7befe906877abab098c6e63a0e8	/1109/CH16/EX16.13/16_13.sce	56ea45aa4f8768b43d01fb026bcf682dcd932514	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	363	sce	16_13.sce	clear; clc; Ro=600;D=5; N=10^(D/20); R1=Ro(N+1)/(N-1); R2=Ro((NN)-1)/(2N); printf("The desired ladder attenuator will be:\n"); printf("R1 = %f ohms\n",round(R1)); printf("R2 = %f ohms\n",round(R2)); //the difference in result of R1 is due to erroneous value in textbook. disp("The difference in result of R1 is due to erroneous value in textbook")
4207702abab5ca5929d56a67d9eb0433a8031e12	449d555969bfd7befe906877abab098c6e63a0e8	/1646/CH1/EX1.14/Ch01Ex14.sce	2a10c051dcd3730e762c770811a2bb934ad6c6ff	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,117	sce	Ch01Ex14.sce	// Scilab Code Ex1.14: Page:33 (2011) clc;clear; c = 1; // Assume speed of light in vacuum to be unity, unit m0 = 1; // For simplicity assume rest mass of the particle to be unity, unit v = c/sqrt(2); // Given speed of the particle, m/s gama = 1/sqrt(1-v^2/c^2); // Relativistic factor m = gamam0; // The relativistic mass of the particle, unit p = mv; // The relativistic momentum of the particle, unit E = mc^2; // The relativistic total eneryg of the particle, unit E_k = (m-m0)c^2; // The relativistic kinetic energy of the particle, unit printf("\nThe relativistic mass of the particle = %5.3fm0", m); printf("\nThe relativistic momentum of the particle = %1.0gm0c", p); printf("\nThe relativistic total energy of the particle = %5.3fm0c^2", E); printf("\nThe relativistic kinetic energy of the particle = %5.3fm0c^2", E_k); // Result // The relativistic mass of the particle = 1.414m0 // The relativistic momentum of the particle = 1m0c // The relativistic total energy of the particle = 1.414m0c^2 // The relativistic kinetic energy of the particle = 0.414m0c^2
6377006ce4083c39f108ce6005543c19f4dda096	449d555969bfd7befe906877abab098c6e63a0e8	/1151/CH8/EX8.1/example1.sce	23990970a721f0a63aa0601e4d692ca09777b709	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	207	sce	example1.sce	printf("given the differential equation \n let select the state variables as x1=y,x2=y(dot),x3=y(double dot)") a=[0 1 0;0 0 1;-10 -11 -6] b=[0;0;8] disp("x(t)=[x1;x2;x3]") disp(a,"A=") disp(b,"B=")
96bc559c8a8d82191e3c022c8a703b0b86458e82	36c5f94ce0d09d8d1cc8d0f9d79ecccaa78036bd	/Androxus Dash Flick.sce	a8ad97221e33fc66ec01818df6eda635e232201c	[]	no_license	Ahmad6543/Scenarios	cef76bf19d46e86249a6099c01928e4e33db5f20	6a4563d241e61a62020f76796762df5ae8817cc8	refs/heads/master	2023-03-18T23:30:49.653812	2020-09-23T06:26:05	2020-09-23T06:26:05	null	0	0	null	null	null	null	UTF-8	Scilab	false	false	30,424	sce	Androxus Dash Flick.sce	Name=Androxus Dash Flick PlayerCharacters=Androxus BotCharacters=target.bot;target.bot IsChallenge=true Timelimit=10.0 PlayerProfile=Androxus AddedBots=target.bot;target.bot PlayerMaxLives=0 BotMaxLives=0;0 PlayerTeam=1 BotTeams=2;2 MapName=TileFrenzyX.map MapScale=1.0 BlockProjectilePredictors=false BlockCheats=true InvinciblePlayer=true InvincibleBots=false Timescale=1.0 BlockHealthbars=true TimeRefilledByKill=0.36 ScoreToWin=1000.0 ScorePerDamage=0.0 ScorePerKill=15.0 ScorePerMidairDirect=0.0 ScorePerAnyDirect=0.0 ScorePerTime=0.0 ScoreLossPerDamageTaken=0.0 ScoreLossPerDeath=0.0 ScoreLossPerMidairDirected=0.0 ScoreLossPerAnyDirected=0.0 ScoreMultAccuracy=true ScoreMultDamageEfficiency=false ScoreMultKillEfficiency=false GameTag=Paladins WeaponHeroTag=Androxus DifficultyTag=2 AuthorsTag=Dringar BlockHitMarkers=false BlockHitSounds=false BlockMissSounds=false BlockFCT=false Description=Dash flick practice for andro players. GameVersion=1.0.8.0 ScorePerDistance=0.006 MBSEnable=false MBSTime1=0.2 MBSTime2=0.3 MBSTime3=0.7 MBSTime1Mult=0.1 MBSTime2Mult=2.0 MBSTime3Mult=0.5 MBSFBInstead=true MBSRequireEnemyAlive=false [Aim Profile] Name=Default MinReactionTime=0.3 MaxReactionTime=0.4 MinSelfMovementCorrectionTime=0.001 MaxSelfMovementCorrectionTime=0.05 FlickFOV=30.0 FlickSpeed=1.5 FlickError=15.0 TrackSpeed=3.5 TrackError=3.5 MaxTurnAngleFromPadCenter=75.0 MinRecenterTime=0.3 MaxRecenterTime=0.5 OptimalAimFOV=30.0 OuterAimPenalty=1.0 MaxError=40.0 ShootFOV=15.0 VerticalAimOffset=0.0 MaxTolerableSpread=5.0 MinTolerableSpread=1.0 TolerableSpreadDist=2000.0 MaxSpreadDistFactor=2.0 [Bot Profile] Name=target DodgeProfileNames=Mimic DodgeProfileWeights=1.0 DodgeProfileMaxChangeTime=5.0 DodgeProfileMinChangeTime=1.0 WeaponProfileWeights=1.0;1.0;1.0;1.0;1.0;1.0;1.0;1.0 AimingProfileNames=Default;Default;Default;Default;Default;Default;Default;Default WeaponSwitchTime=3.0 UseWeapons=false CharacterProfile=target SeeThroughWalls=false NoDodging=false NoAiming=false [Character Profile] Name=Androxus MaxHealth=100.0 WeaponProfileNames=Cursed Revolver;Regular Revolver;;;;;; MinRespawnDelay=1.0 MaxRespawnDelay=5.0 StepUpHeight=75.0 CrouchHeightModifier=0.5 CrouchAnimationSpeed=1.0 CameraOffset=X=0.000 Y=0.000 Z=0.000 HeadshotOnly=false DamageKnockbackFactor=8.0 MovementType=Base MaxSpeed=1000.0 MaxCrouchSpeed=500.0 Acceleration=16000.0 AirAcceleration=16000.0 Friction=8.0 BrakingFrictionFactor=2.0 JumpVelocity=800.0 Gravity=3.0 AirControl=0.25 CanCrouch=false CanPogoJump=false CanCrouchInAir=false CanJumpFromCrouch=false EnemyBodyColor=X=255.000 Y=0.000 Z=0.000 EnemyHeadColor=X=255.000 Y=255.000 Z=255.000 TeamBodyColor=X=0.000 Y=0.000 Z=255.000 TeamHeadColor=X=255.000 Y=255.000 Z=255.000 BlockSelfDamage=false InvinciblePlayer=true InvincibleBots=false BlockTeamDamage=false AirJumpCount=0 AirJumpVelocity=800.0 MainBBType=Cylindrical MainBBHeight=230.0 MainBBRadius=55.0 MainBBHasHead=true MainBBHeadRadius=45.0 MainBBHeadOffset=0.0 MainBBHide=false ProjBBType=Cylindrical ProjBBHeight=230.0 ProjBBRadius=55.0 ProjBBHasHead=true ProjBBHeadRadius=45.0 ProjBBHeadOffset=0.0 ProjBBHide=true HasJetpack=true JetpackActivationDelay=0.2 JetpackFullFuelTime=4000.0 JetpackFuelIncPerSec=1000.0 JetpackFuelRegensInAir=false JetpackThrust=2200.0 JetpackMaxZVelocity=400.0 JetpackAirControlWithThrust=0.25 AbilityProfileNames=Nether Step.abilmov;Defiant Fist.abilmelee;; HideWeapon=false AerialFriction=0.0 StrafeSpeedMult=1.0 BackSpeedMult=1.0 RespawnInvulnTime=0.0 BlockedSpawnRadius=0.0 BlockSpawnFOV=0.0 BlockSpawnDistance=0.0 RespawnAnimationDuration=0.5 AllowBufferedJumps=true BounceOffWalls=false LeanAngle=0.0 LeanDisplacement=0.0 AirJumpExtraControl=0.0 ForwardSpeedBias=1.0 HealthRegainedonkill=0.0 HealthRegenPerSec=0.0 HealthRegenDelay=0.0 JumpSpeedPenaltyDuration=0.0 JumpSpeedPenaltyPercent=0.25 ThirdPersonCamera=false TPSArmLength=300.0 TPSOffset=X=0.000 Y=150.000 Z=150.000 BrakingDeceleration=2048.0 VerticalSpawnOffset=0.0 SpawnXOffset=0.0 SpawnYOffset=0.0 InvertBlockedSpawn=false [Character Profile] Name=target MaxHealth=1.0 WeaponProfileNames=Projectile Rifle_slow;;;;;;; MinRespawnDelay=0.001 MaxRespawnDelay=0.001 StepUpHeight=75.0 CrouchHeightModifier=0.5 CrouchAnimationSpeed=1.0 CameraOffset=X=0.000 Y=0.000 Z=0.000 HeadshotOnly=false DamageKnockbackFactor=8.0 MovementType=Base MaxSpeed=0.0 MaxCrouchSpeed=500.0 Acceleration=16000.0 AirAcceleration=16000.0 Friction=8.0 BrakingFrictionFactor=2.0 JumpVelocity=800.0 Gravity=0.0 AirControl=0.25 CanCrouch=true CanPogoJump=false CanCrouchInAir=false CanJumpFromCrouch=false EnemyBodyColor=X=1.000 Y=1.000 Z=1.000 EnemyHeadColor=X=255.000 Y=255.000 Z=255.000 TeamBodyColor=X=0.000 Y=0.000 Z=255.000 TeamHeadColor=X=255.000 Y=255.000 Z=255.000 BlockSelfDamage=false InvinciblePlayer=false InvincibleBots=false BlockTeamDamage=false AirJumpCount=0 AirJumpVelocity=800.0 MainBBType=Cuboid MainBBHeight=200.0 MainBBRadius=100.0 MainBBHasHead=false MainBBHeadRadius=45.0 MainBBHeadOffset=0.0 MainBBHide=false ProjBBType=Cylindrical ProjBBHeight=100.0 ProjBBRadius=50.0 ProjBBHasHead=false ProjBBHeadRadius=45.0 ProjBBHeadOffset=0.0 ProjBBHide=true HasJetpack=false JetpackActivationDelay=0.2 JetpackFullFuelTime=100000.0 JetpackFuelIncPerSec=0.1 JetpackFuelRegensInAir=true JetpackThrust=6000.0 JetpackMaxZVelocity=400.0 JetpackAirControlWithThrust=1.0 AbilityProfileNames=;;; HideWeapon=true AerialFriction=0.0 StrafeSpeedMult=1.0 BackSpeedMult=1.0 RespawnInvulnTime=0.0 BlockedSpawnRadius=100.0 BlockSpawnFOV=0.0 BlockSpawnDistance=0.0 RespawnAnimationDuration=0.0 AllowBufferedJumps=true BounceOffWalls=false LeanAngle=0.0 LeanDisplacement=0.0 AirJumpExtraControl=0.0 ForwardSpeedBias=1.0 HealthRegainedonkill=0.0 HealthRegenPerSec=0.0 HealthRegenDelay=0.0 JumpSpeedPenaltyDuration=0.0 JumpSpeedPenaltyPercent=0.0 ThirdPersonCamera=false TPSArmLength=300.0 TPSOffset=X=0.000 Y=150.000 Z=150.000 BrakingDeceleration=2048.0 VerticalSpawnOffset=0.0 SpawnXOffset=0.0 SpawnYOffset=0.0 InvertBlockedSpawn=false [Dodge Profile] Name=Mimic MaxTargetDistance=2500.0 MinTargetDistance=750.0 ToggleLeftRight=true ToggleForwardBack=false MinLRTimeChange=0.2 MaxLRTimeChange=0.5 MinFBTimeChange=0.2 MaxFBTimeChange=0.5 DamageReactionChangesDirection=true DamageReactionChanceToIgnore=0.5 DamageReactionMinimumDelay=0.125 DamageReactionMaximumDelay=0.25 DamageReactionCooldown=1.0 DamageReactionThreshold=0.0 DamageReactionResetTimer=0.0 JumpFrequency=0.5 CrouchInAirFrequency=0.0 CrouchOnGroundFrequency=0.0 TargetStrafeOverride=Mimic TargetStrafeMinDelay=0.125 TargetStrafeMaxDelay=0.25 MinProfileChangeTime=0.0 MaxProfileChangeTime=0.0 MinCrouchTime=0.3 MaxCrouchTime=0.6 MinJumpTime=0.3 MaxJumpTime=0.6 LeftStrafeTimeMult=1.0 RightStrafeTimeMult=1.0 StrafeSwapMinPause=0.0 StrafeSwapMaxPause=0.0 BlockedMovementPercent=0.5 BlockedMovementReactionMin=0.125 BlockedMovementReactionMax=0.2 [Weapon Profile] Name=Cursed Revolver Type=Hitscan ShotsPerClick=1 DamagePerShot=70.0 KnockbackFactor=0.1 TimeBetweenShots=0.5 Pierces=false Category=FullyAuto BurstShotCount=1 TimeBetweenBursts=0.5 ChargeStartDamage=10.0 ChargeStartVelocity=X=500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=2000.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=2000.000 Y=0.000 Z=0.000 InheritOwnerVelocity=0.0 OriginOffset=X=0.000 Y=0.000 Z=0.000 MaxTravelTime=5.0 MaxHitscanRange=100000.0 GravityScale=1.0 HeadshotCapable=true HeadshotMultiplier=2.0 MagazineMax=6 AmmoPerShot=1 ReloadTimeFromEmpty=1.5 ReloadTimeFromPartial=1.5 DamageFalloffStartDistance=2200.0 DamageFalloffStopDistance=4500.0 DamageAtMaxRange=20.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Ball VisualLifetime=0.2 WallParticleEffect=None HitParticleEffect=None BounceOffWorld=false BounceFactor=0.0 BounceCount=0 HomingProjectileAcceleration=0.0 ProjectileEnemyHitRadius=1.0 CanAimDownSight=false ADSZoomDelay=0.0 ADSZoomSensFactor=0.7 ADSMoveFactor=1.0 ADSStartDelay=0.0 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=-80.000 ADSBlocksShooting=false ShootingBlocksADS=false KnockbackFactorAir=0.1 RecoilNegatable=true DecalType=1 DecalSize=30.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot= StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=0.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.0 HitscanVisualRadius=6.0 TaggingDuration=0.0 TaggingMaxFactor=1.0 TaggingHitFactor=1.0 ProjectileTrail=None RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=true AimPunchAmount=0.0 AimPunchResetTime=0.05 AimPunchCooldown=0.5 AimPunchHeadshotOnly=false AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.05 AmmoReloadedOnKill=0 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=72.099998 ADSFOVScale=Horizontal (16:9) ADSAllowUserOverrideFOV=true IsBurstWeapon=false ForceFirstPersonInADS=true ZoomBlockedInAir=false ADSCameraOffsetX=0.0 ADSCameraOffsetY=0.0 ADSCameraOffsetZ=0.0 QuickSwitchTime=0.1 Explosive=false Radius=500.0 DamageAtCenter=100.0 DamageAtEdge=0.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=false DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=false DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=0.0 BlockedByWorld=false SpreadSSA=1.0,1.0,-1.0,0.0 SpreadSCA=1.0,1.0,-1.0,0.0 SpreadMSA=1.0,1.0,-1.0,0.0 SpreadMCA=1.0,1.0,-1.0,0.0 SpreadSSH=1.0,1.0,-1.0,0.0 SpreadSCH=1.0,1.0,-1.0,0.0 SpreadMSH=1.0,1.0,-1.0,0.0 SpreadMCH=1.0,1.0,-1.0,0.0 MaxRecoilUp=4.0 MinRecoilUp=4.0 MinRecoilHoriz=0.0 MaxRecoilHoriz=0.0 FirstShotRecoilMult=1.0 RecoilAutoReset=true TimeToRecoilPeak=0.03 TimeToRecoilReset=0.35 AAMode=2 AAPreferClosestPlayer=false AAAlpha=0.05 AAMaxSpeed=0.5 AADeadZone=0.0 AAFOV=30.0 AANeedsLOS=true TrackHorizontal=true TrackVertical=true AABlocksMouse=false AAOffTimer=0.0 AABackOnTimer=0.0 TriggerBotEnabled=true TriggerBotDelay=0.01 TriggerBotFOV=0.1 StickyLock=false HeadLock=true VerticalOffset=0.0 DisableLockOnKill=false UsePerShotRecoil=false PSRLoopStartIndex=0 PSRViewRecoilTracking=0.45 PSRCapUp=9.0 PSRCapRight=4.0 PSRCapLeft=4.0 PSRTimeToPeak=0.095 PSRResetDegreesPerSec=40.0 UsePerBulletSpread=false PBS0=0.0,0.0 [Weapon Profile] Name=Regular Revolver Type=Hitscan ShotsPerClick=1 DamagePerShot=70.0 KnockbackFactor=0.1 TimeBetweenShots=0.36 Pierces=false Category=SemiAuto BurstShotCount=1 TimeBetweenBursts=0.5 ChargeStartDamage=10.0 ChargeStartVelocity=X=500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=2000.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=2000.000 Y=0.000 Z=0.000 InheritOwnerVelocity=0.0 OriginOffset=X=0.000 Y=0.000 Z=0.000 MaxTravelTime=5.0 MaxHitscanRange=100000.0 GravityScale=1.0 HeadshotCapable=true HeadshotMultiplier=2.0 MagazineMax=6 AmmoPerShot=1 ReloadTimeFromEmpty=1.2 ReloadTimeFromPartial=1.2 DamageFalloffStartDistance=2200.0 DamageFalloffStopDistance=4500.0 DamageAtMaxRange=20.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Ball VisualLifetime=0.2 WallParticleEffect=None HitParticleEffect=None BounceOffWorld=false BounceFactor=0.0 BounceCount=0 HomingProjectileAcceleration=0.0 ProjectileEnemyHitRadius=1.0 CanAimDownSight=false ADSZoomDelay=0.0 ADSZoomSensFactor=0.7 ADSMoveFactor=1.0 ADSStartDelay=0.0 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=-80.000 ADSBlocksShooting=false ShootingBlocksADS=false KnockbackFactorAir=0.1 RecoilNegatable=true DecalType=1 DecalSize=30.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot= StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=0.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.0 HitscanVisualRadius=6.0 TaggingDuration=0.0 TaggingMaxFactor=1.0 TaggingHitFactor=1.0 ProjectileTrail=None RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=true AimPunchAmount=0.0 AimPunchResetTime=0.05 AimPunchCooldown=0.5 AimPunchHeadshotOnly=false AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.05 AmmoReloadedOnKill=0 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=72.099998 ADSFOVScale=Horizontal (16:9) ADSAllowUserOverrideFOV=true IsBurstWeapon=false ForceFirstPersonInADS=true ZoomBlockedInAir=false ADSCameraOffsetX=0.0 ADSCameraOffsetY=0.0 ADSCameraOffsetZ=0.0 QuickSwitchTime=0.1 Explosive=false Radius=500.0 DamageAtCenter=100.0 DamageAtEdge=0.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=false DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=false DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=0.0 BlockedByWorld=false SpreadSSA=1.0,1.0,-1.0,0.0 SpreadSCA=1.0,1.0,-1.0,0.0 SpreadMSA=1.0,1.0,-1.0,0.0 SpreadMCA=1.0,1.0,-1.0,0.0 SpreadSSH=1.5,1.5,-0.5,2.5 SpreadSCH=1.0,1.0,-1.0,0.0 SpreadMSH=1.5,1.5,-0.5,2.5 SpreadMCH=1.0,1.0,-1.0,0.0 MaxRecoilUp=4.0 MinRecoilUp=4.0 MinRecoilHoriz=0.0 MaxRecoilHoriz=0.0 FirstShotRecoilMult=1.0 RecoilAutoReset=true TimeToRecoilPeak=0.03 TimeToRecoilReset=0.35 AAMode=2 AAPreferClosestPlayer=false AAAlpha=0.05 AAMaxSpeed=0.5 AADeadZone=0.0 AAFOV=30.0 AANeedsLOS=true TrackHorizontal=true TrackVertical=true AABlocksMouse=false AAOffTimer=0.0 AABackOnTimer=0.0 TriggerBotEnabled=true TriggerBotDelay=0.01 TriggerBotFOV=0.1 StickyLock=false HeadLock=true VerticalOffset=0.0 DisableLockOnKill=false UsePerShotRecoil=false PSRLoopStartIndex=0 PSRViewRecoilTracking=0.45 PSRCapUp=9.0 PSRCapRight=4.0 PSRCapLeft=4.0 PSRTimeToPeak=0.095 PSRResetDegreesPerSec=40.0 UsePerBulletSpread=false PBS0=0.0,0.0 [Weapon Profile] Name=Projectile Rifle_slow Type=Projectile ShotsPerClick=1 DamagePerShot=50.0 KnockbackFactor=0.1 TimeBetweenShots=0.7 Pierces=false Category=FullyAuto BurstShotCount=1 TimeBetweenBursts=0.5 ChargeStartDamage=10.0 ChargeStartVelocity=X=500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=1200.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=1200.000 Y=0.000 Z=0.000 InheritOwnerVelocity=1.0 OriginOffset=X=100.000 Y=0.000 Z=-10.000 MaxTravelTime=5.0 MaxHitscanRange=100000.0 GravityScale=0.0 HeadshotCapable=false HeadshotMultiplier=2.0 MagazineMax=0 AmmoPerShot=1 ReloadTimeFromEmpty=0.5 ReloadTimeFromPartial=0.5 DamageFalloffStartDistance=100000.0 DamageFalloffStopDistance=100000.0 DamageAtMaxRange=80.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Rocket VisualLifetime=0.5 WallParticleEffect=Flare HitParticleEffect=Flare BounceOffWorld=false BounceFactor=0.0 BounceCount=0 HomingProjectileAcceleration=0.0 ProjectileEnemyHitRadius=3.0 CanAimDownSight=true ADSZoomDelay=0.05 ADSZoomSensFactor=0.5 ADSMoveFactor=0.5 ADSStartDelay=0.25 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=0.000 ADSBlocksShooting=false ShootingBlocksADS=false KnockbackFactorAir=0.1 RecoilNegatable=true DecalType=1 DecalSize=30.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot=Sniper Rifle StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=0.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.0 HitscanVisualRadius=6.0 TaggingDuration=0.0 TaggingMaxFactor=1.0 TaggingHitFactor=1.0 ProjectileTrail=Squares RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=true AimPunchAmount=0.0 AimPunchResetTime=0.05 AimPunchCooldown=0.5 AimPunchHeadshotOnly=false AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.05 AmmoReloadedOnKill=0 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=51.5 ADSFOVScale=Quake/Source ADSAllowUserOverrideFOV=true IsBurstWeapon=false ForceFirstPersonInADS=true ZoomBlockedInAir=false ADSCameraOffsetX=0.0 ADSCameraOffsetY=0.0 ADSCameraOffsetZ=0.0 QuickSwitchTime=0.0 Explosive=true Radius=300.0 DamageAtCenter=100.0 DamageAtEdge=0.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=false DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=false DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=0.0 BlockedByWorld=false SpreadSSA=1.0,1.0,-1.0,0.0 SpreadSCA=1.0,1.0,-1.0,0.0 SpreadMSA=1.0,1.0,-1.0,0.0 SpreadMCA=1.0,1.0,-1.0,0.0 SpreadSSH=1.0,1.0,-1.0,0.0 SpreadSCH=1.0,1.0,-1.0,0.0 SpreadMSH=1.0,1.0,-1.0,0.0 SpreadMCH=1.0,1.0,-1.0,0.0 MaxRecoilUp=0.0 MinRecoilUp=0.0 MinRecoilHoriz=0.0 MaxRecoilHoriz=0.0 FirstShotRecoilMult=1.0 RecoilAutoReset=true TimeToRecoilPeak=0.05 TimeToRecoilReset=0.35 AAMode=0 AAPreferClosestPlayer=false AAAlpha=0.05 AAMaxSpeed=1.0 AADeadZone=0.0 AAFOV=30.0 AANeedsLOS=true TrackHorizontal=true TrackVertical=true AABlocksMouse=false AAOffTimer=0.0 AABackOnTimer=0.0 TriggerBotEnabled=false TriggerBotDelay=0.0 TriggerBotFOV=1.0 StickyLock=false HeadLock=false VerticalOffset=0.0 DisableLockOnKill=false UsePerShotRecoil=false PSRLoopStartIndex=0 PSRViewRecoilTracking=0.45 PSRCapUp=9.0 PSRCapRight=4.0 PSRCapLeft=4.0 PSRTimeToPeak=0.095 PSRResetDegreesPerSec=40.0 UsePerBulletSpread=false [Weapon Profile] Name=Sniper Rifle Type=Hitscan ShotsPerClick=1 DamagePerShot=13.0 KnockbackFactor=0.1 TimeBetweenShots=0.1 Pierces=false Category=FullyAuto BurstShotCount=2 TimeBetweenBursts=0.1 ChargeStartDamage=0.1 ChargeStartVelocity=X=1500.000 Y=0.000 Z=0.000 ChargeTimeToAutoRelease=2.0 ChargeTimeToCap=1.0 ChargeMoveSpeedModifier=1.0 MuzzleVelocityMin=X=3000.000 Y=0.000 Z=0.000 MuzzleVelocityMax=X=3000.000 Y=0.000 Z=0.000 InheritOwnerVelocity=0.0 OriginOffset=X=0.000 Y=0.000 Z=0.000 MaxTravelTime=3.0 MaxHitscanRange=100000.0 GravityScale=1.0 HeadshotCapable=true HeadshotMultiplier=2.0 MagazineMax=0 AmmoPerShot=1 ReloadTimeFromEmpty=1.0 ReloadTimeFromPartial=0.8 DamageFalloffStartDistance=2500.0 DamageFalloffStopDistance=4000.0 DamageAtMaxRange=6.0 DelayBeforeShot=0.0 HitscanVisualEffect=Tracer ProjectileGraphic=Ball VisualLifetime=0.1 WallParticleEffect=Gunshot HitParticleEffect=Blood BounceOffWorld=true BounceFactor=0.6 BounceCount=0 HomingProjectileAcceleration=6000.0 ProjectileEnemyHitRadius=0.1 CanAimDownSight=true ADSZoomDelay=0.05 ADSZoomSensFactor=0.38 ADSMoveFactor=0.5 ADSStartDelay=0.25 ShootSoundCooldown=0.08 HitSoundCooldown=0.08 HitscanVisualOffset=X=0.000 Y=0.000 Z=-50.000 ADSBlocksShooting=true ShootingBlocksADS=false KnockbackFactorAir=0.1 RecoilNegatable=true DecalType=1 DecalSize=30.0 DelayAfterShooting=0.0 BeamTracksCrosshair=false AlsoShoot= ADSShoot=Zoomed Sniper Rifle StunDuration=0.0 CircularSpread=true SpreadStationaryVelocity=0.0 PassiveCharging=false BurstFullyAuto=true FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 HitscanRadius=0.0 HitscanVisualRadius=6.0 TaggingDuration=0.0 TaggingMaxFactor=1.0 TaggingHitFactor=1.0 ProjectileTrail=None RecoilCrouchScale=1.0 RecoilADSScale=1.0 PSRCrouchScale=1.0 PSRADSScale=1.0 ProjectileAcceleration=0.0 AccelIncludeVertical=true AimPunchAmount=0.0 AimPunchResetTime=0.05 AimPunchCooldown=0.5 AimPunchHeadshotOnly=false AimPunchCosmeticOnly=true MinimumDecelVelocity=0.0 PSRManualNegation=false PSRAutoReset=true AimPunchUpTime=0.05 AmmoReloadedOnKill=0 CancelReloadOnKill=false FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 ADSScope=No Scope ADSFOVOverride=50.985001 ADSFOVScale=Quake/Source ADSAllowUserOverrideFOV=true IsBurstWeapon=false ForceFirstPersonInADS=true ZoomBlockedInAir=false ADSCameraOffsetX=0.0 ADSCameraOffsetY=0.0 ADSCameraOffsetZ=0.0 QuickSwitchTime=0.0 Explosive=false Radius=500.0 DamageAtCenter=100.0 DamageAtEdge=0.0 SelfDamageMultiplier=0.5 ExplodesOnContactWithEnemy=true DelayAfterEnemyContact=0.0 ExplodesOnContactWithWorld=true DelayAfterWorldContact=0.0 ExplodesOnNextAttack=false DelayAfterSpawn=5.0 BlockedByWorld=true SpreadSSA=2.0,5.5,0.0,3.0 SpreadSCA=2.0,5.5,0.0,3.0 SpreadMSA=2.0,5.5,0.0,3.0 SpreadMCA=2.0,5.5,0.0,3.0 SpreadSSH=2.0,5.5,0.0,3.0 SpreadSCH=2.0,5.5,0.0,3.0 SpreadMSH=2.0,5.5,0.0,3.0 SpreadMCH=2.0,5.5,0.0,3.0 MaxRecoilUp=0.0 MinRecoilUp=0.0 MinRecoilHoriz=0.0 MaxRecoilHoriz=0.0 FirstShotRecoilMult=1.0 RecoilAutoReset=true TimeToRecoilPeak=0.05 TimeToRecoilReset=0.45 AAMode=2 AAPreferClosestPlayer=false AAAlpha=1.0 AAMaxSpeed=1.5 AADeadZone=0.0 AAFOV=75.0 AANeedsLOS=true TrackHorizontal=true TrackVertical=true AABlocksMouse=true AAOffTimer=0.0 AABackOnTimer=0.0 TriggerBotEnabled=true TriggerBotDelay=0.01 TriggerBotFOV=0.1 StickyLock=false HeadLock=true VerticalOffset=0.0 DisableLockOnKill=false UsePerShotRecoil=false PSRLoopStartIndex=0 PSRViewRecoilTracking=0.45 PSRCapUp=9.0 PSRCapRight=4.0 PSRCapLeft=4.0 PSRTimeToPeak=0.095 PSRResetDegreesPerSec=40.0 UsePerBulletSpread=false [Movement Ability Profile] Name=Nether Step MaxCharges=3.0 ChargeTimer=1.0 ChargesRefundedOnKill=0.0 DelayAfterUse=0.3 FullyAuto=true AbilityDuration=0.3 LockDirectionForDuration=true NegateGravityForDuration=true MainVelocity=13500.0 MainVelocityCanGoVertical=true MainVelocitySetToMovementKeys=false UpVelocity=0.0 EndVelocityFactor=0.0 Hurtbox=false HurtboxRadius=50.0 HurtboxDamage=50.0 HurtboxGroundKnockbackFactor=1.0 HurtboxAirKnockbackFactor=1.0 AbilityBlocksTurning=false AbilityBlocksMovement=true AbilityBlocksAttack=true AttackCancelsAbility=false AbilityReloadsWeapon=true HealthRestore=0.0 AIUseInCombat=true AIUseOutOfCombat=false AIUseOnGround=true AIUseInAir=true AIReuseTimer=1.0 AIMinSelfHealth=0.0 AIMaxSelfHealth=100.0 AIMinTargHealth=0.0 AIMaxTargHealth=100.0 AIMinTargDist=0.0 AIMaxTargDist=2000.0 AIMaxTargFOV=15.0 AIDamageReaction=true AIDamageReactionIgnoreChance=0.0 AIDamageReactionMinDelay=0.125 AIDamageReactionMaxDelay=0.25 AIDamageReactionCooldown=1.0 AIDamageReactionThreshold=0.0 AIDamageReactionResetTimer=0.1 [Melee Ability Profile] Name=Defiant Fist MaxCharges=1.0 ChargeTimer=0.25 ChargesRefundedOnKill=0.0 DelayAfterUse=0.5 FullyAuto=false AbilityDuration=0.15 HurtboxRadius=600.0 HurtboxDamage=30.0 HurtboxGroundKnockbackFactor=4.0 HurtboxAirKnockbackFactor=4.0 BlockAttackTimer=0.5 AbilityBlockedWhenAttacking=false AmmoPerShot=0 FlatKnockbackHorizontal=0.0 FlatKnockbackVertical=0.0 FlatKnockbackHorizontalMin=0.0 FlatKnockbackVerticalMin=0.0 AIUseInCombat=true AIUseOutOfCombat=false AIUseOnGround=true AIUseInAir=true AIReuseTimer=1.0 AIMinSelfHealth=0.0 AIMaxSelfHealth=100.0 AIMinTargHealth=0.0 AIMaxTargHealth=100.0 AIMinTargDist=0.0 AIMaxTargDist=2000.0 AIMaxTargFOV=15.0 AIDamageReaction=true AIDamageReactionIgnoreChance=0.0 AIDamageReactionMinDelay=0.125 AIDamageReactionMaxDelay=0.25 AIDamageReactionCooldown=1.0 AIDamageReactionThreshold=0.0 AIDamageReactionResetTimer=0.1 [Map Data] reflex map version 8 global entity type WorldSpawn String32 targetGameOverCamera end UInt8 playersMin 1 UInt8 playersMax 32 brush vertices -102400.000000 -1164.000000 102400.000000 102400.000000 -1164.000000 102400.000000 102400.000000 -1164.000000 -102400.000000 -102400.000000 -1164.000000 -102400.000000 -102400.000000 -1228.000000 102400.000000 102400.000000 -1228.000000 102400.000000 102400.000000 -1228.000000 -102400.000000 -102400.000000 -1228.000000 -102400.000000 faces 0.000000 0.000000 1.000000 1.000000 0.000000 0 1 2 3 0x00000000 0.000000 0.000000 1.000000 1.000000 0.000000 6 5 4 7 0x00000000 0.000000 0.000000 1.000000 1.000000 0.000000 2 1 5 6 0x00000000 0.000000 0.000000 1.000000 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-1024.000000 Bool8 teamA 0 entity type PlayerSpawn Vector3 position -1920.000000 -780.000000 -1024.000000 Bool8 teamA 0
9a941ca5503a520a9dd3fb6d5ea232b5d69f1263	449d555969bfd7befe906877abab098c6e63a0e8	/2594/CH4/EX4.4/Ex4_4.sce	9db77cdf33c60736473cefc7531bf449fa65ea21	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	729	sce	Ex4_4.sce	clc Nd=10^15 disp("Nd = "+string(Nd)+"cm^-3") //initializing value of donor concentration.. tn=1010^-6 disp("minority carrier lifetime = "+string(tn)+"s") //initializing value of minority carrier lifetime. no=1.510^10 disp("no = "+string(no)+"cm^-3") //initializing value of electron and hole concentration per cm^3. p=(no^2/Nd) disp("excess carrier concentration,p=(no^2/Nd))="+string(p)+"/cm^3")//calculation R=(p/tn) disp("electron hole generation and recombination rate,R=(p/t))="+string(R)+"/cm^3s")//calculation t=Nd/R disp("majority carrier concentration,t=Nd/R)="+string(t)+"s")//calculation. //the value of majority carrier concentration,t=Nd/R (after calculation),is provided wrong in the solution.
0b2188b5e5e900806244697a22ebd2a8677c619c	449d555969bfd7befe906877abab098c6e63a0e8	/1092/CH9/EX9.2/Example9_2.sce	28f36e6da6cfb8b15efde43dd1a119e128f7dae7	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	990	sce	Example9_2.sce	// Electric Machinery and Transformers // Irving L kosow // Prentice Hall of India // 2nd editiom // Chapter 9: POLYPHASE INDUCTION (ASYNCHRONOUS) DYNAMOS // Example 9-2 clear; clc; close; // Clear the work space and console. // Given data s_a = 5(1/100); // Slip (case a) s_b = 7(1/100); // Slip (case b) // Given data and calculated values from Ex.9-1 f_a = 60 ; // Line frequency in Hz (case a) f_b = 50 ; // Line frequency in Hz (case b) S_a = 1200 ; // Speed in rpm of the rotating magnetic field (case a) S_b = 1000 ; // Speed in rpm of the rotating magnetic field (case b) // Calculations // case a S_r_a = S_a * ( 1 - s_a ); // Rotor speed in rpm when slip is 5% (case a) // case b S_r_b = S_b * ( 1 - s_b ); // Rotor speed in rpm when slip is 7% (case b) // Display the results disp("Example 9-2 Solution : "); printf(" \n a: S_r = %.f rpm @ s = %.2f \n ", S_r_a ,s_a ); printf(" \n b: S_r = %.f rpm @ s = %.2f ", S_r_b ,s_b );
c93a3503d3b72dbe380ac41bc4459cc466f05cd9	449d555969bfd7befe906877abab098c6e63a0e8	/405/CH4/EX4.6/4_6.sce	e04debddf78231407f4b4f15f3e3cb7cb289291c	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,757	sce	4_6.sce	clear; clc; printf("\t\t\tExample Number 4.6\n\n\n"); // aluminium plate suddenly exposed to convection // illustration4.6 // solution alpha = 8.410^(-5);// [square meter/s] constant Ts = 200;// [degree celsius] initial temperature of of plate Te = 70;// [degree celsius] environment temperature k = 215;// [W/m degree celsius] heat transfer coefficient of plate h = 525;// [W/square meter degree celsius] heat transfer coefficient x = 0.0125;// [m] depth at which temperature is calculated t = 60;// [s] time after which plate temperature is calculated L = 0.025;// [m] thickness of plate theta_i = Ts-Te;// [degree celsius] // then Z = alphat/L^2; X = k/(hL); x_by_L = x/L; // from figure 4-7(page no.-144-145) theta_o_by_theta_i = 0.61; theta_o = theta_o_by_theta_itheta_i;// [degree celsius] // from figure 4-10(page no.-149) at x/L = 0.5, theta_by_theta_o = 0.98; theta = theta_by_theta_otheta_o;// [degree celsius] T = Te+theta;// [degree celsius] // we compute the energy lost by the slab by using Figure 4-14(page no.-152). For this calculation we require the following properties of aluminium: rho = 2700;// [kg/cubic meter] C = 900;// [J/kg degree celsius] // for figure 4-14(page no.-152) we need V = h^2alphat/(k^2); B = hL/k; // from figure 4-14(page no.-152) Q_by_Qo = 0.41; // for unit area Qo_by_A = rhoC2Ltheta_i;// [J/square meter] // so that the heat removed per unit surface area is Q_by_A = Qo_by_A*Q_by_Qo;// [J/square meter] printf("\n\n temperature at a depth of 1.25 cm from one of faces after 1 min of exposure of plate to the environment is %f degree celsius",T); printf("\n\n energy removed per unit area from the plate in this time is %e J/square meter",Q_by_A);
1663138dadb6c89cae92111157ca6e41a74dc1ba	b0aff14da16e18ea29381d0bd02eede1aafc8df1	/mtlbSci/macros/moc_rows.sci	fe0b5747fceed9abfcf581570abf952bf55942a7	[]	no_license	josuemoraisgh/mtlbSci	5d762671876bced45960a774f7192b41124a13ed	5c813ed940cccf774ccd52c9a69f88ba39f22deb	refs/heads/main	2023-07-15T23:47:11.843101	2021-08-26T17:52:57	2021-08-26T17:52:57	385,216,432	0	0	null	null	null	null	UTF-8	Scilab	false	false	302	sci	moc_rows.sci	function nr=moc_rows(A) // gives the number of rows from A // Calling Sequence // nr_of_rows=moc_rows(A) // Parameters // nr_of_rows: number of rows // A:vector or matrix // Description // moc_rows gives the number of rows from A // // Authors // H. Nahrstaedt - 2014 s=size(A); nr=s(1); endfunction
2a65713917a758b9025b724059ed19258a85328d	637fcd60a4e2a98ebbeaaa9551554a13e1ebfdba	/quad/ctrl/paparazzi/sw/airborne/firmwares/vor/sci_vor_filters.sci	bb3e75bfddb50cb154ba6ce14e9bd54f6ce54c36	[]	no_license	zoomx/lxyppc-tetrix	b7079c07aee9b85a34207245f526e1613fdb0498	884027f37594f9f006f88d634c4392a60c482491	refs/heads/master	2021-01-10T21:04:54.219013	2015-05-10T08:45:33	2015-05-10T08:45:33	35,362,463	12	0	null	null	null	null	UTF-8	Scilab	false	false	3,158	sci	sci_vor_filters.sci	// // $Id$ // // Copyright (C) 2008 Antoine Blais, Antoine Drouin // // This file is part of paparazzi. // // paparazzi is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2, or (at your option) // any later version. // // paparazzi is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with paparazzi; see the file COPYING. If not, write to // the Free Software Foundation, 59 Temple Place - Suite 330, // Boston, MA 02111-1307, USA. // // // Digital VOR ( VHF Omni-directional Radio Range ) receiver // filters stuff // // VOR signal parameters vor_Fvor = 30; vor_F0 = 9960; // Frequency modulation ratio of 30 REF vor_n = 16; // Frequency excursion produced by 30 REF vor_Df = vor_n * vor_Fvor; // Sampling frequency vor_Fe = 3. * vor_F0; // decimation factor of 30 VAR and demodulated 30 REF (FM) vor_decim_factor = 833; BP_VAR = 1; BP_REF = 2; LP_DECIM = 3; LP_VAR = 4; LP_REF = 5; LP_FM = 6; FILTER_NB = 6; function [filters] = vor_get_filters() vor_filter_format = ['vor_filter';'tf'; 'ss'; 'state'; 'Dphi']; _tf = iir(3,'lp','butt',[800/vor_Fe 0],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); [_dB, _Dphi] = dbphi(repfreq(_tf, vor_Fvor/vor_Fe)); tl_BP_VAR = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); fc1 = (vor_F0-vor_Df)/vor_Fe0.9; fc2 = (vor_F0+vor_Df)/vor_Fe1.1; _tf = iir(3,'bp','butt',[fc1 fc2],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); [_dB, _Dphi] = dbphi(repfreq(_tf,-0.5,vor_F0 / vor_Fe)); _Dphi = modulo(_Dphi($) / vor_F0 vor_Fvor,360); tl_BP_REF = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); _tf = iir(3,'lp','butt',[800/vor_Fe 0],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); _Dphi = 0.; tl_LP_DECIM = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); _tf = iir(6,'lp','butt',[10/vor_Fevor_decim_factor 0],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); _Dphi = 0.; tl_LP_VAR = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); _tf = iir(3,'lp','butt',[3000/vor_Fe 0],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); [_dB,_Dphi] = dbphi(repfreq(_tf, vor_Fvor / vor_Fe)); tl_LP_REF = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); _tf = iir(6,'lp','butt',[10/vor_Fevor_decim_factor 0],[0 0]); _ss = tf2ss(_tf); [foo, state0] = flts(0, _ss); _Dphi = 0.; tl_LP_FM = tlist(vor_filter_format, _tf, _ss, state0, _Dphi); filters = list(tl_BP_VAR, tl_BP_REF, tl_LP_DECIM, tl_LP_VAR, tl_LP_REF, tl_LP_FM); endfunction function [out, filter] = vor_filter_run(filter, in) [out, filter.state] = flts(in, filter.ss, filter.state); endfunction
b62baba9f31987421aea58d877120700796cfa5c	01ecab2f6eeeff384acae2c4861aa9ad1b3f6861	/sci2blif/block_doc_gen_gui.sce	ec2e8c2f297a25f15c8afcb0c2b10526e63706be	[]	no_license	jhasler/rasp30	9a7c2431d56c879a18b50c2d43e487d413ceccb0	3612de44eaa10babd7298d2e0a7cddf4a4b761f6	refs/heads/master	2023-05-25T08:21:31.003675	2023-05-11T16:19:59	2023-05-11T16:19:59	62,917,238	3	3	null	null	null	null	UTF-8	Scilab	false	false	4,493	sce	block_doc_gen_gui.sce	global block_doc_name; fcal=figure('figure_position',[400,400],'figure_size',[650,450],'auto_resize','on','background',[12],'figure_name','Generate Level1 Simulation'); delmenu(fcal.figure_id,gettext('File')); delmenu(fcal.figure_id,gettext('?')); delmenu(fcal.figure_id,gettext('Tools')); delmenu(fcal.figure_id,gettext('Edit')); toolbar(fcal.figure_id,'off'); handles.dummy = 0; handles.block_doc_name=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.85,0.3,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Enter Block Name','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_name','Callback','block_doc_name_callback()'); handles.block_doc_ni=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.7,0.3,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Enter # of inputs','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_ni','Callback','block_doc_ni_callback()'); // number of inputs handles.block_doc_no=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.45,0.7,0.3,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Enter # of outputs','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_no','Callback','block_doc_no_callback()'); // no: number of outputs handles.block_doc_pl=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.55,0.8,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Enter Parameter List (e.g., FG_bias1, FG_bias2, ...)','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_pl','Callback','block_doc_pl_callback()'); // pl: parameter list handles.block_doc_bdt=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.40,0.8,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Block Description Text (Latex) file (/home/ubuntu/.../a.tex)','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_bdt','Callback','block_doc_bdt_callback()'); // bdt: block description text handles.block_doc_bdf=uicontrol(fcal,'unit','normalized','BackgroundColor',[1,1,1],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','normal','ForegroundColor',[0,0,0],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.25,0.8,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Block Description Figure (jpg,png,pdf) file (/home/ubuntu/.../a.jpg)','Style','edit','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','block_doc_bdf','Callback','block_doc_bdf_callback()'); // bdf: block description figures handles.Gen_block_doc=uicontrol(fcal,'unit','normalized','BackgroundColor',[0.27,0.5,0.7],'Enable','on','FontAngle','normal','FontName','mukti narrow','FontSize',[14],'FontUnits','points','FontWeight','bold','ForegroundColor',[1,1,1],'HorizontalAlignment','center','ListboxTop',[],'Max',[1],'Min',[0],'Position',[0.1,0.1,0.8,0.1],'Relief','flat','SliderStep',[0.01,0.1],'String','Add and Generate block document.','Style','pushbutton','Value',[0],'VerticalAlignment','middle','Visible','on','Tag','Gen_block_doc','Callback','Gen_block_doc_callback()'); dir_menu = uimenu("Parent", fcal, "Label", gettext("Directions"), 'ForegroundColor',[0.53,0.81,0.98],"callback", "dir_callback();");
260ac41ce42eb8cd115692aafc793d6c23e1d544	449d555969bfd7befe906877abab098c6e63a0e8	/3769/CH17/EX17.23/Ex17_23.sce	275357c13b8bfbb04e56f7bc59cd3d4dc15fc7f8	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	208	sce	Ex17_23.sce	clear //Given u=1.56 R1=20.0 //cm u1=-10.0 //cm //Calculation f=1/((u-1)*(2/R1)) v=1/((1/u1)+(1/f)) //Result printf("\n Position of the image formed is %0.2f ",v)
acdee2ca310ee31655fbc06ab999463e70b4aa12	c6bf685755436b2a7bf289ac90bec98340fe97fe	/SERIE_DE_MAC_LAURIN.sce	3c8b8b95b77e16305ce4f7530621c92190bf00c8	[]	no_license	ivybin/PROGRAMAS-SCE	82296ac10f4fb02d6e283f64e910666c6103063a	e61918ceae020bd33fcf223908f7decdec1c41b4	refs/heads/master	2023-07-23T12:55:08.711868	2021-09-02T17:22:23	2021-09-02T17:22:23	400,595,765	0	0	null	null	null	null	UTF-8	Scilab	false	false	513	sce	SERIE_DE_MAC_LAURIN.sce	clear; clc; TY=1;seno=0;coss=0; ANG=input('ANGULO EM RADIANO='); function X=FAT(N) if N==0 X=1; else X=NFAT(N-1); end endfunction for T=0:1:100 TY=TY+3; seno=seno+((-1)^TY((ANG^((T2)+1))/FAT((T2)+1))); coss=coss+((-1)^TY((ANG^(T2)/FAT(T2)))); end MZ= %e^(%iANG); SP= cos(ANG)+%isin(ANG); GG=[SP MZ]; disp(GG); disp(seno); disp(sin(ANG)); disp(coss); disp(cos(ANG)); //14) n=13; M= (cos(ANG)+%isin(ANG))^n; C= (cos(ANGn)+%isin(ANG*n)); RED=[M C]; disp(RED);
8e079c9edbd60f6f3eb8fc653726527e878eed84	089894a36ef33cb3d0f697541716c9b6cd8dcc43	/NLP_Project/test/blog/bow/bow.14_18.tst	4058b7a7c8ed7f180acdbe821aa7cf919c1cf5c1	[]	no_license	mandar15/NLP_Project	3142cda82d49ba0ea30b580c46bdd0e0348fe3ec	1dcb70a199a0f7ab8c72825bfd5b8146e75b7ec2	refs/heads/master	2020-05-20T13:36:05.842840	2013-07-31T06:53:59	2013-07-31T06:53:59	6,534,406	0	1	null	null	null	null	UTF-8	Scilab	false	false	5,738	tst	bow.14_18.tst	14 1:0.058823529411764705 3:1.0 8:0.125 20:0.5 33:0.25 44:0.3333333333333333 55:0.2 63:2.0 91:0.16666666666666666 102:1.0 162:1.0 166:1.0 199:1.0 203:1.0 293:0.16666666666666666 318:1.0 388:0.5 575:1.0 622:0.25 634:1.0 753:1.0 1335:1.0 1573:1.0 14 1:0.029411764705882353 3:0.5 15:0.25 17:0.08333333333333333 55:0.2 63:1.0 68:1.0 71:1.0 270:1.0 317:1.0 333:1.0 732:1.0 755:1.0 1263:1.0 14 5:1.0 8:0.25 11:0.0625 15:0.25 33:0.5 55:0.2 63:1.0 83:1.0 199:1.0 289:1.0 290:1.0 311:1.0 313:1.0 350:0.3333333333333333 351:1.0 388:0.5 423:1.0 634:1.0 732:1.0 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91:0.16666666666666666 234:0.3333333333333333 254:0.5 492:0.5 14 4:0.5 8:0.25 11:0.0625 17:0.08333333333333333 19:1.0 20:0.5 33:0.5 84:0.5 91:0.3333333333333333 189:1.0 204:0.5 254:0.5 390:1.0 669:1.0 860:1.0 1270:1.0 1719:1.0 14 1:0.029411764705882353 8:0.25 11:0.125 15:0.25 17:0.08333333333333333 33:0.25 87:1.0 91:0.3333333333333333 203:1.0 204:0.5 254:0.5 1266:1.0 14 8:0.125 15:0.25 17:0.16666666666666666 254:0.5 1080:1.0 14 1:0.029411764705882353 15:0.25 37:0.125 14 1:0.058823529411764705 8:0.125 11:0.0625 15:0.25 20:0.5 33:0.25 40:0.14285714285714285 91:0.16666666666666666 93:1.0 135:1.0 173:1.0 190:1.0 254:0.5 282:1.0 284:0.5 637:1.0 1227:1.0 14 1:0.058823529411764705 11:0.125 17:0.08333333333333333 20:0.5 91:0.16666666666666666 165:1.0 431:1.0 826:1.0 14 1:0.058823529411764705 8:0.125 11:0.0625 17:0.16666666666666666 40:0.14285714285714285 67:1.0 70:0.25 76:1.0 91:0.16666666666666666 119:1.0 227:0.14285714285714285 254:1.0 418:0.2 627:1.0 1418:1.0 1512:1.0 14 1:0.029411764705882353 3:0.5 162:1.0 379:1.0 14 1:0.029411764705882353 2:1.0 3:1.0 8:0.25 9:0.3333333333333333 11:0.0625 20:0.5 56:1.0 73:1.0 91:0.3333333333333333 135:1.0 161:1.0 204:0.5 253:1.0 383:1.0 734:1.0 1491:1.0
e4f9f07d63d810fbab6ba6f601b3c2ffce026aa7	449d555969bfd7befe906877abab098c6e63a0e8	/2783/CH1/EX1.7/Ex1_7.sce	7d667a4c267de126f7f530864639bc140209b154	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	328	sce	Ex1_7.sce	clc //initialization of new variables clear T=300 //K gama=1.4 R=286.6 //calculation // for air a=sqrt(gamaRT) //result printf('The speed of sound in air is %.1f m/s ',a) // for sea water E=2.34*10^9 // N/m^2 rho=1000 //kg/cm^2 a=sqrt(E/rho) //result printf(' \n The speed of sound in sea waer is %d m/s ',a)
e832e5f510bf69d841cc413344fc671f5649359e	449d555969bfd7befe906877abab098c6e63a0e8	/671/CH7/EX7.12/7_12.sce	2b9d679761cc3c6452129bdc5d0bd00d647aa900	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	113	sce	7_12.sce	V1=10 //Mesh Method A=[1+10%i,-80%i;80%i,-500-800%i] I=inv(A)[V1;0] V2=500I(2) disp(V1,V2,I)
035f94daf393d1854f3d816955c1391b58225028	da5b40d917ec2982828bd9bdf06b18b7bf189f26	/sim/cmd/test/consisterrs.tst	65efe43817ae10db42f366770a4a37058eebf06f	[]	no_license	psy007/NNPC-CHEMICAL-SIM-	4bddfc1012e0bc60c5ec6307149174bcd04398f9	8fb4c90180dc96be66f7ca05a30e59a8735fc072	refs/heads/master	2020-04-12T15:37:04.174834	2019-02-06T10:10:20	2019-02-06T10:10:20	162,587,144	1	0	null	null	null	null	UTF-8	Scilab	false	false	1,046	tst	consisterrs.tst	#Play with consistency errors s = Stream.Stream_Material() s2 = Stream.Stream_Material() s3 = Stream.Stream_Material() s.In.T = 11 s.In.P = 11 s.In.MoleFlow = 3 s2.In.T = 22 s2.In.P = 222 #Create a Consist error s.Out -> s2.In s.In.MoleFlow = s.In.MoleFlow = 4 #Get rid of Consist error s.Out -> #Shouldn't make a difference the order of connections s2.In -> s.Out s.Out -> #A solve will not be triggered in both sides, but the const error should still be passed on s.In.MoleFlow = s2.In -> s.Out #Anythins should still pass the message of consist errors cd /s cd / #This should clear the consist error message s2.In -> #Put it back s.Out -> s2.In #Reconnect. Consist error message should go away s.Out -> s3.In #Put it back s.Out -> s2.In s3.Out.T = 33 s3.Out.P = 333 #Reconnect, but now a new consist error should get created s.Out -> s3.In #The consistency error messages should get stored too store consisterrs.s42 #Clear and errors should go away clear #recall and errors should come back recall consisterrs.s42 cd /
23b7cdc07c9baa365c978b86658e7b8a76a6dd03	449d555969bfd7befe906877abab098c6e63a0e8	/824/CH11/EX11.3/11_3.sce	102b8af402a30a608036608cc1a04c8861539e7a	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	468	sce	11_3.sce	//clear// clc clear exec("11.3data.sci"); //this is only Part A of the problem. dp=(6(D^2)L/4)^(1/3); disp("Particle diameter dp =") disp(dp) disp("m") ac=6(1-phi)(1/dp); disp("Surface area pervolume of bed =") disp(ac) disp("m^2/m^3") Re =dpU/v; Y=(2rLp+2r^2)/dp^2; Reprime=Re/((1-phi)Y); DAB=DAB0(T/T0)^(1.75); Sc=v/DAB; Shprime=((Reprime)^.5)Sc^(1/3); kc=DAB(1-phi)Y(Shprime)/(dpphi); X=1-exp(-kcac*z/U); disp("X =") disp(X)
253c9b0645fef80bfb0a4e0c29db0cf293274eef	449d555969bfd7befe906877abab098c6e63a0e8	/1332/CH19/EX19.6/19_6.sce	b38435524f0c1f773ed82b33f8b8dcf1fbf2d764	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	646	sce	19_6.sce	//Example 19.6 //Wendroff Method //Page no. 661 clc;clear;close; c=2;k=0.07;h=0.2; a=(h+kc)/(h-kc) printf('\n x\ti\t\|\tj -->\t') for i=0:6 printf(' %i\t',i) end printf('\n \|\t\|\t\|\tt -->\t') for i=0:6 printf('%.3f\t',ik) end printf('\n---------------------------------------------------------------------------------------') for i=1:6 printf('\n %.1f\t%i\t\|\t\t',(i-1)h,i-1) for j=1:7 if j==1 then u(i,j)=0; elseif i==1 then u(i,j)=1 else u(i,j)=u(i-1,j-1)+(u(i,j-1)-u(i-1,j))/a end printf('%.3f\t',u(i,j)) end end
575e9dcdae9e56de5e03ddb90a2dbff46c2178d0	449d555969bfd7befe906877abab098c6e63a0e8	/2240/CH29/EX28.9/EX28_9.sce	4e3392f94a5e71e0863f08c920a55793d432dcd3	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	425	sce	EX28_9.sce	// Grob's Basic Electronics 11e // Chapter No. 28 // Example No. 28_9 clc; clear; // Calculate Pd if Vcc is 10 V and Ib is 50 uAmps. Assume Beta(dc) is 100. // Given data Bdc = 100; // Beta(dc)=100 Ib = 5010^-6; // Base current=50 uAmps Vcc = 10; // Supply voltage=10 Volts Vce = Vcc Ic = BdcIb; Pd = Vce*Ic; disp (Pd,'The Power Dissipation in Watts') disp ('i.e 50 mWatts')
0c1bc7817af87dc01e5420d9a70b1eed06f4b3f8	f542bc49c4d04b47d19c88e7c89d5db60922e34e	/PresentationFiles_Subjects/CONT/VF58UMP/ATWM1_Working_Memory_MRI_VF58UMP/ATWM1_Working_Memory_MRI_Nonsalient_Uncued_Run1.sce	1cbe4a9e2eb0a11235cc2d2200fecb2d93f622ad	[]	no_license	atwm1/Presentation	65c674180f731f050aad33beefffb9ba0caa6688	9732a004ca091b184b670c56c55f538ff6600c08	refs/heads/master	2020-04-15T14:04:41.900640	2020-02-14T16:10:11	2020-02-14T16:10:11	56,771,016	0	1	null	null	null	null	UTF-8	Scilab	false	false	12,282	sce	ATWM1_Working_Memory_MRI_Nonsalient_Uncued_Run1.sce	# ATWM1 MRI Experiment scenario = "ATWM1_Working_Memory_MRI_nonsalient_uncued_run1"; scenario_type = fMRI; # Fuer Scanner #scenario_type = fMRI_emulation; # Zum Testen #scenario_type = trials; scan_period = 2000; # TR pulses_per_scan = 1; pulse_code = 1; #pulse_width=6; default_monitor_sounds = false; active_buttons = 2; response_matching = simple_matching; button_codes = 10, 20; default_font_size = 28; default_font = "Arial"; default_background_color = 0 ,0 ,0 ; #write_codes=true; # for MEG only begin; #Picture definitions box { height = 300; width = 300; color = 0, 0, 0;} frame1; box { height = 290; width = 290; color = 255, 255, 255;} frame2; box { height = 30; width = 4; color = 0, 0, 0;} fix1; box { height = 4; width = 30; color = 0, 0, 0;} fix2; box { height = 30; width = 4; color = 255, 0, 0;} fix3; box { height = 4; width = 30; color = 255, 0, 0;} fix4; box { height = 290; width = 290; color = 128, 128, 128;} background; TEMPLATE "StimuliDeclaration.tem" {}; trial { sound sound_incorrect; time = 0; duration = 1; } wrong; trial { sound sound_correct; time = 0; duration = 1; } right; trial { sound sound_no_response; time = 0; duration = 1; } miss; # baselinePre (at the beginning of the session) trial { picture { box frame1; x=0; y=0; box frame2; x=0; y=0; box background; x=0; y=0; bitmap fixation_cross_black; x=0; y=0; }default; time = 0; duration = 9400; mri_pulse = 1; code = "BaselinePre"; #port_code = 1; }; TEMPLATE "ATWM1_Working_Memory_MRI.tem" { trigger_volume_encoding trigger_volume_retrieval cue_time preparation_time encoding_time single_stimulus_presentation_time delay_time retrieval_time intertrial_interval alerting_cross stim_enc1 stim_enc2 stim_enc3 stim_enc4 stim_enc_alt1 stim_enc_alt2 stim_enc_alt3 stim_enc_alt4 trial_code stim_retr1 stim_retr2 stim_retr3 stim_retr4 stim_cue1 stim_cue2 stim_cue3 stim_cue4 fixationcross_cued retr_code the_target_button posX1 posY1 posX2 posY2 posX3 posY3 posX4 posY4; 6 11 292 292 399 125 9543 2992 14342 fixation_cross gabor_045 gabor_001 gabor_019 gabor_064 gabor_045 gabor_001_alt gabor_019 gabor_064_alt "1_1_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_9601_3000_14400_gabor_patch_orientation_045_001_019_064_target_position_1_3_retrieval_position_1" gabor_090_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_1_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_090_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 20 25 292 292 399 125 9543 2992 14342 fixation_cross gabor_152 gabor_087 gabor_105 gabor_041 gabor_152_alt gabor_087_alt gabor_105 gabor_041 "1_2_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_9601_3000_14400_gabor_patch_orientation_152_087_105_041_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_041_framed blank blank blank blank fixation_cross_white "1_2_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_041_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 34 40 292 292 399 125 11543 2992 12342 fixation_cross gabor_073 gabor_158 gabor_135 gabor_048 gabor_073 gabor_158 gabor_135_alt gabor_048_alt "1_3_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_11601_3000_12400_gabor_patch_orientation_073_158_135_048_target_position_1_2_retrieval_position_2" gabor_circ gabor_113_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_3_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_113_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 48 54 292 292 399 125 11543 2992 14342 fixation_cross gabor_067 gabor_147 gabor_037 gabor_174 gabor_067 gabor_147_alt gabor_037 gabor_174_alt "1_4_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_11601_3000_14400_gabor_patch_orientation_067_147_037_174_target_position_1_3_retrieval_position_1" gabor_067_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_4_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_067_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 63 69 292 292 399 125 11543 2992 14342 fixation_cross gabor_080 gabor_065 gabor_152 gabor_170 gabor_080 gabor_065_alt gabor_152 gabor_170_alt "1_5_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_11601_3000_14400_gabor_patch_orientation_080_065_152_170_target_position_1_3_retrieval_position_1" gabor_080_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_5_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_080_retrieval_position_1" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 78 83 292 292 399 125 9543 2992 14342 fixation_cross gabor_098 gabor_083 gabor_009 gabor_173 gabor_098 gabor_083_alt gabor_009_alt gabor_173 "1_6_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_9601_3000_14400_gabor_patch_orientation_098_083_009_173_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_037_framed blank blank blank blank fixation_cross_white "1_6_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_037_retrieval_position_4" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 92 97 292 292 399 125 9543 2992 14342 fixation_cross gabor_033 gabor_096 gabor_013 gabor_059 gabor_033 gabor_096_alt gabor_013 gabor_059_alt "1_7_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_UncuedRetriev_300_300_399_9601_3000_14400_gabor_patch_orientation_033_096_013_059_target_position_1_3_retrieval_position_2" gabor_circ gabor_145_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_7_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_UncuedRetriev_retrieval_patch_orientation_145_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 106 112 292 292 399 125 11543 2992 14342 fixation_cross gabor_139 gabor_109 gabor_091 gabor_004 gabor_139 gabor_109 gabor_091_alt gabor_004_alt "1_8_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_11601_3000_14400_gabor_patch_orientation_139_109_091_004_target_position_1_2_retrieval_position_2" gabor_circ gabor_159_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_8_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_159_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 121 126 292 292 399 125 9543 2992 14342 fixation_cross gabor_118 gabor_180 gabor_133 gabor_001 gabor_118_alt gabor_180 gabor_133_alt gabor_001 "1_9_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_9601_3000_14400_gabor_patch_orientation_118_180_133_001_target_position_2_4_retrieval_position_2" gabor_circ gabor_044_framed gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_9_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_044_retrieval_position_2" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 135 141 292 292 399 125 11543 2992 12342 fixation_cross gabor_118 gabor_002 gabor_155 gabor_041 gabor_118_alt gabor_002 gabor_155_alt gabor_041 "1_10_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_11601_3000_12400_gabor_patch_orientation_118_002_155_041_target_position_2_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_041_framed blank blank blank blank fixation_cross_white "1_10_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_041_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 149 155 292 292 399 125 11543 2992 12342 fixation_cross gabor_029 gabor_083 gabor_149 gabor_064 gabor_029 gabor_083_alt gabor_149 gabor_064_alt "1_11_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_UncuedRetriev_300_300_399_11601_3000_12400_gabor_patch_orientation_029_083_149_064_target_position_1_3_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_064_framed blank blank blank blank fixation_cross_white "1_11_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_UncuedRetriev_retrieval_patch_orientation_064_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 163 169 292 292 399 125 11543 2992 12342 fixation_cross gabor_109 gabor_020 gabor_075 gabor_136 gabor_109 gabor_020 gabor_075_alt gabor_136_alt "1_12_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_300_300_399_11601_3000_12400_gabor_patch_orientation_109_020_075_136_target_position_1_2_retrieval_position_1" gabor_154_framed gabor_circ gabor_circ gabor_circ blank blank blank blank fixation_cross_white "1_12_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_DoChange_CuedRetrieval_retrieval_patch_orientation_154_retrieval_position_1" 2 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 177 182 292 292 399 125 9543 2992 12342 fixation_cross gabor_153 gabor_080 gabor_041 gabor_015 gabor_153_alt gabor_080_alt gabor_041 gabor_015 "1_13_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_9601_3000_12400_gabor_patch_orientation_153_080_041_015_target_position_3_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_015_framed blank blank blank blank fixation_cross_white "1_13_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_015_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 190 195 292 292 399 125 9543 2992 12342 fixation_cross gabor_055 gabor_032 gabor_172 gabor_137 gabor_055 gabor_032_alt gabor_172_alt gabor_137 "1_14_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_300_300_399_9601_3000_12400_gabor_patch_orientation_055_032_172_137_target_position_1_4_retrieval_position_4" gabor_circ gabor_circ gabor_circ gabor_137_framed blank blank blank blank fixation_cross_white "1_14_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_CuedRetrieval_retrieval_patch_orientation_137_retrieval_position_4" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; 203 208 292 292 399 125 9543 2992 12342 fixation_cross gabor_110 gabor_161 gabor_078 gabor_053 gabor_110 gabor_161 gabor_078_alt gabor_053_alt "1_15_Encoding_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_UncuedRetriev_300_300_399_9601_3000_12400_gabor_patch_orientation_110_161_078_053_target_position_1_2_retrieval_position_3" gabor_circ gabor_circ gabor_078_framed gabor_circ blank blank blank blank fixation_cross_white "1_15_Retrieval_Working_Memory_MRI_P6_LR_Nonsalient_NoChange_UncuedRetriev_retrieval_patch_orientation_078_retrieval_position_3" 1 58.69 58.69 -58.69 58.69 -58.69 -58.69 58.69 -58.69; }; # baselinePost (at the end of the session) trial { picture { box frame1; x=0; y=0; box frame2; x=0; y=0; box background; x=0; y=0; bitmap fixation_cross_black; x=0; y=0; }; time = 0; duration = 20600; code = "BaselinePost"; #port_code = 2; };
97910f1448b35c19825fa7cba585f06188614153	1bb72df9a084fe4f8c0ec39f778282eb52750801	/test/HR1.prev.tst	eceb1df2e2fc0f6780a0b52f602547a1d9b310ba	[ "Apache-2.0", "LicenseRef-scancode-unknown-license-reference" ]	permissive	gfis/ramath	498adfc7a6d353d4775b33020fdf992628e3fbff	b09b48639ddd4709ffb1c729e33f6a4b9ef676b5	refs/heads/master	2023-08-17T00:10:37.092379	2023-08-04T07:48:00	2023-08-04T07:48:00	30,116,803	2	0	null	null	null	null	UTF-8	Scilab	false	false	2,996	tst	HR1.prev.tst	polys[0]=0 polys[1]=1 polys[2]=1 polys[3]=-1 order=2 initialize: mN=-1, mRElen=3, mNPlen=1, mOrder=2, mLinit=2 setRE(0,0): [0,0,0] -> [0,0,0] result=0, RE=[0,0,0] 0 0 setRE(1,1): [0,0,0] -> [0,1,0] result=1, RE=[0,1,0] 1 1 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[0,1,0]) -> 0 (pvals[1]=1, RE=[0,1,0]) sum: 0 (pvals[2]=1, RE=[0,1,0]) -> 1 (pvals[2]=1, RE=[0,1,0]) setRE(2,1): [0,1,0] -> [0,1,1] result=1, RE=[0,1,1] 2 1 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[0,1,1]) -> 1 (pvals[1]=1, RE=[0,1,1]) sum: 1 (pvals[2]=1, RE=[0,1,1]) -> 2 (pvals[2]=1, RE=[0,1,1]) setRE(0,2): [0,1,1] -> [2,1,1] result=2, RE=[2,1,1] 3 2 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[2,1,1]) -> 1 (pvals[1]=1, RE=[2,1,1]) sum: 1 (pvals[2]=1, RE=[2,1,1]) -> 3 (pvals[2]=1, RE=[2,1,1]) setRE(1,3): [2,1,1] -> [2,3,1] result=3, RE=[2,3,1] 4 3 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[2,3,1]) -> 2 (pvals[1]=1, RE=[2,3,1]) sum: 2 (pvals[2]=1, RE=[2,3,1]) -> 5 (pvals[2]=1, RE=[2,3,1]) setRE(2,5): [2,3,1] -> [2,3,5] result=5, RE=[2,3,5] 5 5 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[2,3,5]) -> 3 (pvals[1]=1, RE=[2,3,5]) sum: 3 (pvals[2]=1, RE=[2,3,5]) -> 8 (pvals[2]=1, RE=[2,3,5]) setRE(0,8): [2,3,5] -> [8,3,5] result=8, RE=[8,3,5] 6 8 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[8,3,5]) -> 5 (pvals[1]=1, RE=[8,3,5]) sum: 5 (pvals[2]=1, RE=[8,3,5]) -> 13 (pvals[2]=1, RE=[8,3,5]) setRE(1,13): [8,3,5] -> [8,13,5] result=13, RE=[8,13,5] 7 13 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[8,13,5]) -> 8 (pvals[1]=1, RE=[8,13,5]) sum: 8 (pvals[2]=1, RE=[8,13,5]) -> 21 (pvals[2]=1, RE=[8,13,5]) setRE(2,21): [8,13,5] -> [8,13,21] result=21, RE=[8,13,21] 8 21 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[8,13,21]) -> 13 (pvals[1]=1, RE=[8,13,21]) sum: 13 (pvals[2]=1, RE=[8,13,21]) -> 34 (pvals[2]=1, RE=[8,13,21]) setRE(0,34): [8,13,21] -> [34,13,21] result=34, RE=[34,13,21] 9 34 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[34,13,21]) -> 21 (pvals[1]=1, RE=[34,13,21]) sum: 21 (pvals[2]=1, RE=[34,13,21]) -> 55 (pvals[2]=1, RE=[34,13,21]) setRE(1,55): [34,13,21] -> [34,55,21] result=55, RE=[34,55,21] 10 55 pvals[3]=-1 pvals[2]=1 pvals[1]=1 pvals[0]=0 sum: 0 (pvals[1]=1, RE=[34,55,21]) -> 34 (pvals[1]=1, RE=[34,55,21]) sum: 34 (pvals[2]=1, RE=[34,55,21]) -> 89 (pvals[2]=1, RE=[34,55,21]) setRE(2,89): [34,55,21] -> [34,55,89] result=89, RE=[34,55,89] 11 89
219572d8044264035b687dee80b156f7d04fb87d	e04f3a1f9e98fd043a65910a1d4e52bdfff0d6e4	/New LSTMAttn Model/.data/lemma-split/GOLD-TEST/kjh.tst	bb7b91432ddcb8adc64b6fbe32df76c0a420ef60	[]	no_license	davidgu13/Lemma-vs-Form-Splits	c154f1c0c7b84ba5b325b17507012d41b9ad5cfe	3cce087f756420523f5a14234d02482452a7bfa5	refs/heads/master	2023-08-01T16:15:52.417307	2021-09-14T20:19:28	2021-09-14T20:19:28	395,023,433	3	0	null	null	null	null	UTF-8	Scilab	false	false	8,876	tst	kjh.tst	тирек тиректернең N;INS;PL тирек тиректерзер N;ALL;PL тирек тиректер N;NOM;PL тирек тиректердең N;ABL;PL тирек тирексер N;ALL;SG тирек тиректің N;GEN;SG тирек тирекке N;DAT;SG тирек тиректерні N;ACC;PL тирек тиректерде N;AT;PL тирек тиректең N;ABL;SG тирек тиректе N;AT;SG тирек тиректернің N;GEN;PL тирек тиректі N;ACC;SG тирек тирек N;NOM;SG тирек тиректерге N;DAT;PL тирек тирекнең N;INS;SG чылтыс чылтыстарны N;ACC;PL чылтыс чылтысты N;ACC;SG чылтыс чылтыстарға N;DAT;PL чылтыс чылтыстарда N;AT;PL чылтыс чылтыстар N;NOM;PL чылтыс чылтыснаң N;INS;SG чылтыс чылтыстарзар N;ALL;PL чылтыс чылтысха N;DAT;SG чылтыс чылтыссар N;ALL;SG чылтыс чылтыстардаң N;ABL;PL чылтыс чылтыстаң N;ABL;SG чылтыс чылтыстарның N;GEN;PL чылтыс чылтыс N;NOM;SG чылтыс чылтыстарнаң N;INS;PL чылтыс чылтыстың N;GEN;SG чылтыс чылтыста N;AT;SG чис чиснең N;INS;SG чис чистерні N;ACC;PL чис чистерге N;DAT;PL чис чис N;NOM;SG чис чистернең N;INS;PL чис чистер N;NOM;PL чис чистернің N;GEN;PL чис чистерзер N;ALL;PL чис чисті N;ACC;SG чис чисте N;AT;SG чис чистең N;ABL;SG чис чиссер N;ALL;SG чис чиске N;DAT;SG чис чистердең N;ABL;PL чис чистерде N;AT;PL чис чистің N;GEN;SG адай адайларнаң N;INS;PL адай адайда N;AT;SG адай адайларзар N;ALL;PL адай адайларның N;GEN;PL адай адайзар N;ALL;SG адай адайлардаң N;ABL;PL адай адайдаң N;ABL;SG адай адай N;NOM;SG адай адайнаң N;INS;SG адай адайларда N;AT;PL адай адайны N;ACC;SG адай адайларға N;DAT;PL адай адайның N;GEN;SG адай адайға N;DAT;SG адай адайларны N;ACC;PL адай адайлар N;NOM;PL кізі кізі N;NOM;SG кізі кізілернең N;INS;PL кізі кізізер N;ALL;SG кізі кізілерні N;ACC;PL кізі кізілерге N;DAT;PL кізі кізілердең N;ABL;PL кізі кізіні N;ACC;SG кізі кізілерде N;AT;PL кізі кізее N;DAT;SG кізі кізінің N;GEN;SG кізі кізілерзер N;ALL;PL кізі кізілер N;NOM;PL кізі кізідең N;ABL;SG кізі кізіде N;AT;SG кізі кізілернің N;GEN;PL кізі кізінең N;INS;SG тарбаған тарбағаннарнаң N;INS;PL тарбаған тарбағанзар N;ALL;SG тарбаған тарбағаннардаң N;ABL;PL тарбаған тарбағаннарға N;DAT;PL тарбаған тарбағанны N;ACC;SG тарбаған тарбағаннарны N;ACC;PL тарбаған тарбағаннарның N;GEN;PL тарбаған тарбағаннаң N;INS;SG тарбаған тарбағанға N;DAT;SG тарбаған тарбаған N;NOM;SG тарбаған тарбағанда N;AT;SG тарбаған тарбағаннарда N;AT;PL тарбаған тарбағанның N;GEN;SG тарбаған тарбағаннар N;NOM;PL тарбаған тарбағаннаң N;ABL;SG тарбаған тарбағаннарзар N;ALL;PL іскер іскерде N;AT;SG іскер іскер N;NOM;SG іскер іскерзер N;ALL;SG іскер іскерлерде N;AT;PL іскер іскерлер N;NOM;PL іскер іскерлерзер N;ALL;PL іскер іскернің N;GEN;SG іскер іскернең N;INS;SG іскер іскерлерні N;ACC;PL іскер іскерні N;ACC;SG іскер іскерлердең N;ABL;PL іскер іскерлерге N;DAT;PL іскер іскердең N;ABL;SG іскер іскерге N;DAT;SG іскер іскерлернең N;INS;PL іскер іскерлернің N;GEN;PL суғ суға N;DAT;SG суғ суғдаң N;ABL;SG суғ суғ N;NOM;SG суғ суғлардаң N;ABL;PL суғ суғның N;GEN;SG суғ суғнаң N;INS;SG суғ суғлар N;NOM;PL суғ суғларның N;GEN;PL суғ суғларға N;DAT;PL суғ суғда N;AT;SG суғ суғларны N;ACC;PL суғ суғзар N;ALL;SG суғ суғларда N;AT;PL суғ суғны N;ACC;SG суғ суғларзар N;ALL;PL суғ суғларнаң N;INS;PL кӧрік кӧріктерге N;DAT;PL кӧрік кӧріксер N;ALL;SG кӧрік кӧріктердең N;ABL;PL кӧрік кӧрікте N;AT;SG кӧрік кӧрікті N;ACC;SG кӧрік кӧріктерзер N;ALL;PL кӧрік кӧріктің N;GEN;SG кӧрік кӧрік N;NOM;SG кӧрік кӧрікнең N;INS;SG кӧрік кӧрікке N;DAT;SG кӧрік кӧріктерні N;ACC;PL кӧрік кӧріктер N;NOM;PL кӧрік кӧріктерде N;AT;PL кӧрік кӧріктернің N;GEN;PL кӧрік кӧріктернең N;INS;PL кӧрік кӧріктең N;ABL;SG талай талайнаң N;INS;SG талай талайларзар N;ALL;PL талай талайзар N;ALL;SG талай талайға N;DAT;SG талай талай N;NOM;SG талай талайларға N;DAT;PL талай талайда N;AT;SG талай талайларнаң N;INS;PL талай талайларның N;GEN;PL талай талайларда N;AT;PL талай талайлар N;NOM;PL талай талайны N;ACC;SG талай талайдаң N;ABL;SG талай талайлардаң N;ABL;PL талай талайларны N;ACC;PL талай талайның N;GEN;SG чазы чазыларға N;DAT;PL чазы чазынаң N;INS;SG чазы чазы N;NOM;SG чазы чазылар N;NOM;PL чазы чазыларзар N;ALL;PL чазы чазыдаң N;ABL;SG чазы чазының N;GEN;SG чазы чазаа N;DAT;SG чазы чазыларда N;AT;PL чазы чазыларнаң N;INS;PL чазы чазыларның N;GEN;PL чазы чазыда N;AT;SG чазы чазылардаң N;ABL;PL чазы чазызар N;ALL;SG чазы чазыны N;ACC;SG чазы чазыларны N;ACC;PL тибе тибелерге N;DAT;PL тибе тибенің N;GEN;SG тибе тибе N;NOM;SG тибе тибелерде N;AT;PL тибе тибелернең N;INS;PL тибе тибее N;DAT;SG тибе тибедең N;ABL;SG тибе тибелерні N;ACC;PL тибе тибелернің N;GEN;PL тибе тибелердең N;ABL;PL тибе тибелер N;NOM;PL тибе тибеде N;AT;SG тибе тибелерзер N;ALL;PL тибе тибезер N;ALL;SG тибе тибенең N;INS;SG тибе тибені N;ACC;SG часхы часхылар N;NOM;PL часхы часхызар N;ALL;SG часхы часхыны N;ACC;SG часхы часхыларда N;AT;PL часхы часхылардаң N;ABL;PL часхы часхыларзар N;ALL;PL часхы часхыларның N;GEN;PL часхы часхаа N;DAT;SG часхы часхының N;GEN;SG часхы часхыларға N;DAT;PL часхы часхыдаң N;ABL;SG часхы часхыларнаң N;INS;PL часхы часхыларны N;ACC;PL часхы часхыда N;AT;SG часхы часхынаң N;INS;SG часхы часхы N;NOM;SG пуға пуғаларға N;DAT;PL пуға пуғаларның N;GEN;PL пуға пуғаларнаң N;INS;PL пуға пуғанаң N;INS;SG пуға пуғаның N;GEN;SG пуға пуғаларзар N;ALL;PL пуға пуғаларны N;ACC;PL пуға пуғаны N;ACC;SG пуға пуғада N;AT;SG пуға пуғаа N;DAT;SG пуға пуға N;NOM;SG пуға пуғазар N;ALL;SG пуға пуғалар N;NOM;PL пуға пуғаларда N;AT;PL пуға пуғалардаң N;ABL;PL пуға пуғадаң N;ABL;SG сосха сосхаларзар N;ALL;PL сосха сосхалар N;NOM;PL сосха сосха N;NOM;SG сосха сосхадаң N;ABL;SG сосха сосханаң N;INS;SG сосха сосхаларның N;GEN;PL сосха сосхаларға N;DAT;PL сосха сосхаларда N;AT;PL сосха сосхаларны N;ACC;PL сосха сосхада N;AT;SG сосха сосханың N;GEN;SG сосха сосхаларнаң N;INS;PL сосха сосхазар N;ALL;SG сосха сосхалардаң N;ABL;PL сосха сосханы N;ACC;SG сосха сосхаа N;DAT;SG
bf423c3f489fbc5d741f3620c9fec6f460c953c3	8217f7986187902617ad1bf89cb789618a90dd0a	/source/2.3/macros/percent/%rilss.sci	42dcc86c4bc69502abf63d6ddc73a328827883fa	[ "MIT", "LicenseRef-scancode-warranty-disclaimer", "LicenseRef-scancode-public-domain" ]	permissive	clg55/Scilab-Workbench	4ebc01d2daea5026ad07fbfc53e16d4b29179502	9f8fd29c7f2a98100fa9aed8b58f6768d24a1875	refs/heads/master	2023-05-31T04:06:22.931111	2022-09-13T14:41:51	2022-09-13T14:41:51	258,270,193	0	1	null	null	null	null	UTF-8	Scilab	false	false	189	sci	%rilss.sci	function s2=%rilss(i,j,s1,s2) //%rilss(i,j,s1,s2) <=> s2(i,j)=s1 //! // origine s. steer inria 1992 // if type(i)==10\|type(j)==10 then error(21) end [s1 s2]=sysconv(s1,s2) s2(i,j)=s1
f9dc8ed704ce0b4e918e9221baee2dbee901fc55	ad617742f184bf6d4cceb3e9c99232d8bd52b862	/tests/bfp-019-multiply.tst	d00299c58befd0127987eabe3a5e79d86fa09e58	[ "LicenseRef-scancode-unknown-license-reference", "LicenseRef-scancode-other-permissive", "BSD-2-Clause" ]	permissive	9track/hyperion	d621343e7eea27c45db49c7c284dd1680491c82c	9ceed2cc7261820eef01c55dac9b9a6ae47636b2	refs/heads/master	2022-09-15T12:19:09.059528	2020-05-28T03:05:29	2020-05-28T03:05:29	268,044,749	3	1	NOASSERTION	2020-05-30T09:03:56	2020-05-30T09:03:55	null	UTF-8	Scilab	false	false	62,400	tst	bfp-019-multiply.tst	Testcase bfp-019-multiply.tst: MEEBR, MEEB, MDBR, MDB, MXBR #..Test cases evaluate NaN propagation, NaN generation, operations #..using non-finite values, trappable and non-trappable IEEE #..exceptions, result scaling, and exhaustive rounding testing. #..Excludes multiply to increased precision and fused multiply. sysclear archmode esame # # Following suppresses logging of program checks. This test program, as part # of its normal operation, generates 141 program check messages that have no # value in the validation process. # ostailor quiet loadcore "$(testpath)/bfp-019-multiply.core" runtest 1.0 ostailor default # restore messages for subsequent tests # Short BFP non-finite test results Compare r 1000.10 Want "MEEBR/MEEB NF -inf/-inf" 7F800000 7F800000 7F800000 7F800000 r 1010.10 Want "MEEBR/MEEB NF -inf/-2.0" 7F800000 7F800000 7F800000 7F800000 r 1020.10 Want "MEEBR/MEEB NF -inf/-0" 7FC00000 FF800000 7FC00000 FF800000 r 1030.10 Want "MEEBR/MEEB NF -inf/+0" 7FC00000 FF800000 7FC00000 FF800000 r 1040.10 Want "MEEBR/MEEB NF -inf/+2.0" FF800000 FF800000 FF800000 FF800000 r 1050.10 Want "MEEBR/MEEB NF -inf/+inf" FF800000 FF800000 FF800000 FF800000 r 1060.10 Want "MEEBR/MEEB NF -inf/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1070.10 Want "MEEBR/MEEB NF -inf/+SNaN" 7FCA0000 FF800000 7FCA0000 FF800000 r 1080.10 Want "MEEBR/MEEB NF -2.0/-inf" 7F800000 7F800000 7F800000 7F800000 r 1090.10 Want "MEEBR/MEEB NF -2.0/-2.0" 40800000 40800000 40800000 40800000 r 10A0.10 Want "MEEBR/MEEB NF -2.0/-0" 00000000 00000000 00000000 00000000 r 10B0.10 Want "MEEBR/MEEB NF -2.0/+0" 80000000 80000000 80000000 80000000 r 10C0.10 Want "MEEBR/MEEB NF -2.0/+2.0" C0800000 C0800000 C0800000 C0800000 r 10D0.10 Want "MEEBR/MEEB NF -2.0/+inf" FF800000 FF800000 FF800000 FF800000 r 10E0.10 Want "MEEBR/MEEB NF -2.0/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 10F0.10 Want "MEEBR/MEEB NF -2.0/+SNaN" 7FCA0000 C0000000 7FCA0000 C0000000 r 1100.10 Want "MEEBR/MEEB NF -0/-inf" 7FC00000 80000000 7FC00000 80000000 r 1110.10 Want "MEEBR/MEEB NF -0/-2.0" 00000000 00000000 00000000 00000000 r 1120.10 Want "MEEBR/MEEB NF -0/-0" 00000000 00000000 00000000 00000000 r 1130.10 Want "MEEBR/MEEB NF -0/+0" 80000000 80000000 80000000 80000000 r 1140.10 Want "MEEBR/MEEB NF -0/+2.0" 80000000 80000000 80000000 80000000 r 1150.10 Want "MEEBR/MEEB NF -0/+inf" 7FC00000 80000000 7FC00000 80000000 r 1160.10 Want "MEEBR/MEEB NF -0/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1170.10 Want "MEEBR/MEEB NF -0/+SNaN" 7FCA0000 80000000 7FCA0000 80000000 r 1180.10 Want "MEEBR/MEEB NF +0/-inf" 7FC00000 00000000 7FC00000 00000000 r 1190.10 Want "MEEBR/MEEB NF +0/-2.0" 80000000 80000000 80000000 80000000 r 11A0.10 Want "MEEBR/MEEB NF +0/-0" 80000000 80000000 80000000 80000000 r 11B0.10 Want "MEEBR/MEEB NF +0/+0" 00000000 00000000 00000000 00000000 r 11C0.10 Want "MEEBR/MEEB NF +0/+2.0" 00000000 00000000 00000000 00000000 r 11D0.10 Want "MEEBR/MEEB NF +0/+inf" 7FC00000 00000000 7FC00000 00000000 r 11E0.10 Want "MEEBR/MEEB NF +0/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 11F0.10 Want "MEEBR/MEEB NF +0/+SNaN" 7FCA0000 00000000 7FCA0000 00000000 r 1200.10 Want "MEEBR/MEEB NF +2.0/-inf" FF800000 FF800000 FF800000 FF800000 r 1210.10 Want "MEEBR/MEEB NF +2.0/-2.0" C0800000 C0800000 C0800000 C0800000 r 1220.10 Want "MEEBR/MEEB NF +2.0/-0" 80000000 80000000 80000000 80000000 r 1230.10 Want "MEEBR/MEEB NF +2.0/+0" 00000000 00000000 00000000 00000000 r 1240.10 Want "MEEBR/MEEB NF +2.0/+2.0" 40800000 40800000 40800000 40800000 r 1250.10 Want "MEEBR/MEEB NF +2.0/+inf" 7F800000 7F800000 7F800000 7F800000 r 1260.10 Want "MEEBR/MEEB NF +2.0/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1270.10 Want "MEEBR/MEEB NF +2.0/+SNaN" 7FCA0000 40000000 7FCA0000 40000000 r 1280.10 Want "MEEBR/MEEB NF +inf/-inf" FF800000 FF800000 FF800000 FF800000 r 1290.10 Want "MEEBR/MEEB NF +inf/-2.0" FF800000 FF800000 FF800000 FF800000 r 12A0.10 Want "MEEBR/MEEB NF +inf/-0" 7FC00000 7F800000 7FC00000 7F800000 r 12B0.10 Want "MEEBR/MEEB NF +inf/+0" 7FC00000 7F800000 7FC00000 7F800000 r 12C0.10 Want "MEEBR/MEEB NF +inf/+2.0" 7F800000 7F800000 7F800000 7F800000 r 12D0.10 Want "MEEBR/MEEB NF +inf/+inf" 7F800000 7F800000 7F800000 7F800000 r 12E0.10 Want "MEEBR/MEEB NF +inf/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 12F0.10 Want "MEEBR/MEEB NF +inf/+SNaN" 7FCA0000 7F800000 7FCA0000 7F800000 r 1300.10 Want "MEEBR/MEEB NF -QNaN/-inf" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1310.10 Want "MEEBR/MEEB NF -QNaN/-2.0" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1320.10 Want "MEEBR/MEEB NF -QNaN/-0" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1330.10 Want "MEEBR/MEEB NF -QNaN/+0" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1340.10 Want "MEEBR/MEEB NF -QNaN/+2.0" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1350.10 Want "MEEBR/MEEB NF -QNaN/+inf" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1360.10 Want "MEEBR/MEEB NF -QNaN/-QNaN" FFCB0000 FFCB0000 FFCB0000 FFCB0000 r 1370.10 Want "MEEBR/MEEB NF -QNaN/+SNaN" 7FCA0000 FFCB0000 7FCA0000 FFCB0000 r 1380.10 Want "MEEBR/MEEB NF +SNaN/-inf" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 1390.10 Want "MEEBR/MEEB NF +SNaN/-2.0" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13A0.10 Want "MEEBR/MEEB NF +SNaN/-0" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13B0.10 Want "MEEBR/MEEB NF +SNaN/+0" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13C0.10 Want "MEEBR/MEEB NF +SNaN/+2.0" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13D0.10 Want "MEEBR/MEEB NF +SNaN/+inf" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13E0.10 Want "MEEBR/MEEB NF +SNaN/-QNaN" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 r 13F0.10 Want "MEEBR/MEEB NF +SNaN/+SNaN" 7FCA0000 7F8A0000 7FCA0000 7F8A0000 # Short BFP non-finite test results - FPCR contents Compare r 1400.10 Want "MEEBR/MEEB NF -inf/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 1410.10 Want "MEEBR/MEEB NF -inf/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1420.10 Want "MEEBR/MEEB NF -inf/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 1430.10 Want "MEEBR/MEEB NF -inf/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 1440.10 Want "MEEBR/MEEB NF -inf/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1450.10 Want "MEEBR/MEEB NF -inf/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 1460.10 Want "MEEBR/MEEB NF -inf/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 1470.10 Want "MEEBR/MEEB NF -inf/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1480.10 Want "MEEBR/MEEB NF -2.0/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 1490.10 Want "MEEBR/MEEB NF -2.0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 14A0.10 Want "MEEBR/MEEB NF -2.0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 14B0.10 Want "MEEBR/MEEB NF -2.0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 14C0.10 Want "MEEBR/MEEB NF -2.0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 14D0.10 Want "MEEBR/MEEB NF -2.0/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 14E0.10 Want "MEEBR/MEEB NF -2.0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 14F0.10 Want "MEEBR/MEEB NF -2.0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1500.10 Want "MEEBR/MEEB NF -0/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 1510.10 Want "MEEBR/MEEB NF -0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1520.10 Want "MEEBR/MEEB NF -0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 1530.10 Want "MEEBR/MEEB NF -0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 1540.10 Want "MEEBR/MEEB NF -0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1550.10 Want "MEEBR/MEEB NF -0/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 1560.10 Want "MEEBR/MEEB NF -0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 1570.10 Want "MEEBR/MEEB NF -0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1580.10 Want "MEEBR/MEEB NF +0/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 1590.10 Want "MEEBR/MEEB NF +0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 15A0.10 Want "MEEBR/MEEB NF +0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 15B0.10 Want "MEEBR/MEEB NF +0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 15C0.10 Want "MEEBR/MEEB NF +0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 15D0.10 Want "MEEBR/MEEB NF +0/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 15E0.10 Want "MEEBR/MEEB NF +0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 15F0.10 Want "MEEBR/MEEB NF +0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1600.10 Want "MEEBR/MEEB NF +2.0/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 1610.10 Want "MEEBR/MEEB NF +2.0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1620.10 Want "MEEBR/MEEB NF +2.0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 1630.10 Want "MEEBR/MEEB NF +2.0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 1640.10 Want "MEEBR/MEEB NF +2.0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1650.10 Want "MEEBR/MEEB NF +2.0/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 1660.10 Want "MEEBR/MEEB NF +2.0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 1670.10 Want "MEEBR/MEEB NF +2.0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1680.10 Want "MEEBR/MEEB NF +inf/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 1690.10 Want "MEEBR/MEEB NF +inf/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 16A0.10 Want "MEEBR/MEEB NF +inf/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 16B0.10 Want "MEEBR/MEEB NF +inf/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 16C0.10 Want "MEEBR/MEEB NF +inf/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 16D0.10 Want "MEEBR/MEEB NF +inf/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 16E0.10 Want "MEEBR/MEEB NF +inf/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 16F0.10 Want "MEEBR/MEEB NF +inf/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1700.10 Want "MEEBR/MEEB NF -QNaN/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 1710.10 Want "MEEBR/MEEB NF -QNaN/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1720.10 Want "MEEBR/MEEB NF -QNaN/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 1730.10 Want "MEEBR/MEEB NF -QNaN/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 1740.10 Want "MEEBR/MEEB NF -QNaN/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 1750.10 Want "MEEBR/MEEB NF -QNaN/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 1760.10 Want "MEEBR/MEEB NF -QNaN/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 1770.10 Want "MEEBR/MEEB NF -QNaN/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 1780.10 Want "MEEBR/MEEB NF +SNaN/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 1790.10 Want "MEEBR/MEEB NF +SNaN/-2.0 FPCR" 00800000 F8008000 00800000 F8008000 r 17A0.10 Want "MEEBR/MEEB NF +SNaN/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 17B0.10 Want "MEEBR/MEEB NF +SNaN/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 17C0.10 Want "MEEBR/MEEB NF +SNaN/+2.0 FPCR" 00800000 F8008000 00800000 F8008000 r 17D0.10 Want "MEEBR/MEEB NF +SNaN/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 17E0.10 Want "MEEBR/MEEB NF +SNaN/-QNaN FPCR" 00800000 F8008000 00800000 F8008000 r 17F0.10 Want "MEEBR/MEEB NF +SNaN/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 # Short BFP finite test results Compare r 1800.10 Want "MEEBR/MEEB F Ovfl" FF800000 DF7FFFFE FF800000 DF7FFFFE r 1810.10 Want "MEEBR/MEEB F Ufl 1" 00000000 21FFFFFF 00000000 21FFFFFF r 1820.10 Want "MEEBR/MEEB F Ufl 2" 00000000 1970F000 00000000 1970F000 r 1830.10 Want "MEEBR/MEEB F Nmin" 00FFFFFE 00FFFFFE 00FFFFFE 00FFFFFE r 1840.10 Want "MEEBR/MEEB F Incr" 3F88000D 3F88000D 3F88000D 3F88000D r 1850.10 Want "MEEBR/MEEB F Trun" 3F880007 3F880007 3F880007 3F880007 # Short BFP finite test results - FPCR contents Compare r 1900.10 Want "MEEBR/MEEB F Ovfl FPCR" 00280000 F8002800 00280000 F8002800 r 1910.10 Want "MEEBR/MEEB F Ufl 1 FPCR" 00180000 F8001000 00180000 F8001000 r 1920.10 Want "MEEBR/MEEB F Ufl 2 FPCR" 00180000 F8001000 00180000 F8001000 r 1930.10 Want "MEEBR/MEEB F Nmin FPCR" 00000000 F8000000 00000000 F8000000 r 1940.10 Want "MEEBR/MEEB F Incr FPCR" 00080000 F8000C00 00080000 F8000C00 r 1950.10 Want "MEEBR/MEEB F Trun FPCR" 00080000 F8000800 00080000 F8000800 # Short BFP rounding mode test results Compare r 1A00.10 Want "MEEBR/MEEB RM +NZ RNTE, RZ" 3F880007 3F880007 3F880007 3F880007 r 1A10.10 Want "MEEBR/MEEB RM +NZ RP, RM" 3F880008 3F880008 3F880007 3F880007 r 1A20.8 Want "MEEBR/MEEB RM +NZ RFS" 3F880007 3F880007 r 1A30.10 Want "MEEBR/MEEB RM -NZ RNTE, RZ" BF880007 BF880007 BF880007 BF880007 r 1A40.10 Want "MEEBR/MEEB RM -NZ RP, RM" BF880007 BF880007 BF880008 BF880008 r 1A50.8 Want "MEEBR/MEEB RM -NZ RFS" BF880007 BF880007 r 1A60.10 Want "MEEBR/MEEB RM +NA RNTE, RZ" 3F88000D 3F88000D 3F88000C 3F88000C r 1A70.10 Want "MEEBR/MEEB RM +NA RP, RM" 3F88000D 3F88000D 3F88000C 3F88000C r 1A80.8 Want "MEEBR/MEEB RM +NA RFS" 3F88000D 3F88000D r 1A90.10 Want "MEEBR/MEEB RM -NA RNTE, RZ" BF88000D BF88000D BF88000C BF88000C r 1AA0.10 Want "MEEBR/MEEB RM -NA RP, RM" BF88000C BF88000C BF88000D BF88000D r 1AB0.8 Want "MEEBR/MEEB RM -NA RFS" BF88000D BF88000D r 1AC0.10 Want "MEEBR/MEEB RM +TZ RNTE, RZ" 3F880008 3F880008 3F880008 3F880008 r 1AD0.10 Want "MEEBR/MEEB RM +TZ RP, RM" 3F880009 3F880009 3F880008 3F880008 r 1AE0.8 Want "MEEBR/MEEB RM +TZ RFS" 3F880009 3F880009 r 1AF0.10 Want "MEEBR/MEEB RM -TZ RNTE, RZ" BF880008 BF880008 BF880008 BF880008 r 1B00.10 Want "MEEBR/MEEB RM -TZ RP, RM" BF880008 BF880008 BF880009 BF880009 r 1B10.8 Want "MEEBR/MEEB RM -TZ RFS" BF880009 BF880009 r 1B20.10 Want "MEEBR/MEEB RM +TA RNTE, RZ" 3F88001A 3F88001A 3F880019 3F880019 r 1B30.10 Want "MEEBR/MEEB RM +TA RP, RM" 3F88001A 3F88001A 3F880019 3F880019 r 1B40.8 Want "MEEBR/MEEB RM +TA RFS" 3F880019 3F880019 r 1B50.10 Want "MEEBR/MEEB RM -TA RNTE, RZ" BF88001A BF88001A BF880019 BF880019 r 1B60.10 Want "MEEBR/MEEB RM -TA RP, RM" BF880019 BF880019 BF88001A BF88001A r 1B70.8 Want "MEEBR/MEEB RM -TA RFS" BF880019 BF880019 # Short BFP rounding mode test results - FPCR contents Compare r 1D00.10 Want "MEEBR/MEEB RM +NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1D10.10 Want "MEEBR/MEEB RM +NZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1D20.8 Want "MEEBR/MEEB RM +NZ RFS FPCR" 00080007 00080007 r 1D30.10 Want "MEEBR/MEEB RM -NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1D40.10 Want "MEEBR/MEEB RM -NZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1D50.8 Want "MEEBR/MEEB RM -NZ RFS FPCR" 00080007 00080007 r 1D60.10 Want "MEEBR/MEEB RM +NA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1D70.10 Want "MEEBR/MEEB RM +NA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1D80.8 Want "MEEBR/MEEB RM +NA RFS FPCR" 00080007 00080007 r 1D90.10 Want "MEEBR/MEEB RM -NA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1DA0.10 Want "MEEBR/MEEB RM -NA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1DB0.8 Want "MEEBR/MEEB RM -NA RFS FPCR" 00080007 00080007 r 1DC0.10 Want "MEEBR/MEEB RM +TZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1DD0.10 Want "MEEBR/MEEB RM +TZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1DE0.8 Want "MEEBR/MEEB RM +TZ RFS FPCR" 00080007 00080007 r 1DF0.10 Want "MEEBR/MEEB RM -TZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1E00.10 Want "MEEBR/MEEB RM -TZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1E10.8 Want "MEEBR/MEEB RM -TZ RFS FPCR" 00080007 00080007 r 1E20.10 Want "MEEBR/MEEB RM +TA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1E30.10 Want "MEEBR/MEEB RM +TA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1E40.8 Want "MEEBR/MEEB RM +TA RFS FPCR" 00080007 00080007 r 1E50.10 Want "MEEBR/MEEB RM -TA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 1E60.10 Want "MEEBR/MEEB RM -TA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 1E70.8 Want "MEEBR/MEEB RM -TA RFS FPCR" 00080007 00080007 # Long BFP non-finite test results Compare r 3000.10 Want "MDBR/MDB NF -inf/-inf NT" 7FF00000 00000000 7FF00000 00000000 r 3010.10 Want "MDBR/MDB NF -inf/-inf Tr" 7FF00000 00000000 7FF00000 00000000 r 3020.10 Want "MDBR/MDB NF -inf/-2.0 NT" 7FF00000 00000000 7FF00000 00000000 r 3030.10 Want "MDBR/MDB NF -inf/-2.0 Tr" 7FF00000 00000000 7FF00000 00000000 r 3040.10 Want "MDBR/MDB NF -inf/-0 NT" 7FF80000 00000000 FFF00000 00000000 r 3050.10 Want "MDBR/MDB NF -inf/-0 Tr" 7FF80000 00000000 FFF00000 00000000 r 3060.10 Want "MDBR/MDB NF -inf/+0 NT" 7FF80000 00000000 FFF00000 00000000 r 3070.10 Want "MDBR/MDB NF -inf/+0 Tr" 7FF80000 00000000 FFF00000 00000000 r 3080.10 Want "MDBR/MDB NF -inf/+2.0 NT" FFF00000 00000000 FFF00000 00000000 r 3090.10 Want "MDBR/MDB NF -inf/+2.0 Tr" FFF00000 00000000 FFF00000 00000000 r 30A0.10 Want "MDBR/MDB NF -inf/+inf NT" FFF00000 00000000 FFF00000 00000000 r 30B0.10 Want "MDBR/MDB NF -inf/+inf Tr" FFF00000 00000000 FFF00000 00000000 r 30C0.10 Want "MDBR/MDB NF -inf/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 30D0.10 Want "MDBR/MDB NF -inf/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 30E0.10 Want "MDBR/MDB NF -inf/+SNaN NT" 7FF8A000 00000000 FFF00000 00000000 r 30F0.10 Want "MDBR/MDB NF -inf/+SNaN Tr" 7FF8A000 00000000 FFF00000 00000000 r 3100.10 Want "MDBR/MDB NF -2.0/-inf NT" 7FF00000 00000000 7FF00000 00000000 r 3110.10 Want "MDBR/MDB NF -2.0/-inf Tr" 7FF00000 00000000 7FF00000 00000000 r 3120.10 Want "MDBR/MDB NF -2.0/-2.0 NT" 40100000 00000000 40100000 00000000 r 3130.10 Want "MDBR/MDB NF -2.0/-2.0 Tr" 40100000 00000000 40100000 00000000 r 3140.10 Want "MDBR/MDB NF -2.0/-0 NT" 00000000 00000000 00000000 00000000 r 3150.10 Want "MDBR/MDB NF -2.0/-0 Tr" 00000000 00000000 00000000 00000000 r 3160.10 Want "MDBR/MDB NF -2.0/+0 NT" 80000000 00000000 80000000 00000000 r 3170.10 Want "MDBR/MDB NF -2.0/+0 Tr" 80000000 00000000 80000000 00000000 r 3180.10 Want "MDBR/MDB NF -2.0/+2.0 NT" C0100000 00000000 C0100000 00000000 r 3190.10 Want "MDBR/MDB NF -2.0/+2.0 Tr" C0100000 00000000 C0100000 00000000 r 31A0.10 Want "MDBR/MDB NF -2.0/+inf NT" FFF00000 00000000 FFF00000 00000000 r 31B0.10 Want "MDBR/MDB NF -2.0/+inf Tr" FFF00000 00000000 FFF00000 00000000 r 31C0.10 Want "MDBR/MDB NF -2.0/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 31D0.10 Want "MDBR/MDB NF -2.0/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 31E0.10 Want "MDBR/MDB NF -2.0/+SNaN NT" 7FF8A000 00000000 C0000000 00000000 r 31F0.10 Want "MDBR/MDB NF -2.0/+SNaN Tr" 7FF8A000 00000000 C0000000 00000000 r 3200.10 Want "MDBR/MDB NF -0/-inf NT" 7FF80000 00000000 80000000 00000000 r 3210.10 Want "MDBR/MDB NF -0/-inf Tr" 7FF80000 00000000 80000000 00000000 r 3220.10 Want "MDBR/MDB NF -0/-2.0 NT" 00000000 00000000 00000000 00000000 r 3230.10 Want "MDBR/MDB NF -0/-2.0 Tr" 00000000 00000000 00000000 00000000 r 3240.10 Want "MDBR/MDB NF -0/-0 NT" 00000000 00000000 00000000 00000000 r 3250.10 Want "MDBR/MDB NF -0/-0 Tr" 00000000 00000000 00000000 00000000 r 3260.10 Want "MDBR/MDB NF -0/+0 NT" 80000000 00000000 80000000 00000000 r 3270.10 Want "MDBR/MDB NF -0/+0 Tr" 80000000 00000000 80000000 00000000 r 3280.10 Want "MDBR/MDB NF -0/+2.0 NT" 80000000 00000000 80000000 00000000 r 3290.10 Want "MDBR/MDB NF -0/+2.0 Tr" 80000000 00000000 80000000 00000000 r 32A0.10 Want "MDBR/MDB NF -0/+inf NT" 7FF80000 00000000 80000000 00000000 r 32B0.10 Want "MDBR/MDB NF -0/+inf Tr" 7FF80000 00000000 80000000 00000000 r 32C0.10 Want "MDBR/MDB NF -0/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 32D0.10 Want "MDBR/MDB NF -0/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 32E0.10 Want "MDBR/MDB NF -0/+SNaN NT" 7FF8A000 00000000 80000000 00000000 r 32F0.10 Want "MDBR/MDB NF -0/+SNaN Tr" 7FF8A000 00000000 80000000 00000000 r 3300.10 Want "MDBR/MDB NF +0/-inf NT" 7FF80000 00000000 00000000 00000000 r 3310.10 Want "MDBR/MDB NF +0/-inf Tr" 7FF80000 00000000 00000000 00000000 r 3320.10 Want "MDBR/MDB NF +0/-2.0 NT" 80000000 00000000 80000000 00000000 r 3330.10 Want "MDBR/MDB NF +0/-2.0 Tr" 80000000 00000000 80000000 00000000 r 3340.10 Want "MDBR/MDB NF +0/-0 NT" 80000000 00000000 80000000 00000000 r 3350.10 Want "MDBR/MDB NF +0/-0 Tr" 80000000 00000000 80000000 00000000 r 3360.10 Want "MDBR/MDB NF +0/+0 NT" 00000000 00000000 00000000 00000000 r 3370.10 Want "MDBR/MDB NF +0/+0 Tr" 00000000 00000000 00000000 00000000 r 3380.10 Want "MDBR/MDB NF +0/+2.0 NT" 00000000 00000000 00000000 00000000 r 3390.10 Want "MDBR/MDB NF +0/+2.0 Tr" 00000000 00000000 00000000 00000000 r 33A0.10 Want "MDBR/MDB NF +0/+inf NT" 7FF80000 00000000 00000000 00000000 r 33B0.10 Want "MDBR/MDB NF +0/+inf Tr" 7FF80000 00000000 00000000 00000000 r 33C0.10 Want "MDBR/MDB NF +0/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 33D0.10 Want "MDBR/MDB NF +0/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 33E0.10 Want "MDBR/MDB NF +0/+SNaN NT" 7FF8A000 00000000 00000000 00000000 r 33F0.10 Want "MDBR/MDB NF +0/+SNaN Tr" 7FF8A000 00000000 00000000 00000000 r 3400.10 Want "MDBR/MDB NF +2.0/-inf NT" FFF00000 00000000 FFF00000 00000000 r 3410.10 Want "MDBR/MDB NF +2.0/-inf Tr" FFF00000 00000000 FFF00000 00000000 r 3420.10 Want "MDBR/MDB NF +2.0/-2.0 NT" C0100000 00000000 C0100000 00000000 r 3430.10 Want "MDBR/MDB NF +2.0/-2.0 Tr" C0100000 00000000 C0100000 00000000 r 3440.10 Want "MDBR/MDB NF +2.0/-0 NT" 80000000 00000000 80000000 00000000 r 3450.10 Want "MDBR/MDB NF +2.0/-0 Tr" 80000000 00000000 80000000 00000000 r 3460.10 Want "MDBR/MDB NF +2.0/+0 NT" 00000000 00000000 00000000 00000000 r 3470.10 Want "MDBR/MDB NF +2.0/+0 Tr" 00000000 00000000 00000000 00000000 r 3480.10 Want "MDBR/MDB NF +2.0/+2.0 NT" 40100000 00000000 40100000 00000000 r 3490.10 Want "MDBR/MDB NF +2.0/+2.0 Tr" 40100000 00000000 40100000 00000000 r 34A0.10 Want "MDBR/MDB NF +2.0/+inf NT" 7FF00000 00000000 7FF00000 00000000 r 34B0.10 Want "MDBR/MDB NF +2.0/+inf Tr" 7FF00000 00000000 7FF00000 00000000 r 34C0.10 Want "MDBR/MDB NF +2.0/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 34D0.10 Want "MDBR/MDB NF +2.0/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 34E0.10 Want "MDBR/MDB NF +2.0/+SNaN NT" 7FF8A000 00000000 40000000 00000000 r 34F0.10 Want "MDBR/MDB NF +2.0/+SNaN Tr" 7FF8A000 00000000 40000000 00000000 r 3500.10 Want "MDBR/MDB NF +inf/-inf NT" FFF00000 00000000 FFF00000 00000000 r 3510.10 Want "MDBR/MDB NF +inf/-inf Tr" FFF00000 00000000 FFF00000 00000000 r 3520.10 Want "MDBR/MDB NF +inf/-2.0 NT" FFF00000 00000000 FFF00000 00000000 r 3530.10 Want "MDBR/MDB NF +inf/-2.0 Tr" FFF00000 00000000 FFF00000 00000000 r 3540.10 Want "MDBR/MDB NF +inf/-0 NT" 7FF80000 00000000 7FF00000 00000000 r 3550.10 Want "MDBR/MDB NF +inf/-0 Tr" 7FF80000 00000000 7FF00000 00000000 r 3560.10 Want "MDBR/MDB NF +inf/+0 NT" 7FF80000 00000000 7FF00000 00000000 r 3570.10 Want "MDBR/MDB NF +inf/+0 Tr" 7FF80000 00000000 7FF00000 00000000 r 3580.10 Want "MDBR/MDB NF +inf/+2.0 NT" 7FF00000 00000000 7FF00000 00000000 r 3590.10 Want "MDBR/MDB NF +inf/+2.0 Tr" 7FF00000 00000000 7FF00000 00000000 r 35A0.10 Want "MDBR/MDB NF +inf/+inf NT" 7FF00000 00000000 7FF00000 00000000 r 35B0.10 Want "MDBR/MDB NF +inf/+inf Tr" 7FF00000 00000000 7FF00000 00000000 r 35C0.10 Want "MDBR/MDB NF +inf/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 35D0.10 Want "MDBR/MDB NF +inf/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 35E0.10 Want "MDBR/MDB NF +inf/+SNaN NT" 7FF8A000 00000000 7FF00000 00000000 r 35F0.10 Want "MDBR/MDB NF +inf/+SNaN Tr" 7FF8A000 00000000 7FF00000 00000000 r 3600.10 Want "MDBR/MDB NF -QNaN/-inf NT" FFF8B000 00000000 FFF8B000 00000000 r 3610.10 Want "MDBR/MDB NF -QNaN/-inf Tr" FFF8B000 00000000 FFF8B000 00000000 r 3620.10 Want "MDBR/MDB NF -QNaN/-2.0 NT" FFF8B000 00000000 FFF8B000 00000000 r 3630.10 Want "MDBR/MDB NF -QNaN/-2.0 Tr" FFF8B000 00000000 FFF8B000 00000000 r 3640.10 Want "MDBR/MDB NF -QNaN/-0 NT" FFF8B000 00000000 FFF8B000 00000000 r 3650.10 Want "MDBR/MDB NF -QNaN/-0 Tr" FFF8B000 00000000 FFF8B000 00000000 r 3660.10 Want "MDBR/MDB NF -QNaN/+0 NT" FFF8B000 00000000 FFF8B000 00000000 r 3670.10 Want "MDBR/MDB NF -QNaN/+0 Tr" FFF8B000 00000000 FFF8B000 00000000 r 3680.10 Want "MDBR/MDB NF -QNaN/+2.0 NT" FFF8B000 00000000 FFF8B000 00000000 r 3690.10 Want "MDBR/MDB NF -QNaN/+2.0 Tr" FFF8B000 00000000 FFF8B000 00000000 r 36A0.10 Want "MDBR/MDB NF -QNaN/+inf NT" FFF8B000 00000000 FFF8B000 00000000 r 36B0.10 Want "MDBR/MDB NF -QNaN/+inf Tr" FFF8B000 00000000 FFF8B000 00000000 r 36C0.10 Want "MDBR/MDB NF -QNaN/-QNaN NT" FFF8B000 00000000 FFF8B000 00000000 r 36D0.10 Want "MDBR/MDB NF -QNaN/-QNaN Tr" FFF8B000 00000000 FFF8B000 00000000 r 36E0.10 Want "MDBR/MDB NF -QNaN/+SNaN NT" 7FF8A000 00000000 FFF8B000 00000000 r 36F0.10 Want "MDBR/MDB NF -QNaN/+SNaN Tr" 7FF8A000 00000000 FFF8B000 00000000 r 3700.10 Want "MDBR/MDB NF +SNaN/-inf NT" 7FF8A000 00000000 7FF0A000 00000000 r 3710.10 Want "MDBR/MDB NF +SNaN/-inf Tr" 7FF8A000 00000000 7FF0A000 00000000 r 3720.10 Want "MDBR/MDB NF +SNaN/-2.0 NT" 7FF8A000 00000000 7FF0A000 00000000 r 3730.10 Want "MDBR/MDB NF +SNaN/-2.0 Tr" 7FF8A000 00000000 7FF0A000 00000000 r 3740.10 Want "MDBR/MDB NF +SNaN/-0 NT" 7FF8A000 00000000 7FF0A000 00000000 r 3750.10 Want "MDBR/MDB NF +SNaN/-0 Tr" 7FF8A000 00000000 7FF0A000 00000000 r 3760.10 Want "MDBR/MDB NF +SNaN/+0 NT" 7FF8A000 00000000 7FF0A000 00000000 r 3770.10 Want "MDBR/MDB NF +SNaN/+0 Tr" 7FF8A000 00000000 7FF0A000 00000000 r 3780.10 Want "MDBR/MDB NF +SNaN/+2.0 NT" 7FF8A000 00000000 7FF0A000 00000000 r 3790.10 Want "MDBR/MDB NF +SNaN/+2.0 Tr" 7FF8A000 00000000 7FF0A000 00000000 r 37A0.10 Want "MDBR/MDB NF +SNaN/+inf NT" 7FF8A000 00000000 7FF0A000 00000000 r 37B0.10 Want "MDBR/MDB NF +SNaN/+inf Tr" 7FF8A000 00000000 7FF0A000 00000000 r 37C0.10 Want "MDBR/MDB NF +SNaN/-QNaN NT" 7FF8A000 00000000 7FF0A000 00000000 r 37D0.10 Want "MDBR/MDB NF +SNaN/-QNaN Tr" 7FF8A000 00000000 7FF0A000 00000000 r 37E0.10 Want "MDBR/MDB NF +SNaN/+SNaN NT" 7FF8A000 00000000 7FF0A000 00000000 r 37F0.10 Want "MDBR/MDB NF +SNaN/+SNaN Tr" 7FF8A000 00000000 7FF0A000 00000000 # Long BFP non-finite test results - FPCR contents Compare r 3800.10 Want "MDBR NF -inf/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 3810.10 Want "MDB NF -inf/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3820.10 Want "MDBR NF -inf/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 3830.10 Want "MDB NF -inf/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 3840.10 Want "MDBR NF -inf/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3850.10 Want "MDB NF -inf/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 3860.10 Want "MDBR NF -inf/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 3870.10 Want "MDB NF -inf/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3880.10 Want "MDBR NF -2.0/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 3890.10 Want "MDB NF -2.0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 38A0.10 Want "MDBR NF -2.0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 38B0.10 Want "MDB NF -2.0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 38C0.10 Want "MDBR NF -2.0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 38D0.10 Want "MDB NF -2.0/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 38E0.10 Want "MDBR NF -2.0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 38F0.10 Want "MDB NF -2.0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3900.10 Want "MDBR NF -0/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 3910.10 Want "MDB NF -0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3920.10 Want "MDBR NF -0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 3930.10 Want "MDB NF -0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 3940.10 Want "MDBR NF -0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3950.10 Want "MDB NF -0/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 3960.10 Want "MDBR NF -0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 3970.10 Want "MDB NF -0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3980.10 Want "MDBR NF +0/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 3990.10 Want "MDB NF +0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 39A0.10 Want "MDBR NF +0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 39B0.10 Want "MDB NF +0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 39C0.10 Want "MDBR NF +0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 39D0.10 Want "MDB NF +0/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 39E0.10 Want "MDBR NF +0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 39F0.10 Want "MDB NF +0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3A00.10 Want "MDBR NF +2.0/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 3A10.10 Want "MDB NF +2.0/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3A20.10 Want "MDBR NF +2.0/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 3A30.10 Want "MDB NF +2.0/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 3A40.10 Want "MDBR NF +2.0/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3A50.10 Want "MDB NF +2.0/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 3A60.10 Want "MDBR NF +2.0/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 3A70.10 Want "MDB NF +2.0/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3A80.10 Want "MDBR NF +inf/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 3A90.10 Want "MDB NF +inf/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3AA0.10 Want "MDBR NF +inf/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 3AB0.10 Want "MDB NF +inf/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 3AC0.10 Want "MDBR NF +inf/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3AD0.10 Want "MDB NF +inf/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 3AE0.10 Want "MDBR NF +inf/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 3AF0.10 Want "MDB NF +inf/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3B00.10 Want "MDBR NF -QNaN/-inf FPCR" 00000000 F8000000 00000000 F8000000 r 3B10.10 Want "MDB NF -QNaN/-2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3B20.10 Want "MDBR NF -QNaN/-0 FPCR" 00000000 F8000000 00000000 F8000000 r 3B30.10 Want "MDB NF -QNaN/+0 FPCR" 00000000 F8000000 00000000 F8000000 r 3B40.10 Want "MDBR NF -QNaN/+2.0 FPCR" 00000000 F8000000 00000000 F8000000 r 3B50.10 Want "MDB NF -QNaN/+inf FPCR" 00000000 F8000000 00000000 F8000000 r 3B60.10 Want "MDBR NF -QNaN/-QNaN FPCR" 00000000 F8000000 00000000 F8000000 r 3B70.10 Want "MDB NF -QNaN/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3B80.10 Want "MDBR NF +SNaN/-inf FPCR" 00800000 F8008000 00800000 F8008000 r 3B90.10 Want "MDB NF +SNaN/-2.0 FPCR" 00800000 F8008000 00800000 F8008000 r 3BA0.10 Want "MDBR NF +SNaN/-0 FPCR" 00800000 F8008000 00800000 F8008000 r 3BB0.10 Want "MDB NF +SNaN/+0 FPCR" 00800000 F8008000 00800000 F8008000 r 3BC0.10 Want "MDBR NF +SNaN/+2.0 FPCR" 00800000 F8008000 00800000 F8008000 r 3BD0.10 Want "MDB NF +SNaN/+inf FPCR" 00800000 F8008000 00800000 F8008000 r 3BE0.10 Want "MDBR NF +SNaN/-QNaN FPCR" 00800000 F8008000 00800000 F8008000 r 3BF0.10 Want "MDB NF +SNaN/+SNaN FPCR" 00800000 F8008000 00800000 F8008000 # Long BFP finite test results Compare r 3C00.10 Want "MDBR F Ovfl NT" FFF00000 00000000 DFEFFFFF FFFFFFFE r 3C10.10 Want "MDB F Ovfl Tr" FFF00000 00000000 DFEFFFFF FFFFFFFE r 3C20.10 Want "MDBR F Ufl 1 NT" 00000000 00000000 203FFFFF FFFFFFFF r 3C30.10 Want "MDB F Ufl 1 Tr" 00000000 00000000 203FFFFF FFFFFFFF r 3C40.10 Want "MDBR F Ufl 2 NT" 00000000 00000000 1FDE1E00 00000000 r 3C50.10 Want "MDB F Ufl 2 Tr" 00000000 00000000 1FDE1E00 00000000 r 3C60.10 Want "MDBR F Nmin NT" 001FFFFF FFFFFFFE 001FFFFF FFFFFFFE r 3C70.10 Want "MDB F Nmin Tr" 001FFFFF FFFFFFFE 001FFFFF FFFFFFFE r 3C80.10 Want "MDBR F Incr NT" 3FF10000 0000000D 3FF10000 0000000D r 3C90.10 Want "MDB F Incr Tr" 3FF10000 0000000D 3FF10000 0000000D r 3CA0.10 Want "MDBR F Trun NT" 3FF10000 00000007 3FF10000 00000007 r 3CB0.10 Want "MDB F Trun Tr" 3FF10000 00000007 3FF10000 00000007 # Long BFP finite test results - FPCR contents Compare r 3E00.10 Want "MDBR/MDB F Ovfl FPCR" 00280000 F8002800 00280000 F8002800 r 3E10.10 Want "MDBR/MDB F Ufl 1 FPCR" 00180000 F8001000 00180000 F8001000 r 3E20.10 Want "MDBR/MDB F Ufl 2 FPCR" 00180000 F8001000 00180000 F8001000 r 3E30.10 Want "MDBR/MDB F Nmin FPCR" 00000000 F8000000 00000000 F8000000 r 3E40.10 Want "MDBR/MDB F Incr FPCR" 00080000 F8000C00 00080000 F8000C00 r 3E50.10 Want "MDBR/MDB F Trun FPCR" 00080000 F8000800 00080000 F8000800 # Long BFP rounding mode test results Compare r 4000.10 Want "MDBR RM +NZ RNTE" 3FF10000 00000007 3FF10000 00000007 r 4010.10 Want "MDB RM +NZ RZ" 3FF10000 00000007 3FF10000 00000007 r 4020.10 Want "MDBR RM +NZ RP" 3FF10000 00000008 3FF10000 00000008 r 4030.10 Want "MDB RM +NZ RM" 3FF10000 00000007 3FF10000 00000007 r 4040.10 Want "MDBR RM +NZ RFS" 3FF10000 00000007 3FF10000 00000007 r 4050.10 Want "MDB RM -NZ RNTE" BFF10000 00000007 BFF10000 00000007 r 4060.10 Want "MDBR RM -NZ RZ" BFF10000 00000007 BFF10000 00000007 r 4070.10 Want "MDB RM -NZ RP" BFF10000 00000007 BFF10000 00000007 r 4080.10 Want "MDBR RM -NZ RM" BFF10000 00000008 BFF10000 00000008 r 4090.10 Want "MDB RM -NZ RFS" BFF10000 00000007 BFF10000 00000007 r 40A0.10 Want "MDBR RM +NA RNTE" 3FF10000 0000000D 3FF10000 0000000D r 40B0.10 Want "MDB RM +NA RZ" 3FF10000 0000000C 3FF10000 0000000C r 40C0.10 Want "MDBR RM +NA RP" 3FF10000 0000000D 3FF10000 0000000D r 40D0.10 Want "MDB RM +NA RM" 3FF10000 0000000C 3FF10000 0000000C r 40E0.10 Want "MDBR RM +NA RFS" 3FF10000 0000000D 3FF10000 0000000D r 40F0.10 Want "MDB RM -NA RNTE" BFF10000 0000000D BFF10000 0000000D r 4100.10 Want "MDBR RM -NA RZ" BFF10000 0000000C BFF10000 0000000C r 4110.10 Want "MDB RM -NA RP" BFF10000 0000000C BFF10000 0000000C r 4120.10 Want "MDBR RM -NA RM" BFF10000 0000000D BFF10000 0000000D r 4130.10 Want "MDB RM -NA RFS" BFF10000 0000000D BFF10000 0000000D r 4140.10 Want "MDBR RM +TZ RNTE" 3FF10000 00000008 3FF10000 00000008 r 4150.10 Want "MDB RM +TZ RZ" 3FF10000 00000008 3FF10000 00000008 r 4160.10 Want "MDBR RM +TZ RP" 3FF10000 00000009 3FF10000 00000009 r 4170.10 Want "MDB RM +TZ RM" 3FF10000 00000008 3FF10000 00000008 r 4180.10 Want "MDBR RM +TZ RFS" 3FF10000 00000009 3FF10000 00000009 r 4190.10 Want "MDB RM -TZ RNTE" BFF10000 00000008 BFF10000 00000008 r 41A0.10 Want "MDBR RM -TZ RZ" BFF10000 00000008 BFF10000 00000008 r 41B0.10 Want "MDB RM -TZ RP" BFF10000 00000008 BFF10000 00000008 r 41C0.10 Want "MDBR RM -TZ RM" BFF10000 00000009 BFF10000 00000009 r 41D0.10 Want "MDB RM -TZ RFS" BFF10000 00000009 BFF10000 00000009 r 41E0.10 Want "MDBR RM +TA RNTE" 3FF10000 0000001A 3FF10000 0000001A r 41F0.10 Want "MDB RM +TA RZ" 3FF10000 00000019 3FF10000 00000019 r 4200.10 Want "MDBR RM +TA RP" 3FF10000 0000001A 3FF10000 0000001A r 4210.10 Want "MDB RM +TA RM" 3FF10000 00000019 3FF10000 00000019 r 4220.10 Want "MDBR RM +TA RFS" 3FF10000 00000019 3FF10000 00000019 r 4230.10 Want "MDB RM -TA RNTE" BFF10000 0000001A BFF10000 0000001A r 4240.10 Want "MDBR RM -TA RZ" BFF10000 00000019 BFF10000 00000019 r 4250.10 Want "MDB RM -TA RP" BFF10000 00000019 BFF10000 00000019 r 4260.10 Want "MDBR RM -TA RM" BFF10000 0000001A BFF10000 0000001A r 4270.10 Want "MDB RM -TA RFS" BFF10000 00000019 BFF10000 00000019 # Long BFP rounding mode test results - FPCR contents Compare r 4500.10 Want "MDBR/MDB RM +NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4510.10 Want "MDBR/MDB RM +NZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4520.8 Want "MDBR/MDB RM +NZ RFS FPCR" 00080007 00080007 r 4530.10 Want "MDBR/MDB RM +NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4540.10 Want "MDBR/MDB RM +NZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4550.8 Want "MDBR/MDB RM -NZ RFS FPCR" 00080007 00080007 r 4560.10 Want "MDBR/MDB RM -NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4570.10 Want "MDBR/MDB RM -NZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4580.8 Want "MDBR/MDB RM -NZ RFS FPCR" 00080007 00080007 r 4590.10 Want "MDBR/MDB RM -NZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 45A0.10 Want "MDBR/MDB RM -NA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 45B0.8 Want "MDBR/MDB RM -NA RFS FPCR" 00080007 00080007 r 45C0.10 Want "MDBR/MDB RM +TZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 45D0.10 Want "MDBR/MDB RM +TZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 45E0.8 Want "MDBR/MDB RM +TZ RFS FPCR" 00080007 00080007 r 45F0.10 Want "MDBR/MDB RM -TZ RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4600.10 Want "MDBR/MDB RM -TZ RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4610.8 Want "MDBR/MDB RM -TZ RFS FPCR" 00080007 00080007 r 4620.10 Want "MDBR/MDB RM +TA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4630.10 Want "MDBR/MDB RM +TA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4640.8 Want "MDBR/MDB RM +TA RFS FPCR" 00080007 00080007 r 4650.10 Want "MDBR/MDB RM -TA RNTE, RZ FPCR" 00080000 00080000 00080001 00080001 r 4660.10 Want "MDBR/MDB RM -TA RP, RM FPCR" 00080002 00080002 00080003 00080003 r 4670.8 Want "MDBR/MDB RM -TA RFS FPCR" 00080007 00080007 # Extended BFP non-finite test results Compare r 5000.10 Want "MXBR NF -inf/-inf NT" 7FFF0000 00000000 00000000 00000000 r 5010.10 Want "MXBR NF -inf/-inf Tr" 7FFF0000 00000000 00000000 00000000 r 5020.10 Want "MXBR NF -inf/-2.0 NT" 7FFF0000 00000000 00000000 00000000 r 5030.10 Want "MXBR NF -inf/-2.0 Tr" 7FFF0000 00000000 00000000 00000000 r 5040.10 Want "MXBR NF -inf/-0 NT" 7FFF8000 00000000 00000000 00000000 r 5050.10 Want "MXBR NF -inf/-0 Tr" FFFF0000 00000000 00000000 00000000 r 5060.10 Want "MXBR NF -inf/+0 NT" 7FFF8000 00000000 00000000 00000000 r 5070.10 Want "MXBR NF -inf/+0 Tr" FFFF0000 00000000 00000000 00000000 r 5080.10 Want "MXBR NF -inf/+2.0 NT" FFFF0000 00000000 00000000 00000000 r 5090.10 Want "MXBR NF -inf/+2.0 Tr" FFFF0000 00000000 00000000 00000000 r 50A0.10 Want "MXBR NF -inf/+inf NT" FFFF0000 00000000 00000000 00000000 r 50B0.10 Want "MXBR NF -inf/+inf Tr" FFFF0000 00000000 00000000 00000000 r 50C0.10 Want "MXBR NF -inf/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 50D0.10 Want "MXBR NF -inf/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 50E0.10 Want "MXBR NF -inf/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 50F0.10 Want "MXBR NF -inf/+SNaN Tr" FFFF0000 00000000 00000000 00000000 r 5100.10 Want "MXBR NF -2.0/-inf NT" 7FFF0000 00000000 00000000 00000000 r 5110.10 Want "MXBR NF -2.0/-inf Tr" 7FFF0000 00000000 00000000 00000000 r 5120.10 Want "MXBR NF -2.0/-2.0 NT" 40010000 00000000 00000000 00000000 r 5130.10 Want "MXBR NF -2.0/-2.0 Tr" 40010000 00000000 00000000 00000000 r 5140.10 Want "MXBR NF -2.0/-0 NT" 00000000 00000000 00000000 00000000 r 5150.10 Want "MXBR NF -2.0/-0 Tr" 00000000 00000000 00000000 00000000 r 5160.10 Want "MXBR NF -2.0/+0 NT" 80000000 00000000 00000000 00000000 r 5170.10 Want "MXBR NF -2.0/+0 Tr" 80000000 00000000 00000000 00000000 r 5180.10 Want "MXBR NF -2.0/+2.0 NT" C0010000 00000000 00000000 00000000 r 5190.10 Want "MXBR NF -2.0/+2.0 Tr" C0010000 00000000 00000000 00000000 r 51A0.10 Want "MXBR NF -2.0/+inf NT" FFFF0000 00000000 00000000 00000000 r 51B0.10 Want "MXBR NF -2.0/+inf Tr" FFFF0000 00000000 00000000 00000000 r 51C0.10 Want "MXBR NF -2.0/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 51D0.10 Want "MXBR NF -2.0/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 51E0.10 Want "MXBR NF -2.0/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 51F0.10 Want "MXBR NF -2.0/+SNaN Tr" C0000000 00000000 00000000 00000000 r 5200.10 Want "MXBR NF -0/-inf NT" 7FFF8000 00000000 00000000 00000000 r 5210.10 Want "MXBR NF -0/-inf Tr" 80000000 00000000 00000000 00000000 r 5220.10 Want "MXBR NF -0/-2.0 NT" 00000000 00000000 00000000 00000000 r 5230.10 Want "MXBR NF -0/-2.0 Tr" 00000000 00000000 00000000 00000000 r 5240.10 Want "MXBR NF -0/-0 NT" 00000000 00000000 00000000 00000000 r 5250.10 Want "MXBR NF -0/-0 Tr" 00000000 00000000 00000000 00000000 r 5260.10 Want "MXBR NF -0/+0 NT" 80000000 00000000 00000000 00000000 r 5270.10 Want "MXBR NF -0/+0 Tr" 80000000 00000000 00000000 00000000 r 5280.10 Want "MXBR NF -0/+2.0 NT" 80000000 00000000 00000000 00000000 r 5290.10 Want "MXBR NF -0/+2.0 Tr" 80000000 00000000 00000000 00000000 r 52A0.10 Want "MXBR NF -0/+inf NT" 7FFF8000 00000000 00000000 00000000 r 52B0.10 Want "MXBR NF -0/+inf Tr" 80000000 00000000 00000000 00000000 r 52C0.10 Want "MXBR NF -0/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 52D0.10 Want "MXBR NF -0/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 52E0.10 Want "MXBR NF -0/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 52F0.10 Want "MXBR NF -0/+SNaN Tr" 80000000 00000000 00000000 00000000 r 5300.10 Want "MXBR NF +0/-inf NT" 7FFF8000 00000000 00000000 00000000 r 5310.10 Want "MXBR NF +0/-inf Tr" 00000000 00000000 00000000 00000000 r 5320.10 Want "MXBR NF +0/-2.0 NT" 80000000 00000000 00000000 00000000 r 5330.10 Want "MXBR NF +0/-2.0 Tr" 80000000 00000000 00000000 00000000 r 5340.10 Want "MXBR NF +0/-0 NT" 80000000 00000000 00000000 00000000 r 5350.10 Want "MXBR NF +0/-0 Tr" 80000000 00000000 00000000 00000000 r 5360.10 Want "MXBR NF +0/+0 NT" 00000000 00000000 00000000 00000000 r 5370.10 Want "MXBR NF +0/+0 Tr" 00000000 00000000 00000000 00000000 r 5380.10 Want "MXBR NF +0/+2.0 NT" 00000000 00000000 00000000 00000000 r 5390.10 Want "MXBR NF +0/+2.0 Tr" 00000000 00000000 00000000 00000000 r 53A0.10 Want "MXBR NF +0/+inf NT" 7FFF8000 00000000 00000000 00000000 r 53B0.10 Want "MXBR NF +0/+inf Tr" 00000000 00000000 00000000 00000000 r 53C0.10 Want "MXBR NF +0/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 53D0.10 Want "MXBR NF +0/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 53E0.10 Want "MXBR NF +0/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 53F0.10 Want "MXBR NF +0/+SNaN Tr" 00000000 00000000 00000000 00000000 r 5400.10 Want "MXBR NF +2.0/-inf NT" FFFF0000 00000000 00000000 00000000 r 5410.10 Want "MXBR NF +2.0/-inf Tr" FFFF0000 00000000 00000000 00000000 r 5420.10 Want "MXBR NF +2.0/-2.0 NT" C0010000 00000000 00000000 00000000 r 5430.10 Want "MXBR NF +2.0/-2.0 Tr" C0010000 00000000 00000000 00000000 r 5440.10 Want "MXBR NF +2.0/-0 NT" 80000000 00000000 00000000 00000000 r 5450.10 Want "MXBR NF +2.0/-0 Tr" 80000000 00000000 00000000 00000000 r 5460.10 Want "MXBR NF +2.0/+0 NT" 00000000 00000000 00000000 00000000 r 5470.10 Want "MXBR NF +2.0/+0 Tr" 00000000 00000000 00000000 00000000 r 5480.10 Want "MXBR NF +2.0/+2.0 NT" 40010000 00000000 00000000 00000000 r 5490.10 Want "MXBR NF +2.0/+2.0 Tr" 40010000 00000000 00000000 00000000 r 54A0.10 Want "MXBR NF +2.0/+inf NT" 7FFF0000 00000000 00000000 00000000 r 54B0.10 Want "MXBR NF +2.0/+inf Tr" 7FFF0000 00000000 00000000 00000000 r 54C0.10 Want "MXBR NF +2.0/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 54D0.10 Want "MXBR NF +2.0/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 54E0.10 Want "MXBR NF +2.0/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 54F0.10 Want "MXBR NF +2.0/+SNaN Tr" 40000000 00000000 00000000 00000000 r 5500.10 Want "MXBR NF +inf/-inf NT" FFFF0000 00000000 00000000 00000000 r 5510.10 Want "MXBR NF +inf/-inf Tr" FFFF0000 00000000 00000000 00000000 r 5520.10 Want "MXBR NF +inf/-2.0 NT" FFFF0000 00000000 00000000 00000000 r 5530.10 Want "MXBR NF +inf/-2.0 Tr" FFFF0000 00000000 00000000 00000000 r 5540.10 Want "MXBR NF +inf/-0 NT" 7FFF8000 00000000 00000000 00000000 r 5550.10 Want "MXBR NF +inf/-0 Tr" 7FFF0000 00000000 00000000 00000000 r 5560.10 Want "MXBR NF +inf/+0 NT" 7FFF8000 00000000 00000000 00000000 r 5570.10 Want "MXBR NF +inf/+0 Tr" 7FFF0000 00000000 00000000 00000000 r 5580.10 Want "MXBR NF +inf/+2.0 NT" 7FFF0000 00000000 00000000 00000000 r 5590.10 Want "MXBR NF +inf/+2.0 Tr" 7FFF0000 00000000 00000000 00000000 r 55A0.10 Want "MXBR NF +inf/+inf NT" 7FFF0000 00000000 00000000 00000000 r 55B0.10 Want "MXBR NF +inf/+inf Tr" 7FFF0000 00000000 00000000 00000000 r 55C0.10 Want "MXBR NF +inf/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 55D0.10 Want "MXBR NF +inf/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 55E0.10 Want "MXBR NF +inf/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 55F0.10 Want "MXBR NF +inf/+SNaN Tr" 7FFF0000 00000000 00000000 00000000 r 5600.10 Want "MXBR NF -QNaN/-inf NT" FFFF8B00 00000000 00000000 00000000 r 5610.10 Want "MXBR NF -QNaN/-inf Tr" FFFF8B00 00000000 00000000 00000000 r 5620.10 Want "MXBR NF -QNaN/-2.0 NT" FFFF8B00 00000000 00000000 00000000 r 5630.10 Want "MXBR NF -QNaN/-2.0 Tr" FFFF8B00 00000000 00000000 00000000 r 5640.10 Want "MXBR NF -QNaN/-0 NT" FFFF8B00 00000000 00000000 00000000 r 5650.10 Want "MXBR NF -QNaN/-0 Tr" FFFF8B00 00000000 00000000 00000000 r 5660.10 Want "MXBR NF -QNaN/+0 NT" FFFF8B00 00000000 00000000 00000000 r 5670.10 Want "MXBR NF -QNaN/+0 Tr" FFFF8B00 00000000 00000000 00000000 r 5680.10 Want "MXBR NF -QNaN/+2.0 NT" FFFF8B00 00000000 00000000 00000000 r 5690.10 Want "MXBR NF -QNaN/+2.0 Tr" FFFF8B00 00000000 00000000 00000000 r 56A0.10 Want "MXBR NF -QNaN/+inf NT" FFFF8B00 00000000 00000000 00000000 r 56B0.10 Want "MXBR NF -QNaN/+inf Tr" FFFF8B00 00000000 00000000 00000000 r 56C0.10 Want "MXBR NF -QNaN/-QNaN NT" FFFF8B00 00000000 00000000 00000000 r 56D0.10 Want "MXBR NF -QNaN/-QNaN Tr" FFFF8B00 00000000 00000000 00000000 r 56E0.10 Want "MXBR NF -QNaN/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 56F0.10 Want "MXBR NF -QNaN/+SNaN Tr" FFFF8B00 00000000 00000000 00000000 r 5700.10 Want "MXBR NF +SNaN/-inf NT" 7FFF8A00 00000000 00000000 00000000 r 5710.10 Want "MXBR NF +SNaN/-inf Tr" 7FFF0A00 00000000 00000000 00000000 r 5720.10 Want "MXBR NF +SNaN/-2.0 NT" 7FFF8A00 00000000 00000000 00000000 r 5730.10 Want "MXBR NF +SNaN/-2.0 Tr" 7FFF0A00 00000000 00000000 00000000 r 5740.10 Want "MXBR NF +SNaN/-0 NT" 7FFF8A00 00000000 00000000 00000000 r 5750.10 Want "MXBR NF +SNaN/-0 Tr" 7FFF0A00 00000000 00000000 00000000 r 5760.10 Want "MXBR NF +SNaN/+0 NT" 7FFF8A00 00000000 00000000 00000000 r 5770.10 Want "MXBR NF +SNaN/+0 Tr" 7FFF0A00 00000000 00000000 00000000 r 5780.10 Want "MXBR NF +SNaN/+2.0 NT" 7FFF8A00 00000000 00000000 00000000 r 5790.10 Want "MXBR NF +SNaN/+2.0 Tr" 7FFF0A00 00000000 00000000 00000000 r 57A0.10 Want "MXBR NF +SNaN/+inf NT" 7FFF8A00 00000000 00000000 00000000 r 57B0.10 Want "MXBR NF +SNaN/+inf Tr" 7FFF0A00 00000000 00000000 00000000 r 57C0.10 Want "MXBR NF +SNaN/-QNaN NT" 7FFF8A00 00000000 00000000 00000000 r 57D0.10 Want "MXBR NF +SNaN/-QNaN Tr" 7FFF0A00 00000000 00000000 00000000 r 57E0.10 Want "MXBR NF +SNaN/+SNaN NT" 7FFF8A00 00000000 00000000 00000000 r 57F0.10 Want "MXBR NF +SNaN/+SNaN Tr" 7FFF0A00 00000000 00000000 00000000 # Extended BFP non-finite test results - FPCR contents Compare r 5800.08 Want "MXBR NF -inf/-inf FPCR" 00000000 F8000000 r 5810.08 Want "MXBR NF -inf/-2.0 FPCR" 00000000 F8000000 r 5820.08 Want "MXBR NF -inf/-0 FPCR" 00800000 F8008000 r 5830.08 Want "MXBR NF -inf/+0 FPCR" 00800000 F8008000 r 5840.08 Want "MXBR NF -inf/+2.0 FPCR" 00000000 F8000000 r 5850.08 Want "MXBR NF -inf/+inf FPCR" 00000000 F8000000 r 5860.08 Want "MXBR NF -inf/-QNaN FPCR" 00000000 F8000000 r 5870.08 Want "MXBR NF -inf/+SNaN FPCR" 00800000 F8008000 r 5880.08 Want "MXBR NF -2.0/-inf FPCR" 00000000 F8000000 r 5890.08 Want "MXBR NF -2.0/-2.0 FPCR" 00000000 F8000000 r 58A0.08 Want "MXBR NF -2.0/-0 FPCR" 00000000 F8000000 r 58B0.08 Want "MXBR NF -2.0/+0 FPCR" 00000000 F8000000 r 58C0.08 Want "MXBR NF -2.0/+2.0 FPCR" 00000000 F8000000 r 58D0.08 Want "MXBR NF -2.0/+inf FPCR" 00000000 F8000000 r 58E0.08 Want "MXBR NF -2.0/-QNaN FPCR" 00000000 F8000000 r 58F0.08 Want "MXBR NF -2.0/+SNaN FPCR" 00800000 F8008000 r 5900.08 Want "MXBR NF -0/-inf FPCR" 00800000 F8008000 r 5910.08 Want "MXBR NF -0/-2.0 FPCR" 00000000 F8000000 r 5920.08 Want "MXBR NF -0/-0 FPCR" 00000000 F8000000 r 5930.08 Want "MXBR NF -0/+0 FPCR" 00000000 F8000000 r 5940.08 Want "MXBR NF -0/+2.0 FPCR" 00000000 F8000000 r 5950.08 Want "MXBR NF -0/+inf FPCR" 00800000 F8008000 r 5960.08 Want "MXBR NF -0/-QNaN FPCR" 00000000 F8000000 r 5970.08 Want "MXBR NF -0/+SNaN FPCR" 00800000 F8008000 r 5980.08 Want "MXBR NF +0/-inf FPCR" 00800000 F8008000 r 5990.08 Want "MXBR NF +0/-2.0 FPCR" 00000000 F8000000 r 59A0.08 Want "MXBR NF +0/-0 FPCR" 00000000 F8000000 r 59B0.08 Want "MXBR NF +0/+0 FPCR" 00000000 F8000000 r 59C0.08 Want "MXBR NF +0/+2.0 FPCR" 00000000 F8000000 r 59D0.08 Want "MXBR NF +0/+inf FPCR" 00800000 F8008000 r 59E0.08 Want "MXBR NF +0/-QNaN FPCR" 00000000 F8000000 r 59F0.08 Want "MXBR NF +0/+SNaN FPCR" 00800000 F8008000 r 5A00.08 Want "MXBR NF +2.0/-inf FPCR" 00000000 F8000000 r 5A10.08 Want "MXBR NF +2.0/-2.0 FPCR" 00000000 F8000000 r 5A20.08 Want "MXBR NF +2.0/-0 FPCR" 00000000 F8000000 r 5A30.08 Want "MXBR NF +2.0/+0 FPCR" 00000000 F8000000 r 5A40.08 Want "MXBR NF +2.0/+2.0 FPCR" 00000000 F8000000 r 5A50.08 Want "MXBR NF +2.0/+inf FPCR" 00000000 F8000000 r 5A60.08 Want "MXBR NF +2.0/-QNaN FPCR" 00000000 F8000000 r 5A70.08 Want "MXBR NF +2.0/+SNaN FPCR" 00800000 F8008000 r 5A80.08 Want "MXBR NF +inf/-inf FPCR" 00000000 F8000000 r 5A90.08 Want "MXBR NF +inf/-2.0 FPCR" 00000000 F8000000 r 5AA0.08 Want "MXBR NF +inf/-0 FPCR" 00800000 F8008000 r 5AB0.08 Want "MXBR NF +inf/+0 FPCR" 00800000 F8008000 r 5AC0.08 Want "MXBR NF +inf/+2.0 FPCR" 00000000 F8000000 r 5AD0.08 Want "MXBR NF +inf/+inf FPCR" 00000000 F8000000 r 5AE0.08 Want "MXBR NF +inf/-QNaN FPCR" 00000000 F8000000 r 5AF0.08 Want "MXBR NF +inf/+SNaN FPCR" 00800000 F8008000 r 5B00.08 Want "MXBR NF -QNaN/-inf FPCR" 00000000 F8000000 r 5B10.08 Want "MXBR NF -QNaN/-2.0 FPCR" 00000000 F8000000 r 5B20.08 Want "MXBR NF -QNaN/-0 FPCR" 00000000 F8000000 r 5B30.08 Want "MXBR NF -QNaN/+0 FPCR" 00000000 F8000000 r 5B40.08 Want "MXBR NF -QNaN/+2.0 FPCR" 00000000 F8000000 r 5B50.08 Want "MXBR NF -QNaN/+inf FPCR" 00000000 F8000000 r 5B60.08 Want "MXBR NF -QNaN/-QNaN FPCR" 00000000 F8000000 r 5B70.08 Want "MXBR NF -QNaN/+SNaN FPCR" 00800000 F8008000 r 5B80.08 Want "MXBR NF +SNaN/-inf FPCR" 00800000 F8008000 r 5B90.08 Want "MXBR NF +SNaN/-2.0 FPCR" 00800000 F8008000 r 5BA0.08 Want "MXBR NF +SNaN/-0 FPCR" 00800000 F8008000 r 5BB0.08 Want "MXBR NF +SNaN/+0 FPCR" 00800000 F8008000 r 5BC0.08 Want "MXBR NF +SNaN/+2.0 FPCR" 00800000 F8008000 r 5BD0.08 Want "MXBR NF +SNaN/+inf FPCR" 00800000 F8008000 r 5BE0.08 Want "MXBR NF +SNaN/-QNaN FPCR" 00800000 F8008000 r 5BF0.08 Want "MXBR NF +SNaN/+SNaN FPCR" 00800000 F8008000 # Extended BFP finite test results Compare r 5C00.10 Want "MXBR F Ovfl NT" FFFF0000 00000000 00000000 00000000 r 5C10.10 Want "MXBR F Ovfl Tr" DFFEFFFF FFFFFFFF FFFFFFFF FFFFFFFE r 5C20.10 Want "MXBR F Ufl 1 NT" 00000000 00000000 00000000 00000000 r 5C30.10 Want "MXBR F Ufl 1 Tr" 2003FFFF FFFFFFFF FFFFFFFF FFFFFFFF r 5C40.10 Want "MXBR F Ufl 2 NT" 00000000 00000000 00000000 00000000 r 5C50.10 Want "MXBR F Ufl 2 Tr" 1FFDE1E0 00000000 00000000 00000000 r 5C60.10 Want "MXBR F Nmin NT" 00020000 00000000 00000000 00000000 r 5C70.10 Want "MXBR F Nmin Tr" 00020000 00000000 00000000 00000000 r 5C80.10 Want "MXBR F Incr NT" 3FFF1000 00000000 00000000 0000000D r 5C90.10 Want "MXBR F Incr Tr" 3FFF1000 00000000 00000000 0000000D r 5CA0.10 Want "MXBR F Trun NT" 3FFF1000 00000000 00000000 00000007 r 5CB0.10 Want "MXBR F Trun Tr" 3FFF1000 00000000 00000000 00000007 # Extended BFP finite test results - FPCR contents Compare r 5E00.8 Want "MXBR F Ovfl FPCR" 00280000 F8002800 r 5E10.8 Want "MXBR F Ufl 1 FPCR" 00180000 F8001000 r 5E20.8 Want "MXBR F Ufl 2 FPCR" 00180000 F8001000 r 5E30.8 Want "MXBR F Nmin FPCR" 00080000 F8000C00 r 5E40.8 Want "MXBR F Incr FPCR" 00080000 F8000C00 r 5E50.8 Want "MXBR F Trun FPCR" 00080000 F8000800 # Extended BFP rounding mode test results Compare r 6000.10 Want "MXBR RM +NZ RNTE" 3FFF1000 00000000 00000000 00000007 r 6010.10 Want "MXBR RM +NZ RZ" 3FFF1000 00000000 00000000 00000007 r 6020.10 Want "MXBR RM +NZ RP" 3FFF1000 00000000 00000000 00000008 r 6030.10 Want "MXBR RM +NZ RM" 3FFF1000 00000000 00000000 00000007 r 6040.10 Want "MXBR RM +NZ RFS" 3FFF1000 00000000 00000000 00000007 r 6050.10 Want "MXBR RM -NZ RNTE" BFFF1000 00000000 00000000 00000007 r 6060.10 Want "MXBR RM -NZ RZ" BFFF1000 00000000 00000000 00000007 r 6070.10 Want "MXBR RM -NZ RP" BFFF1000 00000000 00000000 00000007 r 6080.10 Want "MXBR RM -NZ RM" BFFF1000 00000000 00000000 00000008 r 6090.10 Want "MXBR RM -NZ RFS" BFFF1000 00000000 00000000 00000007 r 60A0.10 Want "MXBR RM +NA RNTE" 3FFF1000 00000000 00000000 0000000D r 60B0.10 Want "MXBR RM +NA RZ" 3FFF1000 00000000 00000000 0000000C r 60C0.10 Want "MXBR RM +NA RP" 3FFF1000 00000000 00000000 0000000D r 60D0.10 Want "MXBR RM +NA RM" 3FFF1000 00000000 00000000 0000000C r 60E0.10 Want "MXBR RM +NA RFS" 3FFF1000 00000000 00000000 0000000D r 60F0.10 Want "MXBR RM -NA RNTE" BFFF1000 00000000 00000000 0000000D r 6100.10 Want "MXBR RM -NA RZ" BFFF1000 00000000 00000000 0000000C r 6110.10 Want "MXBR RM -NA RP" BFFF1000 00000000 00000000 0000000C r 6120.10 Want "MXBR RM -NA RM" BFFF1000 00000000 00000000 0000000D r 6130.10 Want "MXBR RM -NA RFS" BFFF1000 00000000 00000000 0000000D r 6140.10 Want "MXBR RM +TZ RNTE" 3FFF1000 00000000 00000000 00000008 r 6150.10 Want "MXBR RM +TZ RZ" 3FFF1000 00000000 00000000 00000008 r 6160.10 Want "MXBR RM +TZ RP" 3FFF1000 00000000 00000000 00000009 r 6170.10 Want "MXBR RM +TZ RM" 3FFF1000 00000000 00000000 00000008 r 6180.10 Want "MXBR RM +TZ RFS" 3FFF1000 00000000 00000000 00000009 r 6190.10 Want "MXBR RM -TZ RNTE" BFFF1000 00000000 00000000 00000008 r 61A0.10 Want "MXBR RM -TZ RZ" BFFF1000 00000000 00000000 00000008 r 61B0.10 Want "MXBR RM -TZ RP" BFFF1000 00000000 00000000 00000008 r 61C0.10 Want "MXBR RM -TZ RM" BFFF1000 00000000 00000000 00000009 r 61D0.10 Want "MXBR RM -TZ RFS" BFFF1000 00000000 00000000 00000009 r 61E0.10 Want "MXBR RM +TA RNTE" 3FFF1000 00000000 00000000 0000001A r 61F0.10 Want "MXBR RM +TA RZ" 3FFF1000 00000000 00000000 00000019 r 6200.10 Want "MXBR RM +TA RP" 3FFF1000 00000000 00000000 0000001A r 6210.10 Want "MXBR RM +TA RM" 3FFF1000 00000000 00000000 00000019 r 6220.10 Want "MXBR RM +TA RFS" 3FFF1000 00000000 00000000 00000019 r 6230.10 Want "MXBR RM -TA RNTE" BFFF1000 00000000 00000000 0000001A r 6240.10 Want "MXBR RM -TA RZ" BFFF1000 00000000 00000000 00000019 r 6250.10 Want "MXBR RM -TA RP" BFFF1000 00000000 00000000 00000019 r 6260.10 Want "MXBR RM -TA RM" BFFF1000 00000000 00000000 0000001A r 6270.10 Want "MXBR RM -TA RFS" BFFF1000 00000000 00000000 00000019 # Extended BFP rounding mode test results - FPCR contents Compare r 6500.10 Want "MXBR RM +NZ RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 6510.4 Want "MXBR RM +NZ RFS FPCR" 00080007 r 6520.10 Want "MXBR RM -NZ RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 6530.4 Want "MXBR RM -NZ RFS FPCR" 00080007 r 6540.10 Want "MXBR RM +NA RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 6550.4 Want "MXBR RM +NA RFS FPCR" 00080007 r 6560.10 Want "MXBR RM -NA RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 6570.4 Want "MXBR RM -NA RFS FPCR" 00080007 r 6580.10 Want "MXBR RM +TZ RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 6590.4 Want "MXBR RM +TZ RFS FPCR" 00080007 r 65A0.10 Want "MXBR RM -TZ RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 65B0.4 Want "MXBR RM -TZ RFS FPCR" 00080007 r 65C0.10 Want "MXBR RM +TA RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 65D0.4 Want "MXBR RM +TA RFS FPCR" 00080007 r 65E0.10 Want "MXBR RM -TA RNTE, RZ,RP,RM FPCR" 00080000 00080001 00080002 00080003 r 65F0.4 Want "MXBR RM -TA RFS FPCR" 00080007 Done
532d648c4bd16978cd01dc0b0a1145907c95567c	449d555969bfd7befe906877abab098c6e63a0e8	/1862/CH23/EX23.9/C23P9.sce	b441ab8c40049d49cc5afacf5666719465667ca4	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	3,089	sce	C23P9.sce	clear clc //to find work done on the system //to find heat added to the system //to find change in internal energy of the system //Given: //refer to figure 23-21 from page no. 534 //number of moles n = 0.75//in mol //pressures at corresponding points PA = 3.2e3//in Pa PB = 1.2e3//in Pa //volume at corresponding point VA = 0.21//in m^3 //molar gas constant R = 8.31//in J/mol.K //value of constants Cv = 20.8//in J/mol.K Cp = 29.1//in J/mol.K //Solution: //applying laws of thermodynamics //using ideal gas law //temperature at A TA = (PAVA)/(nR)//in K ////temperature at B TB = (PBVA)/(nR)//in K //since VA=VB //volume at C VC = (nRTA)/(PB)//in m^3 //since TC = TA and PC = PB //during process A-B //applying constant volume relationship //heat added to the system //redefining TA AND TB TA = 108//in K TB = 40//in K Q1 = nCv(TB-TA)//in J //work done on the system W1 = 0//in J //change in internal energy of the system delta_Eint1 = Q1+W1//in J //during process B-C //applying constant pressure relationship //heat added to the system Q2 = nCp(TA-TB)//in J //since TC = TA //work done on the system W2 = -PB(VC-VA)//in J //since VB = VA //change in internal energy of the system delta_Eint2 = Q2+W2//in J //during process C-A //applying isothermal relationship //work done on the system W3 = -nRTA(log(VA/VC))//in J //change in internal energy of the system delta_Eint3 = 0//in J //heat added to the system Q3 = delta_Eint3-W3 //in J //delta_Eint1 = nearfloat("succ",-1061) //Q2 = nearfloat("succ",1480) //delta_Eint2 = nearfloat("succ",1060) //W3 = nearfloat("succ",660) //Q3 = nearfloat("succ",-661) //totol work done during process W = W1+W2+W3//in J //total change in internal energy during process delta_Eint = delta_Eint1+delta_Eint2+delta_Eint3//in J TA = round(TA) //value of Q2,delta_Eint2,delta_E slightly varies than book.But answer by scilab is same as that of calculator answer printf ("\n\n Temperature at A TA = \n\n %3i K" ,TA); printf ("\n\n Temperature at B TB = \n\n %3i K" ,TB); printf ("\n\n Volume at C VC = \n\n %.2f m^3" ,VC); printf ("\n\n During process A-B"); printf ("\n\n Heat added to the system Q1 = \n\n %4i J" ,Q1); printf ("\n\n Work done on the system W1 = \n\n %3i J" ,W1); printf ("\n\n Change in internal energy of the system delta_Eint1 = \n\n %4i J" ,delta_Eint1); printf ("\n\n During process B-C"); printf ("\n\n Heat added to the system Q2 = \n\n %4i J" ,Q2); printf ("\n\n Work done on the system W2 = \n\n %3i J" ,W2); printf ("\n\n Change in internal energy of the system delta_Eint2 = \n\n %4i J" ,delta_Eint2); printf ("\n\n During process C-A"); printf ("\n\n Heat added to the system Q3 = \n\n %4i J" ,Q3); printf ("\n\n Work done on the system W3 = \n\n %3i J" ,W3); printf ("\n\n Change in internal energy of the system delta_Eint3 = \n\n %4i J" ,delta_Eint3); printf ("\n\n Totol work done during process W = \n\n %3i J" ,W); printf ("\n\n Total change in internal energy during process delta_Eint = \n\n %4i J" ,delta_Eint);
1c1bacb56f727ea9d80c4e14a8eebba701ef7a56	449d555969bfd7befe906877abab098c6e63a0e8	/61/CH2/EX2.2.a/ex2_2a.sce	9e48e7e81ebdaa8bc1a3cdafaf0ec22e855eea10	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	929	sce	ex2_2a.sce	//Example-2.2(a) //let V_in=5sin(2%pif.t) be input wave ,hence frequency=1Hz f=1; V_p_in=5; V_pout=V_p_in-0.7;; disp(V_pout,'half wave rectifier output in volts') t_d=(asin(0.7/V_p_in))/(2%pif) //t_d is the time till which diode will be reverse biased ie, till it reaches knee voltage T=1/f; clf(); //let n be double the number of cycles of output shown in graph for n=0:1:8 t=T.n/2:0.0005:T.(n+1)/2 //time for each half cycle if modulo(n,2)==0 then //positive half cycle, diode is forward biased V_in=V_p_insin(2%pif.t) Vout=V_in-0.7 //0.7 is knee voltage of diode a=bool2s(Vout>0) //replace elements of Vout by 0 till input is 0.7 y=a.*Vout else //negative half cycle, diode is reverse biased [p,q]=size(t); y=zeros(p,q); end plot(t,y) end xtitle('half wave rectifier output')
598c094d45bdf68a43b44b3634b288e839e1e265	449d555969bfd7befe906877abab098c6e63a0e8	/668/CH8/EX8.5.1/eg8_5_1.sce	85985ecadedc0038bd19a396ffa7c14bc7e3c256	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	510	sce	eg8_5_1.sce	phiB = 0.9; Nd = 10^18; dEc = 0.24; eps0 = 8.8410^-14; //in F/m epsb = 12.2eps0; ds = 3010^-8; d = 35010^-8; VG1 = 0; VG2 = -0.5; q = 1.610^-19; Vp2 = qNd(d-ds)^2/epsb; disp(Vp2,"The parameter Vp2 (in V) of this structure = ") Voff = phiB - Vp2 - 0.24; disp(Voff,"threshold voltage (in V)") Ns1 = -epsbVoff/q/d; Ns2 = epsb*(VG2-Voff)/q/d; disp(Ns1,"The 2DEG carrier concentration (in per sqaure cm) at 0 V = ") disp(Ns2,"The 2DEG carrier concentration (in per sqaure cm) at -0.5 V = ")
bdb6e411f24ebdded2081b9e6017ad4538aaa949	449d555969bfd7befe906877abab098c6e63a0e8	/2411/CH7/EX7.6/Ex7_6.sce	899229b02c2ddf6d8a3d4c2a457874d23d1f5d95	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,398	sce	Ex7_6.sce	// Scilab Code Ex7.6: Page-378 (2008) clc; clear; // For first set (3, 2, 2) m = 3; n = 2; p = 2; // Coefficients of intercepts along three axes m_inv = 1/m; // Reciprocate the first coefficient n_inv = 1/n; // Reciprocate the second coefficient p_inv = 1/p; // Reciprocate the third coefficient mul_fact = double(lcm(int32([m,n,p]))); // Find l.c.m. of m,n and p m1 = m_invmul_fact; // Clear the first fraction m2 = n_invmul_fact; // Clear the second fraction m3 = p_invmul_fact; // Clear the third fraction printf("\nThe plane (%d %d %d) has intercepts %da, %db and %dc on the three axes.", m, n, p, m1, m2, m3); // For second set (1 1 1) m = 1; n = 1; p = 1; // Coefficients of intercepts along three axes m_inv = 1/m; // Reciprocate the first coefficient n_inv = 1/n; // Reciprocate the second coefficient p_inv = 1/p; // Reciprocate the third coefficient mul_fact = double(lcm(int32([m,n,p]))); // Find l.c.m. of m,n and p m1 = m_invmul_fact; // Clear the first fraction m2 = n_invmul_fact; // Clear the second fraction m3 = p_invmul_fact; // Clear the third fraction printf("\nThe plane (%d %d %d) has intercepts a, b and c on the three axes.", m, n, p); // Result // The plane (3 2 2) has intercepts 2a, 3b and 3c on the three axes. // The plane (1 1 1) has intercepts a, b and c on the three axes.
adb9292e869b57b55e977001963489ecb4b9bcb5	1573c4954e822b3538692bce853eb35e55f1bb3b	/DSP Functions/zpkrateup/test_3.sce	d3af8ae81a7e5aeea232c13fe32eebbd02785f1c	[]	no_license	shreniknambiar/FOSSEE-DSP-Toolbox	1f498499c1bb18b626b77ff037905e51eee9b601	aec8e1cea8d49e75686743bb5b7d814d3ca38801	refs/heads/master	2020-12-10T03:28:37.484363	2017-06-27T17:47:15	2017-06-27T17:47:15	95,582,974	1	0	null	null	null	null	UTF-8	Scilab	false	false	263	sce	test_3.sce	// Test # 3 : Checking the type for Input Argument #3 exec('./zpkrateup.sci',-1); [z,p,k,n,d]=zpkrateup(0.4,0.8,[5,0.4],6); // !--error 10000 //K must be a scalar //at line 49 of function zpkrateup called by : //[z,p,k,n,d]=zpkrateup(0.4,0.8,[5,0.4],6);
c99b5eaeab7babc056baa5ccb7b386160a5c2dde	27be2dd7284eb8d71ea19e6b077993d7ff6afd16	/resret.sci	3bfacd717076ff86720cba68a8dbd82bcac0025e	[]	no_license	mtxslv/numericalcomputation	3b0ec7d1183c03c91c145de0fb1db9fff0a75e61	15ce639e5e370fb21fb1ce9878004270ee814e73	refs/heads/master	2020-03-26T06:10:14.116677	2019-11-14T11:41:38	2019-11-14T11:41:38	144,592,787	0	0	null	null	null	null	UTF-8	Scilab	false	false	540	sci	resret.sci	// algorithm for retroative resolution // inpout: Coeficient matrix (superior triangular) A and vector b // output: x vector that solves the system // code based on Numerical Computation class notes. // Huge thanks to Professors Raissa Tavares, Rex Medeiros, // Marcelo Nogueira and Marconi Rodrigues. function x =res_ret(A, b) [linhas, colunas] = size(A) for i = linhas:-1:1 soma = 0; for j = i+1:colunas soma = soma +x(j)*A(i,j); end x(i) = (b(i)- soma)/A(i,i); end endfunction
233cc15b735017a73541db56a79ed52d2d5701e6	449d555969bfd7befe906877abab098c6e63a0e8	/2642/CH2/EX2.8/Ex2_8.sce	bb52067bf0b0ef92d41610e9ec3244ab32cdb98a	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,300	sce	Ex2_8.sce	// FUNDAMENTALS OF ELECTICAL MACHINES // M.A.SALAM // NAROSA PUBLISHING HOUSE // SECOND EDITION // Chapter 2 : BESICS OF MAGNETIC CIRCUITS // Example : 2.8 clc;clear; // clears the console and command history // Given data N = 450 // number of turns wound on left side of limb A = 4 // cross sectional area in m^2 I = 5 // current through coil in A fulx = 3 // flux in right limb Wb myu_r = 500 // relative permiability magnetic material l_1 = 0.12 l_2 = 0.24 phi2 = 3 // caclulations // we have relation // phi1rm1 = phi2rm2 // phi1l_1/uA = pi2l_2/uA phi1 = phi2l_2/l_1 // flux on left side in Wb flux = phi1+phi2 // total flux in Wb B_1 = flux/A // flux density in the left limb H_1 = B_1/(4%pi10^-7myu_r) // magnetic flux in At/m MMF_1 = H_1l_2 // magnetomotive force in At B_2 = phi2/A // flux density in the right limb H_2 = B_2/(4%pi10^-7myu_r) // magnetic flux in At/m MMF_2 = H_2*l_2 // magnetomotive force in At MMF_t = MMF_1+MMF_2 // total magnetomotive force in At I = MMF_t/N // current in A // display the result disp("Example 2.8 solution"); printf(" \n Current\n I= %.2f A \n", I);
97721f30807f41e74d9dbbbfede2b19ae3855c4f	244971ae8af51184d278cdc2be1c80775413adae	/SSSeDecoder.sci	8c239955440b487c5211791944a8c3552a3444eb	[]	no_license	MSCA-SIMFREE/748767	5879f1f139b608c7cd2f1bd62325b281c9c1e7d1	4726206e514f1e47e939e73b9339c056057866db	refs/heads/master	2020-12-27T15:21:13.646362	2020-02-03T11:40:00	2020-02-03T11:40:00	237,951,088	1	0	null	null	null	null	UTF-8	Scilab	false	false	2,301	sci	SSSeDecoder.sci	// The code was developed under Horizon2020 Framework Programme // Project: 748767 — SIMFREE function [BER,BERt,ydec,serr]=SSSeDecoder(x,s,M,QorP?) // PSK/QAM decoder // // Calling Sequence // [BER,BERt,ydec,serr]=SSSeDecoder(x,s,M,QorP?) // // Parameters // x : Electrical Input // s : Source Symbols // M : Number of constelation points // QorP? : If QorP?=Q (default) M-QAM decoder, else M-PSK decoder. // BER : Bit Error Rate obtained by counting errors // BERt : Bit Error Rate calculated from Signal to Noise Ratio // ydec : Error Vector Magnitude // serr : numbers of errored symbols // // Description // Decodes input stream of symbols and calculate BER. // global MNS MNT MSR; [lhs,rhs] = argn(0); if rhs < 2 then error("Expect at least one argument"); end select rhs case 2 then M =4; QorP? = "QAM"; case 3 then QorP? = "QAM"; end L = length(s); k = floor(L/M); b = log2(M); y = complex(zeros(k,M)); [c0,s0] = SSSeCoder((0:M-1)',M, QorP?); for m = 1:M t = find(s == s0(m)); y(1:k,m) = x(t); end y = y'; c = complex(mean(real(y),'c'),mean(imag(y),'c')); P = sqrt(variance(c, "", %nan)); c = c/P; cFm = atan(imag(c),real(c)); y = y/P; yFm = atan(imag(y),real(y)); c0Fm = atan(imag(c0),real(c0)); dFm = c0Fm-cFm; dFm = repmat(dFm,1,k); ydec = abs(y).exp(%i(yFm+dFm));//method 1 dym = c0 - c; dym = repmat(dym,1,k); ydec = y + dym;//method 2 sout = zeros(M,k); for m = 1:M for j = 1:k [n,i] = min(abs(ydec(m,j)-c0)); sout(m,j) = i-1; end end s0=repmat((0:M-1)',1,k) serr = (s0 ~= sout); nobe = sum(serr); BER = nobe/(Lb); c0=repmat(c0,1,k); dn = ydec-c0; Noise = variance(real(dn), "", %nan)+variance(imag(dn), "", %nan); Power = variance(real(c0), "", %nan)+variance(imag(c0), "", %nan); SNR = Power/Noise; if part(QorP?,1)=="Q" then e = erfc(sqrt(3SNR/2/(M-1))); BERt = 2/b(1-1/sqrt(M))e(1-1/2(1-1/sqrt(M))e); else BERt = erfc(sqrt(SNR)*sin(%pi/M))/b; end ydec=matrix(ydec,L,1); serr=matrix(serr,L,1); endfunction
bc100a918cb94b84dd984c74ace915adf327a43f	fdc5047b7bf8122bad1e621df236b0481226c36e	/exemplos/xls-link-0.5.0-src/macros/xls_SetData.sci	440ec34b9979126cd032fa5532419edf5cc8aacc	[]	no_license	jpbevila/virtualHartSci	aea3c6ba23d054670eb193f441ea7de982b531cc	a3f5be6041d230bd9f0fd67e5d7efa71f41cfca5	refs/heads/main	2023-07-26T23:05:28.044194	2021-09-09T11:50:59	2021-09-09T11:50:59	null	0	0	null	null	null	null	UTF-8	Scilab	false	false	1,674	sci	xls_SetData.sci	// Scilab ( http://www.scilab.org/ ) - This file is part of Scilab // Copyright (C) 2013 - Scilab Enterprises - Antoine ELIAS // // This file must be used under the terms of the CeCILL. // This source file is licensed as described in the file COPYING, which // you should have received as part of this distribution. The terms // are also available at // http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt function ret = xls_SetData(varargin) if size(varargin) == 1 then data = varargin(1); elseif size(varargin) == 2 then dataRange = varargin(1); data = varargin(2); if xls_SelectRange(dataRange) == %f then error(999, msprintf(_("%s: Unable to select range ''%s''"), "xls_SetData", dataRange)); end end //get range dimension to check with input data destRows = xls_getProperty("range", "rows", "count"); destCols = xls_getProperty("range", "columns", "count"); srcRows = size(data, "r"); srcCols = size(data, "c"); if destRows == 1 & destCols == 1 & srcRows * srcCols <> 1 //must extend range limit to data size ret = xls_ExtendRange(srcRows - 1, srcCols - 1); if ret == %f then error(999, msprintf(_("%s: Unable to extend range"), "xls_SetData")); end elseif srcRows == 1 & srcCols == 1 then data(1:destRows, 1:destCols) = data; elseif srcRows <> destRows \| srcCols <> destCols then error(999, msprintf(_("%s: Incompatible dimensions"), "xls_SetData")); end ret = xls_setProperty("Range", "Value", data); endfunction // =============================================================================
ecb32c0c5c27fa1d313ec486fff3f8eef8dfe831	449d555969bfd7befe906877abab098c6e63a0e8	/2084/CH3/EX3.9/3_9.sce	0776c4cc7f14d073a10a79ba59d12ad199a83eff	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	494	sce	3_9.sce	//developed in windows XP operating system 32bit //platform Scilab 5.4.1 clc;clear; //example 3.9 //calculation of horizontal range of the projectile //given data u=12//initial velocity(in m/s) of the projectile theta=45//angle(in degree) made by the projectile with X axis g=10//gravitational acceleration(in m/s^2) //calculation h=(uusind(2*theta))/g;//formula for horizontal range of a projectile printf('the ball hits the field at %f m from the point of projection',h);
5b703e7407449166f3f0d9edbc99bbb55da0bbe3	7b040f1a7bbc570e36aab9b2ccf77a9e59d3e5c2	/Scilab/virtual/2dof_controller/dc/Z-trans/scilab/sumsq.sce	d24e79afff00e2d62428c31004925e9a40c033a2	[]	no_license	advait23/sbhs-manual	e2c380051117e3a36398bb5ad046781f7b379cb9	d65043acd98334c44a0f0dbf480473c4c4451834	refs/heads/master	2021-01-16T19:50:40.218314	2012-11-16T04:11:12	2012-11-16T04:11:12	null	0	0	null	null	null	null	UTF-8	Scilab	false	false	70	sce	sumsq.sce	// Updated(18-7-07) // 11.8 Y = tf([1 0],[1 -0.9],-1); covar_m(Y,1)
dd582507d8c4f48f0dddd5ee2ced601b05c64f29	449d555969bfd7befe906877abab098c6e63a0e8	/32/CH12/EX12.12/12_12.sce	be6b3628e9bbad8d08659bdd0a5c17671d1d8f77	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	905	sce	12_12.sce	//pathname=get_absolute_file_path('12.12.sce') //filename=pathname+filesep()+'12.12-data.sci' //exec(filename) //Pressure at which steam is supplied(in kPa): p1=1.510^3 //Pressure at exhaust(in kPa): p4=25 //Power output(in kW): P=250 //Expansion ratio: r=12 //Diameter of LP cylinder(in m): d=0.40 //Stroke length(in m): L=0.60 //Diagram factor: d1=0.75 //Expansion ratio in HP cylinder: r1=2.5 //Area of cylinder(in m^2): A=%pid^2/4 //Hypothetical mep(in kPa): mep=p1/r(1+log(r))-p4 //Actual mep(in kPa): mepa=mepd1 //Rpm of engine: N=P/(mepaLA2)60 printf("\n RESULT \n") printf("\nSpeed of engine = %d rpm",N) //Volume of LP cylinder(in m^3): V3=AL V4=V3 //Cut-off volume in HP cylinder(in m^3): Vc=V4/r //Total volume in HP cylinder(in m^3): Vt=Vcr1 //Diameter of HP cylinder(in m): D=sqrt(Vt4/(L%pi)) printf("\nDiameter of HP cylinder = %f cm",D*100)
da2cee62090b590c853bb4e9b90109ec50ad3ef9	449d555969bfd7befe906877abab098c6e63a0e8	/3311/CH6/EX6.27/Ex6_27.sce	43c30f657edfe97d76daf4153e7d22a82020661c	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	452	sce	Ex6_27.sce	// chapter 6 // example 6.27 // fig. Ex. 6.27 // Find the mean voltage at the load // page-371-372 clear; clc; // given E_line=415; // in V (line voltgae) Beta=18; // in degree (advance angle) u=3.8; // in degree (overlap angle) // calculate Em=E_linesqrt(2/3); // calclation of peak voltage Edc=(3sqrt(3)/(4%pi))Em*(cosd(Beta)+cosd(Beta-u)); // calclation of mean voltage at the load printf("\nThe mean voltage at the load is \t Edc=%.1f V",Edc);
3c608f1f0831485b674dd7241faf215d3e64827d	449d555969bfd7befe906877abab098c6e63a0e8	/3886/CH14/EX14.8/14_8.sce	2d76b882b7e853af99af5104a5e5b216fcfd96f5	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	827	sce	14_8.sce	//ship B approaching port //refer fig. 14.15 and 14.16 //Considering west as x-axis and south as y-axis vAx=24cosd(30) vAy=24sind(30) vBx=-18 vBy=0 //Let relative velocity of A w.r.t. B be vr at an angle alpha to western direction vrx=vAx-vBx //kmph vry=vAy-vBy v=sqrt((vrx)^2+(vry)^2) //kmph alpha=atand(vry/vrx) //degree //Holding B stationary and allowing A to move with relative velovity,BC is given by BC=60sind(alpha) //km //from triangle BCD DC=sqrt((25^2)+(17.735)^2) //km CE=DC //km AC=60cosd(alpha) //km AD=AC-DC //km AE=AC+CE //km //Time taken to reach D t1=3969960/40899 //min //time taken to reach E t2=7493960/40599 //min printf("\nThe two ships can start exchanging signals %.2f min after ship A leaves the port and continue to do so for %.2f min",t1,t2-t1)
fd728ac956757b65a0cc7df4f6c7f78c9c09160b	449d555969bfd7befe906877abab098c6e63a0e8	/215/CH17/EX17.8/ex17_8.sce	245234f71661881a177ec41679d451d524513e63	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	978	sce	ex17_8.sce	clc //Example 17.8 Vs = poly(0,'Vs') disp('Given') disp('Z=[10^3 10;-10^6 10^4 ]') z11=10^3 ; z12=10;z21=-10^6;z22=10^4 //Using the given matrix we can write the mesh equations as disp('V1=10^3I1+10I2') disp('V2=-10^6I1+10^4I2') //The input to an two port network is an ideal sinusoidal voltage source in series with 500 ohm //Mathematically disp('The characterizing equations are') disp('Vs=500I1+V1') //The output to an two port network is a 10k ohm resistor //Mathematically disp('V2=-10^4I2') Zg=500; //Expressing V1,V2,I1,I2 in terms of Vs V1=0.75Vs I1=Vs/2000 V2=-250Vs I2=Vs/40 disp('Voltage gain Gv=V2/V1') Gv=V2/V1 disp(Gv,'Gv=') disp('Current gain Gi=I2/I1') Gi=I2/I1 disp(Gi,'Gi=') disp('Power gain Gp=Real[-0.5V2I2]/Real[0..5V1I1]') Gp=(-0.5V2I2)/(0.5V1I1) disp(Gp,'Gp=') disp('Input impedance is Zin=V1/I1') Zin=V1/I1 disp('Output impedance is Zout=z22-((z12z21)/(z11+Zg))') Zout=z22-((z12z21)/(z11+Zg)) printf("\n Zout= %3.2f kohm",Zout*10^-3)
10a1c2c634f38d9e777d1050a0d75b1b9e02e3e5	449d555969bfd7befe906877abab098c6e63a0e8	/3769/CH10/EX10.2/Ex10_2.sce	a821d1694aba4b6b86cc3f185afb82353468f282	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	246	sce	Ex10_2.sce	clear //Given F=14.410-4 //N d=0.05 //m F1=1.610*-4 //Calculation // u=4%pi10-7 m=sqrt((F4%pid*2)/u) d1=1/(sqrt((F14%pi)/(um**2))) //Result printf("\n Distance is %0.3f m",d1)
edd652883da682274bf994a4d85a0155190ff3ea	449d555969bfd7befe906877abab098c6e63a0e8	/944/CH5/EX5.26/example5_26_TACC.sce	13204e17cb6d1eda9bc83d8b3324c4651e900c7e	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	574	sce	example5_26_TACC.sce	//example 5.26 clear; clc; //Given: T=169.25;//Boiling point[K] R=8.314;//Universal gas constant[J/K/mol] disp("dlnP/dT=He/RT^2"); disp("dlnP/dT=(2.303834.13/T^2)+(1.75/T)-(2.308.37510^-3)"); disp("Therefore using these two equations we calculate the He(enthalpy) of ethylene"); //To find the Enthalpy of vaporization of ethylene x=(2.303834.13/T^2)+(1.75/T)-(2.308.37510^-3);//it is dlnP/dT He=R0.001T^2x;//Enthalpy of vaporization[J/mol] printf("\n\nThe Enthalpy of vaporization of ethylene at its boiling point is %f KJ/mol",He);
29e2fb949c5d26a3db51356855eb0caf8e062703	449d555969bfd7befe906877abab098c6e63a0e8	/1775/CH1/EX1.5/Chapter1_Example5.sce	4891b92d172963c1f64bdafa3a4d61433c89ffe8	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,749	sce	Chapter1_Example5.sce	//Chapter-1, Illustration 5, Page 17 //Title: Fuels and Combustion //============================================================================= clc clear //INPUT DATA C=0.624;//Percentage composition of Carbon H=0.042;//Percentage composition of Hydrogen O=0.045;//Percentage composition of Oxygen CO2=0.13;//Volumetric composition of CO2 CO=0.003;//Volumetric composition of CO O2=0.06;//Volumetric composition of Oxygen N2=0.807;//Volumetric composition of Nitrogen M1=44;//Molecular mass of CO2 M2=28;//Molecular mass of CO M3=32;//Molecular mass of O2 M4=28;//Molecular mass of N2 mw=0.378;//Mass of H2O in kg //CALCULATIONS m=(11.5C)+(34.5(H-(O/8)));//Minimum air required in kg c1=CO2M1;//Proportional mass of CO2 c2=COM2;//Proportional mass of CO c3=O2M3;//Proportional mass of O2 c4=N2M4;//Proportional mass of N2 c=c1+c2+c3+c4;//Total proportional mass of constituents m1=c1/c;//Mass of CO2 per kg of flue gas in kg m2=c2/c;//Mass of CO per kg of flue gas in kg m3=c3/c;//Mass of O2 per kg of flue gas in kg m4=c4/c;//Mass of N2 per kg of flue gas in kg d1=m1100;//Mass analysis of CO2 d2=m2100;//Mass analysis of CO d3=m3100;//Mass analysis of O2 d4=m4100;//Mass analysis of N2 mC=((3m1)/11)+((3m2)/7);//Mass of carbon in kg md=C/mC;//Mass of dry flue gas in kg mact=(md+mw)-(C+H+O);//Actual air supplied per kg of fuel in kg me=mact-m;//Mass of excess air per kg of fuel in kg //OUTPUT mprintf('Minimum air required to burn 1 kg of coal is %3.2f kg \n Mass of air actually supplied per kg of coal is %3.3f kg \n Amount of excess air supplied per kg of coal burnt is %3.3f kg',m,mact,me) //==============================END OF PROGRAM=================================
5a1d54a10dcf9101f35d595e08613ef60fd7f337	449d555969bfd7befe906877abab098c6e63a0e8	/605/CH6/EX6.7/6_7.sce	77b84a29f2e7688e237075a16543c852b382efdf	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	257	sce	6_7.sce	Rp=600 //ohm Rs=173.2 //ohm Q=sqrt(Rp/Rs-1) Xs=QRs Xp=Rp/Q printf("\nQ=%.4f\nXs=%.4f ohm\nXp=%.4f ohm\n",Q,Xs,Xp) Rp=173.2 //ohm Rs=50 //ohm Q=sqrt(Rp/Rs-1) Xs=QRs Xp=Rp/Q printf("\nQ=%.4f\nXs=%.4f ohm\nXp=%.4f ohm\n",Q,Xs,Xp)
38674f3c8ee807fc0c181f04368287e15022e2dd	449d555969bfd7befe906877abab098c6e63a0e8	/2465/CH4/EX4.19/Example_19.sce	ee777211a896d34e8aa149dc6e7193308b027465	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	343	sce	Example_19.sce	//Chapter-4,Example 19,Page 97 clc(); close(); T1= 300 //temperature in Kelvin T2= 310 //temperature in Kelvin Kp1=3.4910^-2 //equilibrium constant delta_H=-11200 R= 1.987 //gas constant //from Van't Hoff's Equation Kp2=Kp110^(delta_H((1/T1)-(1/T2))/(2.303R)) printf('the value of Kp2 = %.6f/atm ', Kp2)
c9e2143e2a223e4f18bcb9ac3203687e08e997eb	449d555969bfd7befe906877abab098c6e63a0e8	/3020/CH16/EX16.2/ex16_2.sce	a0a1452f16e2d7c5ba96404fe8a3cafe2cb55464	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	426	sce	ex16_2.sce	clc; clear all; m = 9.11e-31; // Mass of electron in Kg e = 1.6e-19; // charge of an electron r = 1.85e-10; // Radius of sodium atom in meters tr = 3e-14; //Mean free time of sodium in meters/sec a = (4r)/sqrt(3); // Lattice constant of a BCC structure ne = 2/(a^3); rho = (m)/(nee^2*tr); // Resistivity of copper disp('Ohm.m',rho,'Resistivity of copper is') //Slight variation in answer as compared to textbook
3ea245bb7057b0e1a0e6f6e785bf8d1810ce4ad2	449d555969bfd7befe906877abab098c6e63a0e8	/3446/CH17/EX17.12/Ex17_12.sce	7b68e4ab19536ca1fe19d6663c7ae02d37204931	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	772	sce	Ex17_12.sce	// Exa 17.12 // To calculate allowable throughput of reverse link in cdma 2000. clc; clear all; Ec_Nt=-23;//in dB DRC=-1.5;//DRC gain with respect to pilot in dB Tg=3.75; // Trafﬁc channel gain with respect to pilot in dB B=0.85;//Interference factor due to other cells //solution Mmax=(1/(1+10^(DRC/10)+10^(Tg/10)))(1/((10^(Ec_Nt/10)(1+B)))); //The sector loading can be expressed as a fraction of the pole capacity Mmax. This is typically 70% of the pole capacity. M_allow=int(0.7Mmax); //From table 17.2 we get Traffic channel rate as 9.6kbps since we are given traffic channel gain with respect to pilot as 3.75 dB Ri=9.6; //in kbps(see table 17.2) Tput=RiM_allow; printf(' Allowable reverse link throughput is %d kbps \n ',round(Tput));
32ac4d23fcf7580a24464dd051811e920c3bbad0	449d555969bfd7befe906877abab098c6e63a0e8	/1970/CH1/EX1.12/Ch01Exa12.sce	6c2e79df47cbba89a5d45a8c8df502cca16abdff	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	515	sce	Ch01Exa12.sce	// Scilab code Exa1.12 : : Page 55 (2011) clc; clear; M_n = 1.008665931.49; // Mass of neutron, MeV M_p = 1.007825931.49; // Mass of proton, MeV M_He = 2M_p+2M_n-28; // Mass of He-4 nucleus, MeV M_H = M_p+M_n-2.2; // Mass of H-2 nucleus, MeV d_E = 2*M_H-M_He; // Energy released during fusion reaction, MeV printf("\nEnergy released during fusion reaction : %4.1f MeV ",d_E); // Result // Energy released during fusion reaction : 23.6 MeV
e41793265c735c5809adab05e00cc8ac6020c061	28a8d47c4d79b231f8bebc28925792a290f67e9f	/html/others/sql/test_gen.tst	44b7ef16a52e269208de4b03e92652da8080959b	[]	no_license	ZVlad1980/doo	a1fe7d18ccfd0acf6ced7dbb33927c86a925aae8	e81be8f524b78b9a6ec06b7f83a8c13354fc6412	refs/heads/master	2021-08-17T02:03:54.553822	2017-11-20T17:21:03	2017-11-20T17:21:03	111,440,129	0	0	null	null	null	null	UTF-8	Scilab	false	false	1,700	tst	test_gen.tst	PL/SQL Developer Test script 3.0 44 declare -- l_package_name varchar2(40) := 'xxsl_dc_db_html_pkg'; o xxweb.xxweb_api := xxweb.xxweb_api(p_src_owner => 'xxsl', p_src_name => 'xxsl_dc_db_hdr_type', p_package_name => 'xxsl_dc_db_html_pkg'); -- h xxweb.xxweb_api := xxweb.xxweb_api(p_src_owner => null, p_src_name => null, p_package_name => l_package_name); f xxweb.xxweb_api := xxweb.xxweb_api(); b xxweb.xxweb_api := xxweb.xxweb_api(); t xxweb.xxweb_api := xxweb.xxweb_api(); -- l_pkg_name varchar2(30); l_package clob; l_html clob; begin -- h := h.h('input', h.attrs(type => 'text', name => 'deal_number', value => h.G('deal'))); --dbms_session.reset_package; /h := h.h('head', h.h('meta', h.attr('http-equiv','"Content-Type"').attr('content','"text/html; charset=ISO-8859-1"') ). h('title', content => 'title'). h('link', h.attr('rel','"stylesheet"'), href => 'link'). h('style', type => 'text/css', content => 'style'). h('script', type => 'text/javascript', content => 'script') );/ l_package := h.generate; execute immediate 'begin :1 := xxweb.'\|\|l_package_name\|\|'.call; end;' using out l_html; dbms_output.put_line(l_html); end; 0 2 substr(l_value,1,1) length(p_content)
bed0edfdff39e0193fb034cc4193f9d76906aab8	449d555969bfd7befe906877abab098c6e63a0e8	/797/CH3/EX3.12.e/3_12_example.sci	1168af4cf57a236b11341f4920539bd62eaa36ac	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	453	sci	3_12_example.sci	//Example 3-12 Overflow From Water Tank During Acceleration h = 80 //height of fish tank [cm] b_1 = 2 //one of the cross-sectional dimension of fish tank [m] b_2 = 0.6 //other cross-sectional dimension of fish tank [m] V_0 = 0 //initial velocity of truck [km/h] V_1 = 90 //velocity of truck after 10 s [km/h] t = 10 //duration of acceleration of truck [s] g = 9.81 //gravitaional acceleration [m/s^2] a_z = 0 //other acceleration in Z direction [m/s^2]
ac40f24644a2596dfdf01499c031ad6f16e43c3a	df09462d6db7a3e6fb08a8e06a0237bcac4230e9	/main.sce	ae7370fc11c98d331cda079ba5d13b92c42a07cd	[]	no_license	shubham2345/Library-Management-Sytem	bfbbe6906dbccfc4b519ec6b1c0fbf6e1c11177b	84f49f081ede2464db346dbc8b38b2fd73461d09	refs/heads/master	2020-12-31T07:10:25.030257	2017-03-29T11:44:20	2017-03-29T11:44:20	86,575,431	1	0	null	null	null	null	UTF-8	Scilab	false	false	3,017	sce	main.sce	// LIBRARY MANAGEMENT SYSTEM //MADE BY AYUSH DIWAN, VARUN JAIN, SHAURYA MILIND // LOOP FOR REVISITING THE LIBRARY loop=1; while(loop==1) clc; //MAIN MENU OF THE LIBRARY disp(" Welcome To Library") disp(' ') disp(' LIBRARY MENU') disp(' 1-BOOK FINDER') disp(' 2-BOOK ISSUE') disp(' 3-BOOK DEPOSIT') disp(' ') // ASKING THE USER FOR CHOICE, AS WHAT TO DO NEXT i=input(' ENTER YOUR CHOICE : ') select i //BOOK FINDER MENU case 1 clc; disp(" WELCOME TO LIBRARY") disp(' ') disp(" CHOOSE BOOK CATEGORY") disp(' 1.ENCYCLOPEDIA') disp(' 2.NOVELS') disp(' 3.MANAGEMENT') disp(' 4.ENGINEERING') disp(' 5.JOURNALS') disp(' 6.TECHNOLOGY') disp(' ') n=input(' ENTER YOUR CHOICE : ',"string"); select n //DISPLAYING THE FLOOR OF THE BOOK case "ENCYCLOPEDIA" clc disp(" WELCOME TO LIBRARY") disp(' GO TO FLOOR 2') case "NOVELS" clc disp(" WELCOME TO LIBRARY") disp(' GO TO FLOOR 1') case "MANAGEMENT" clc disp(" WELCOME TO LIBRARY") disp(' GO TO FLOOR 3') case "ENGINEERING" clc disp(" WELCOME TO LIBRARY") disp(' GO TO FLOOR 4') case "JOURNALS" clc disp(" WELCOME TO LIBRARY") disp(' GO TO GROUND FLOOR') case "TECHNOLOGY" clc disp(" WELCOME TO LIBRARY") disp(' GO TO FLOOR 5') end //BOOK ISSUE MENU case 2 clc; disp(" WELCOME TO LIBRARY") disp(' ') disp(" BOOK ISSUE") disp(' ') //ASKING FOR THE BOOK AND USER DETAILS name=input('ENETR YOUR NAME: ',"string"); book=input('ENTER THE BOOK CODE: '); phone=input('ENTER YOUR CONTACT INFORMATION: '); clc; disp(" YOUR BOOK HAS BEEN ISSUED.") disp(' ') disp(' LIBRARY TARIFF IS AS BELOW : ') disp(' ') disp("THERE IS NO FINE FOR THE FIRST 15 DAYS") disp("Rs 1 PER DAY FOR THE NEXT 15 DAYS AFTER 15 DAYS") disp("Rs 2 PER DAY FOR THE NEXT 15 DAYS AFTER 30 DAYS") disp("RS 100 AFTER 45 DAYS") //BOOK DEPOSIT MENU case 3 clc; disp(" WELCOME TO LIBRARY") disp(' ') code=input(' ENETR BOOK CODE: '); clc; disp(" FINE DETAILS") disp(' ') disp(" 1-15: NO FINE") disp(" 16-30: Rs 1 Per Day") disp(" 31-45: Rs 2 Per Day") disp(" Above 45: PAY RS 100") disp(' ') //VARIABLE FOR STRING THE FINE y=0 //CAALCULATING THE FINE x=input("NUMBER OF DAYS THE BOOK HAS BEEN ISSUED: ") if x<=15 then y=0 elseif x>15 & x<=30 then y=(x-15)1 elseif x>30 & x<=45 then y=151+(x-30)*2 else y=100 end clc disp(' ') printf(" YOUR FINE IS Rs %d",y) end disp(' ') disp(' ') //ASKING THE USER TO REVISIT OR NOT? loop=input('Press 1 to Revisit the library : '); end clc;
b632eb9b3239c09601b7bba151d4ffde089af7d7	449d555969bfd7befe906877abab098c6e63a0e8	/2126/CH5/EX5.18/18.sce	ea85c96e300deb9a352a9818a2b19293d52ab741	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	974	sce	18.sce	clc clear //Input data T=300 //Temperature in K P=1.5 //Pressure in bar C_y=150 //Air velocity just inside the shock in m/s k=1.4 //Adiabatic constant R=287 //Specific gas constant in J/kg-K //Calculation ax=sqrt(kRT) //Velocity of sound before the shock in m/s Mx=sqrt(((C_y(k+1))/(2ax))+1) //Mach number before the shock My=0.79 ////Mach number after the shock from normal shock gas tables Cx=Mxax //Velocity of gas before the shock in m/s p1=1.775 //Stagnation pressure ratio after and before the shock from gas tables @My Py=Pp1 //Pressure just after the shock in bar t1=1.1845 //Temperature ratio after and before the shock from gas tables @My Ty=Tt1 //Temperature ratio after the shock in K ay=sqrt(kRTy) //Velocity of sound after the shock in m/s Csh=Myay //Speed of the wave in m/s //Output printf('(A)Speed of the wave is %3.1f m/s\n (B)At rest condition:\n Pressure is %3.4f bar\n Temperature is %3.2f K',Csh,Py,Ty)
5518fb59e7373c4e061f9a5c0b17398e581b538f	449d555969bfd7befe906877abab098c6e63a0e8	/1004/CH11/EX11.1/Ch011Ex1.sci	8bd50c783c3630e5a092a3766513c274e40b96dd	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	534	sci	Ch011Ex1.sci	// Scilab code: Ex11.1 : Energy balance of a nuclear reaction: Pg: 229 (2008) mu = 931.5; // Energy equivalent of 1 amu, MeV M_D = 2.0141; // Mass of deuterium atom, amu M_He = 3.01603; // Mass of helium-3, amu mn = 1.008665; // Mass of neutron, amu MD = (2M_D - M_He - mn); // Mass defect of the reaction, amu Q = MDmu; // Energy balance of the nuclear reaction, MeV printf("\nThe energy balance of the nuclear reaction = %4.2f MeV", Q); // Result // The energy balance of the nuclear reaction = 3.26 MeV
75c8607793ec9a140c80976f7d07bb8ac1ed2fc7	449ae14862d9803277babe446f7f030fe9b0f15e	/p2/tags/RELEASE_0_7/tests/ol_parser_tests/c-style-comments-multiline.tst	5b949b31ec8e8aa57254e3b2a48cfbb014c39697	[]	no_license	declarativitydotnet/declarativity	863ea58bed1c0efc57573d75b73e0006eca3f280	75096fb78264c517cd00e8486467c010038434cb	refs/heads/master	2021-01-10T11:58:00.700630	2015-12-08T17:44:39	2015-12-08T17:44:39	47,607,520	9	3	null	null	null	null	UTF-8	Scilab	false	false	90	tst	c-style-comments-multiline.tst	/* Some comments this time. However, the output should still be blank. */ OUTPUT:
c57f76185bf8c811d17cb05f284cd60653003aab	676ffceabdfe022b6381807def2ea401302430ac	/library/Demos/StdRegions/Tests/StdProject1D_Seg_Mod_P6_Q7.tst	9eea693908455457947e11d3f6b5b20bb8350603	[ "MIT" ]	permissive	mathLab/ITHACA-SEM	3adf7a49567040398d758f4ee258276fee80065e	065a269e3f18f2fc9d9f4abd9d47abba14d0933b	refs/heads/master	2022-07-06T23:42:51.869689	2022-06-21T13:27:18	2022-06-21T13:27:18	136,485,665	10	5	MIT	2019-05-15T08:31:40	2018-06-07T14:01:54	Makefile	UTF-8	Scilab	false	false	484	tst	StdProject1D_Seg_Mod_P6_Q7.tst	<?xml version="1.0" encoding="utf-8"?> <test> <description>StdProject1D Segment Modified basis P=6 Q=7</description> <executable>StdProject</executable> <parameters>-s segment -b Modified_A -o 6 -p 7</parameters> <metrics> <metric type="L2" id="1"> <value tolerance="1e-12">5.07435e-15</value> </metric> <metric type="Linf" id="2"> <value tolerance="1e-12">5.10703e-15</value> </metric> </metrics> </test>
ab4626dab54158493d5b7c671b2913b641b4df3b	449d555969bfd7befe906877abab098c6e63a0e8	/581/CH9/EX9.5/Example9_5.sce	b6854a93ae26f80958df53f42705310b4f0c18ea	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	474	sce	Example9_5.sce	clear; clc; printf("\t Example 9.5\n"); T1=373; //saturated temp.of water, K a=957.6; //desity difference,kg/m^3 s=0.0589; //surface tension,kg/s^2 Hfg=22571000; //latent heat,J/kg a2=0.597; //density of gas, kg/m^3 Qmax=0.149a2^0.5Hfg(9.8as)^0.25/1000000; printf("\t peak heat flux is : %.2f MW/m^2 ,from figure it can be shown that qmax =1.16 MW/m^2, which is less by only about 8 percent.\n",Qmax); //end
0e01b0e79403688c9159814cef56021169c09130	449d555969bfd7befe906877abab098c6e63a0e8	/3640/CH3/EX3.5/Ex3_5.sce	daf86472fbc25bc9cde561a501e9ad4dddd40677	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,710	sce	Ex3_5.sce	clc //code uses a userdefined function complexstring function s=complexstring(a) if imag(a)>=0 then s=sprintf('%g+%gi',real(a),imag(a)) else s=sprintf('%g%gi',real(a),imag(a)) end funcprot(0) endfunction V2=120 //reference voltage in volts kVA=16.67(10^3) //kVA rating of transformer I2=kVA/V2 //secondaary current aat unity pf mprintf("I2=kVA/V2=%fA\n",I2)//ans may be wrong due to roundoff error r2=0.00519 //secondary winding resistance in ohms x2=0.0216 //secondary winding reactance in ohms a=7200/120 E2=V2+(I2(r2+(%ix2)))//secondary induced voltage //ans may be wrong due to roundoff error disp('E2=V2+I2(r2+jx2)='+complexstring(E2)+'V') E1=aE2//ans may be wrong due to roundoff error disp('E1='+complexstring(E1)+'V') Rc=311000 Ihe=E1/Rc disp('core loss current='+complexstring(Ihe)+'A') Phe=((abs(Ihe))^2)Rc//ans may be wrong due to roundoff error mprintf("Core loss Ph+e=\|Ih+e\|^2Rc=%fW\n",Phe) Xm=54800 disp('IΦ=E1/jXm='+complexstring(E1/(%iXm))+'A')//ans may be wrong due to roundoff error Iex=Ihe+(E1/(%iXm)) disp('Iex=Ih+e+IΦ='+complexstring(Iex)+'A')//ans may be wrong due to roundoff error I1=Iex+(I2/a) disp('I1=Iex+I2/a='+complexstring(I1)+'A')//ans may be wrong due to roundoff error r1=18.7 //primary side resistaance x1=77.8 V1=E1+(I1(r1+(%ix1))) disp('V1=E1+I1(r1+jx1)='+complexstring(V1)+'V')//ans in the textbook is wrong Pcu=(((abs(I1))^2)r1)+(((abs(I2))^2)r2)//copper loss mprintf("Pcu=%fW\n",Pcu)//ans may be wrong due to roundoff error mprintf("Efficiencyη=output watts/output+losses=%f\n",16670/(16670+Pcu+Phe))//ans may be wrong due to roundoff error
de2c19ac99cf0c3652ebf0a3453978950c42ef1e	39c201c777151f939341e8f8150242bcde5a111b	/CH4/EX4.2/example2.sce	dad1753e8b946e143952fa3eedd9315ebefd951d	[]	no_license	nidhimj22/Scilab_Project-	925a5883384736e79f1e600535461c6c9f06de40	4a9d1db96787ba0ea4e996349523a0b84bdacae3	refs/heads/master	2021-01-20T05:49:48.811688	2014-02-06T10:03:52	2014-02-06T10:03:52	null	0	0	null	null	null	null	UTF-8	Scilab	false	false	890	sce	example2.sce	// calculating of peak load voltage and dc load voltage // Electronic Principles // By Albert Malvino , David Bates // Seventh Edition // The McGraw-Hill Companies // Example 4-2, page 95 clear;clc; close; // Given data // refer to the diagram // turns ratio 5:1 V1=120;// primary voltage in volts // Calculations V2=V1/5;// secondary voltage in volts Vpin=V2/0.707;// peak secondary voltage in volts // with ideal diode Vpout=Vpin; Vdc=Vpout/%pi; disp("Volts",Vpout,"Peak voltage =") disp("Volts",Vdc,"dc load voltage=") // with second approximation Vpout=Vpin-0.7;// peak load voltage in volts Vdc=Vpout/%pi; disp("Volts",Vpout,"Peak voltage =") disp("Volts",Vdc,"dc load voltage=") // Result // for an ideal diode // peak load voltage is 34 volts // dc load voltage is 10.8 volts // with second approximation // peak load voltage is 33.3 volts // dc load voltage is 10.6 volts
1f8e241a72b8f9ee506565b0929706448f6a3b0d	449d555969bfd7befe906877abab098c6e63a0e8	/3035/CH8/EX8.3/Ex8_3.sce	ab9b291fc6b026aaad1751c5c19552f4075ec3bf	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	478	sce	Ex8_3.sce	// Variable Declaration Q = 1.0 //Water discharge(m^3/sec) h = 200.0 //Height(m) n_h = 0.85 //Hydraulic efficiency n_e = 0.95 //Electric efficiency // Calculation Section n = n_hn_e //Overall efficiency P = (736.0/75)Qhn //Electrical power available(kW) E = P*1.0 //Energy available in an hour(kWh) // Result Section printf('Electrical power available = %.2f kW' ,P) printf('Energy available in an hour = %.2f kWh' ,E)
7877c458b972b63e6bc986c360830f7f381012ec	449d555969bfd7befe906877abab098c6e63a0e8	/1826/CH20/EX20.2/ex20_2.sce	78d5ed47f0978e9de1072578a55a293b7b7c7b21	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	148	sce	ex20_2.sce	// Example 20.1, page no-568 clear clc h0=0.0306 t1=2.0 t2=3.7 he=h0*(1-((t1^2)/t2^2)) printf("The critical field at %d K is %.5f T",t1,he)
e5fb5ad1cc35d5c6676616315f3998036e2b65de	089894a36ef33cb3d0f697541716c9b6cd8dcc43	/NLP_Project/test/blog/bow/bow.12_2.tst	6059c4a9c8684ff83a305ab5f5672f721a4ef78e	[]	no_license	mandar15/NLP_Project	3142cda82d49ba0ea30b580c46bdd0e0348fe3ec	1dcb70a199a0f7ab8c72825bfd5b8146e75b7ec2	refs/heads/master	2020-05-20T13:36:05.842840	2013-07-31T06:53:59	2013-07-31T06:53:59	6,534,406	0	1	null	null	null	null	UTF-8	Scilab	false	false	4,227	tst	bow.12_2.tst	12 50:0.2 81:0.25 108:1.0 120:0.5 123:1.0 381:2.0 656:1.0 675:0.3333333333333333 676:1.0 734:1.0 819:2.0 1061:1.0 1101:1.0 12 12:0.08333333333333333 16:0.014492753623188406 82:1.0 120:0.25 175:1.0 365:1.0 370:1.0 376:1.0 381:1.0 818:1.0 819:1.0 12 1:0.125 3:1.0 5:0.125 9:1.0 12:0.3333333333333333 14:0.2222222222222222 16:0.10144927536231885 18:1.0 23:0.06666666666666667 25:1.0 44:1.0 50:0.2 57:2.0 67:1.0 79:1.0 81:1.25 82:1.0 83:1.0 84:0.125 87:1.0 91:1.0 92:4.0 95:0.5 108:2.0 114:0.06666666666666667 116:2.0 126:0.25 135:1.0 148:1.0 154:0.2 164:0.5 273:0.5 291:0.3333333333333333 296:1.0 319:1.0 343:1.0 370:1.0 403:1.0 407:0.5 645:1.0 651:1.0 800:1.0 805:1.0 884:1.0 888:1.5 937:1.0 968:1.0 1019:1.0 1052:1.0 1120:1.0 1238:1.0 12 4:1.0 16:0.014492753623188406 81:0.25 120:0.25 125:1.0 170:1.0 194:1.0 293:1.0 561:1.0 636:1.0 831:1.0 12 16:0.014492753623188406 676:1.0 754:1.0 12 50:0.1 343:1.0 831:1.0 898:1.0 12 81:0.5 87:1.0 126:0.25 259:1.0 343:2.0 394:1.0 898:1.0 12 3:1.0 16:0.014492753623188406 50:0.1 91:1.0 125:1.0 168:1.0 323:1.0 898:1.0 12 9:1.0 114:0.06666666666666667 120:0.25 168:1.0 194:1.0 299:1.0 301:1.0 323:1.0 12 1:0.125 16:0.014492753623188406 105:1.0 141:0.5 286:1.0 457:1.0 539:1.0 737:1.0 12 23:0.06666666666666667 27:0.07142857142857142 81:0.25 343:1.0 394:1.0 664:1.0 898:1.0 12 3:1.0 16:0.014492753623188406 18:1.0 50:0.1 64:1.0 91:1.0 95:0.5 114:0.06666666666666667 120:0.5 152:0.3333333333333333 161:1.0 269:0.5 273:0.5 289:1.0 343:1.0 481:1.0 740:1.0 937:1.0 12 12:0.08333333333333333 50:0.1 52:0.5 81:0.25 116:1.0 120:0.75 132:0.3333333333333333 194:1.0 225:1.0 325:1.0 457:2.0 561:1.0 662:1.0 819:2.0 1040:1.0 12 4:1.0 15:1.0 27:0.07142857142857142 50:0.1 81:0.25 84:0.125 132:0.3333333333333333 343:1.0 591:1.0 637:1.0 805:1.0 888:0.5 937:1.0 12 15:1.0 92:1.0 120:0.25 12 9:2.0 16:0.014492753623188406 120:0.25 125:1.0 459:1.0 12 9:1.0 14:0.1111111111111111 16:0.028985507246376812 23:0.06666666666666667 31:1.0 50:0.1 81:0.25 84:0.125 123:1.0 343:1.0 394:1.0 423:1.0 818:1.0 996:1.0 12 9:1.0 12:0.08333333333333333 16:0.014492753623188406 41:0.1 50:0.1 71:1.0 125:1.0 301:1.0 798:1.0 819:1.0 996:1.0 1057:1.0 1196:1.0 12 12:0.08333333333333333 16:0.043478260869565216 23:0.06666666666666667 41:0.1 95:0.5 119:1.0 798:1.0 818:1.0 996:1.0 1128:1.0 12 23:0.06666666666666667 77:1.0 343:1.0 522:1.0 1191:1.0 12 8:1.0 9:1.0 12:0.08333333333333333 16:0.028985507246376812 122:1.0 818:1.0 921:1.0 12 9:1.0 23:0.06666666666666667 64:1.0 67:1.0 183:1.0 184:1.0 403:1.0 892:1.0 12 9:1.0 10:1.0 12:0.08333333333333333 144:1.0 296:1.0 464:1.0 664:1.0 888:0.5 12 1:0.125 5:0.125 12:0.08333333333333333 15:1.0 16:0.014492753623188406 50:0.1 61:0.3333333333333333 62:1.0 92:1.0 120:0.25 124:1.0 132:0.3333333333333333 183:1.0 368:1.0 494:1.0 888:0.5 12 4:1.0 64:1.0 81:0.25 259:1.0 289:1.0 476:1.0 12 4:1.0 9:1.0 16:0.014492753623188406 23:0.06666666666666667 41:0.2 50:0.1 81:0.25 89:0.16666666666666666 92:2.0 105:1.0 114:0.06666666666666667 129:1.0 158:1.0 301:1.0 394:1.0 457:1.0 656:1.0 819:1.0 888:0.5 12 1:0.125 4:1.0 5:0.125 7:1.0 9:1.0 41:0.1 50:0.1 62:1.0 89:0.16666666666666666 92:2.0 114:0.06666666666666667 288:1.0 577:1.0 873:1.0 12 16:0.028985507246376812 25:1.0 44:1.0 50:0.3 92:1.0 269:0.5 283:1.0 645:1.0 651:1.0 665:1.0 12 16:0.014492753623188406 91:1.0 120:0.5 168:1.0 724:1.0 12 12:0.08333333333333333 61:0.3333333333333333 62:1.0 64:1.0 335:1.0 12 9:1.0 15:1.0 50:0.1 52:0.5 81:0.25 129:1.0 259:1.0 394:1.0 437:0.3333333333333333 888:0.5 12 6:1.0 77:1.0 81:0.25 84:0.125 89:0.3333333333333333 911:1.0 921:1.0 12 9:1.0 14:0.1111111111111111 67:1.0 81:0.5 452:1.0 543:1.0 921:1.0 12 3:1.0 9:1.0 16:0.028985507246376812 23:0.06666666666666667 81:0.75 84:0.125 92:2.0 289:1.0 403:1.0 651:1.0 669:1.0 792:1.0 888:0.5 12 4:1.0 12:0.08333333333333333 55:1.0 81:0.25 259:2.0 583:1.0 12 3:1.0 11:1.0 50:0.1 81:0.25 92:1.0 114:0.06666666666666667 485:1.0 12 4:1.0 8:1.0 9:1.0 12:0.08333333333333333 16:0.014492753623188406 44:1.0 55:1.0 92:1.0 132:0.3333333333333333 296:1.0 651:1.0 888:0.5 1150:1.0 12 4:1.0 7:1.0 9:1.0 12:0.08333333333333333 120:0.25 125:1.0 147:0.3333333333333333 561:1.0 848:1.0 898:1.0 12 16:0.028985507246376812 81:0.25 125:1.0 129:1.0 132:0.3333333333333333 394:1.0
24744b68fafb71bc15e2de92c978ec0c7696e104	1b9a3a103c4fc50d51f2d14b1216b479e3ec5b7e	/tilesets/tsetfera2.tst	31dcf1d109f3d86475805c6af086afdd773e8a50	[]	no_license	habeascorpse/Luawar	e5a1c3cf686ebea4d6d102d3d9380f4a9edfc785	09c3c995b4873f08e48bda148b8443706711aeb0	refs/heads/master	2021-01-01T16:05:56.174549	2012-05-21T15:01:59	2012-05-21T15:01:59	4,394,437	1	0	null	null	null	null	UTF-8	Scilab	false	false	290	tst	tsetfera2.tst	I=../images/tilesets/tileset4.png; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0; 0,0,0,0,0,0,0,0;
aff1a238e42fad8c1e8f9cbada5b634c83839614	449d555969bfd7befe906877abab098c6e63a0e8	/1949/CH2/EX2.34/2_34.sce	a4b81ee51306e53cef1c6d5eb4b9ac193089f1b1	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,086	sce	2_34.sce	//Chapter-2,Example 2_34,Page 2-53 clc() //Given Data: lam1=5.1403410^-7 //Wavelength of light lam2=5.1408510^-7 //Wavelength of light //Calculations: dlam=lam2-lam1 //difference in wavelength lam=(lam2+lam1)/2 //Mean wavelength //We know that R.P.=lam/dlam=mN N=lam/dlam/1 //Number of lines on grating printf('Number of lines on grating for first order is = %.0f \n \n',N) //Hence R.P. for second order should be RP1=2N printf(' Resolving power in second order should be is= %.0f \n \n',RP1) //But here, lam3=8.0372010^-7 //Wavelength of light lam4=8.0375010^-7 //Wavelength of light dlam2=lam4-lam3 //difference in wavelength lam2=(lam4+lam3)/2 //Mean wavelength RP2=lam2/dlam2 printf(' Resolving power in second order is= %.0f \n \n',RP2) printf(' So, the grating will not be able to resolve 8.037210^-7 and 8.0375010^-7 in second order.\n') printf(' Because Resolving power is greter than actual Resolving power.')
23c7d3995d643841a36f2b4dfd98d4d669b8898a	449d555969bfd7befe906877abab098c6e63a0e8	/281/CH11/EX11.5/example11_5.sce	2c3e3e44c4074d99543976ef656ae217434abcef	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	695	sce	example11_5.sce	disp('chapter 11 ex11.5') disp('given') disp('design a second order high-pass filter to have cutoff frequency 12kHz') disp('from 715 data sheet,IBmax=1.510^(-6)A') fc=12000 IBmax=1.510^(-6) disp('R2=70mV/IBmax') R2=7010^(-3)/IBmax disp('ohms',R2) disp('R1=R2/2') R1=R2/2 disp('ohms',R1) disp('use 22kohm and 1.5kohm in series') disp('R3=R2=47kohm') R3=47000 R2=47000 disp('R2=sqrt(2)Xc2 at fc') disp('C2=1/(2%pifcR2/sqrt(2))') C2=1/(2%pifcR2/sqrt(2)) disp('farads',C2) disp('use 390pF standard value') disp('C1=C2=390pF') disp('from 715 data sheet the op-amp unity gain cutoff frequency is fu=11MHz') Av=1 fu=11*10^(6) disp('f2=fu/Av') f2=fu/Av disp('Hz',f2)
f2e3d7c7d3357c11bd9f949b9c72a592ea68608d	449d555969bfd7befe906877abab098c6e63a0e8	/3843/CH11/EX11.7/Ex11_7.sce	83cf7dea2b269b710ecf627f08c6f033f7a9baaf	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	726	sce	Ex11_7.sce	// Example 11_7 clc;funcprot(0); // Given data T_1=100;// °F T_2=80;// °F P=14.7;// psia P_g1=0.9503;// psia P_g2=0.5073;// psia c_p=0.24;// Btu/lbm-°R h_fg2=1048;// Btu/lbm h_g1=1105;// Btu/lbm h_f2=48.09;// Btu/lbm // Calculation // (a) w_2=0.622(P_g2/(P-P_g2));// lbm H2O/lbm dry air w_1=((w_2h_fg2)+(c_p(T_2-T_1)))/(h_g1-h_f2);// lbm H2O/lbm dry air // (b) P_v1=(w_1P)/(0.622(1+(w_1)));// psia phi=P_v1/P_g1;// The relative humidity in % // (c) h=(c_pT_1)+(w_1h_g1);// Btu/lbm dry air printf("\n(a)The humidity ratio,w_1=%0.5f lbm H2O/lbm dry air \n(b)The relative humidity,phi=%0.3f or %2.1f percentage. \n(c)The specific enthalpy of the air,h=%2.1f Btu/lbm dry air",w_1,phi,phi100,h);
5673b681ffecc1a233ff8e19df7fd6da8cc277bb	449d555969bfd7befe906877abab098c6e63a0e8	/2855/CH6/EX6.18/Ex6_18.sce	84ecc657ef8c013ea8c2ea3049310e52c7f6a625	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	248	sce	Ex6_18.sce	//chapter 6 //page no184 //Ex6_18 //given clear; clc; dV=40; //in mV di=3; //in Amp LT=0.05; //in nH fH=dV*10^-3/di/2/%pi/LT/10^-9; printf("\n fCdecoupling(high) = %0.1f MHz\n ",fH/10^6); //Result
6a1898fcb335f48082c9d17046155bfb8e7056a0	449d555969bfd7befe906877abab098c6e63a0e8	/2582/CH7/EX7.7/Ex7_7.sce	456a74d30cbba5c3d428073797e98e4b9cb5cf7a	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	295	sce	Ex7_7.sce	//Ex 7.7 clc;clear;close; C=1;//nF T=10;//micro seconds(Output pulse duration) R=T10^-6/(C10^-9log(3))/1000;//kohm disp(R,"(a) Value of R(kohm)"); VCC=15;//V T=20;//micro seconds(Output pulse duration) VTH=VCC(1-exp(-T10^-6/(R1000C10^-9)));//V disp(VTH,"(b) Value of VTH(V)");
717cd6aa3b122c979aebf7812de4089a968b037c	b2675f983fedb79e5e6f1940962373bda0570ec4	/tcp-sample/tcp-sample/Tests/TransformationServiceTest-v3.tst	d7acf517d89803750e8c900b6bd9b06042de2720	[]	no_license	Meena92/Projects	b854c40b91515bb429c9e13fb0cbc95c03e0a9d6	06361e24bf51883ff4140db5c37c3f40836a5752	refs/heads/master	2020-03-29T01:45:03.726432	2019-06-11T05:26:08	2019-06-11T05:26:08	149,404,524	0	0	null	null	null	null	UTF-8	Scilab	false	false	2,205	tst	TransformationServiceTest-v3.tst	<?xml version="1.0" encoding="UTF-8"?> <TestCase name="TransformationServiceTest-v3" version="5"> <meta> <create author="admin" buildNumber="8.0.1.644" date="08/06/2015" host="DVTBLISAPP002" version="8.0.1"/> <lastEdited author="admin" buildNumber="8.3.0.241" date="09/09/2015" host="DVTBLISAPP002" version="8.3.0"/> </meta> <id>B15D107C0A5E11E8A81ED8CB8A8AB1DA</id> <Documentation>Put documentation of the Test Case here.</Documentation> <IsInProject>true</IsInProject> <sig>ZWQ9NSZ0Y3Y9NSZsaXNhdj04LjMuMCAoOC4zLjAuMjQxKSZub2Rlcz0yMjgzOTA4ODY=</sig> <subprocess>false</subprocess> <initState> </initState> <resultState> </resultState> <deletedProps> </deletedProps> <Node log="" name="Raw SOAP Request" next="end" quiet="false" think="500-1S" type="com.itko.lisa.ws.RawSOAPNode" uid="B15D107D0A5E11E8A81ED8CB8A8AB1DA" useFilters="true" version="1"> <url>{{ENDPOINT14}}</url> <action/> <soapRequest itko_enc="base64">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</soapRequest> <contentType>text/xml; charset=UTF-8</contentType> <onError>abort</onError> <discardResponse>false</discardResponse> <customHTTPHeaderInfo> </customHTTPHeaderInfo> </Node> <Node log="" name="abort" next="" quiet="true" think="0h" type="com.itko.lisa.test.AbortStep" uid="B15D107E0A5E11E8A81ED8CB8A8AB1DA" useFilters="true" version="1"> </Node> <Node log="" name="fail" next="abort" quiet="true" think="0h" type="com.itko.lisa.test.Abend" uid="B15D107F0A5E11E8A81ED8CB8A8AB1DA" useFilters="true" version="1"> </Node> <Node log="" name="end" next="fail" quiet="true" think="0h" type="com.itko.lisa.test.NormalEnd" uid="B15D10800A5E11E8A81ED8CB8A8AB1DA" useFilters="true" version="1"> </Node> </TestCase>
e37eb2722048396c7f46b61b3ee40f602a0d27f6	d963a50c09b7380dd7b1b97cd9997e9bd17ea8f3	/r35/lib/fide.tst	2c13aa420a6473ac358179d0dad610128e58fd6d	[ "BSD-3-Clause" ]	permissive	reduce-algebra/reduce-historical	8220e211b116e0e01ff1a38f51917cac9db6069f	e014152729c4d62bb1ce4f5c311a027042a5495a	refs/heads/master	2023-04-10T22:54:00.796596	2021-04-16T08:52:19	2021-04-16T08:52:19	343,245,204	7	1	NOASSERTION	2021-04-16T08:53:31	2021-03-01T00:15:22	TeX	UTF-8	Scilab	false	false	20,390	tst	fide.tst	%********************************************************************* %* * %* Package F I D E - Test Examples Ver. 1.1.1 November 2,1993 * %* * %******************************************************************* %******************************************************************* %* * %* T e s t Examples --- Module E X P R E S * %* * %******************************************************************* let cos th2=1 - sin th2, cos fi2=1 - sin fi*2; factor df; on rat; for all x,y let diff(x,y)=df(x,y); depend u,r,th,fi; depend v,r,th,fi; depend f,r,th,fi; depend w,r,th,fi; % Spherical coordinate system scalefactors 3,rsin thcos fi,rsin thsin fi,rcos th,r,th,fi; tensor a1,a2,a3,a4,a5; vectors u,v; dyads w; a1:=grad f; a2:=div u; a3:=curl v; a4:=lapl v; a3:=2a3+a4; a5:=lapl f; a1:=a1+div w; a1:=u.dyad((a,0,1),(1,b,3),(0,c,d)); a2:=vect(a,b,c); a1.a2; % Scalar product u.v; % Vector product u?v; % Dyadic u&v; % Directional derivative dirdf(u,v); clear a1,a2,a3,a4,a5,u,v,w; for all x,y clear diff(x,y); clear cos th2, cos fi2; remfac df; off rat; scalefactors 3,x,y,z,x,y,z; %******************************************************************** %* * %* T e s t Examples --- Module I I M E T * %* * %********************************************************************* % Example I.1 - 1-D Lagrangian Hydrodynamics off exp; factor diff; on rat,eqfu; % Declare which indexes will be given to coordinates coordinates x,t into j,m; % Declares uniform grid in x coordinate grid uniform,x; % Declares dependencies of functions on coordinates dependence eta(t,x),v(t,x),eps(t,x),p(t,x); % Declares p as known function given p; same eta,v,p; iim a, eta,diff(eta,t)-etadiff(v,x)=0, v,diff(v,t)+eta/rodiff(p,x)=0, eps,diff(eps,t)+etap/rodiff(v,x)=0; clear a; clearsame; cleargiven; %*********************************************************************** % Example I.2 - How other functions (here sin, cos) can be used in % discretized terms diffunc sin,cos; difmatch all,diff(usin x,x),u=one,2,(u(i+1)sin x(i+1)-u(i-1) sin x(i-1))/(dim1+dip1), u=half,0,(u(i+1/2)sin x(i+1/2)-u(i-1/2)sin x(i-1/2)) /di; difmatch all,cos xdiff(u,x,2),u=one,0,cos x i(u(i+1)-2u(i)+u(i-1)) /di^2, u=half,3,(u(i+3/2)-u(i+1/2))/dip2/2 - (u(i-1/2)-u(i-3/2))/dim2/2; off exp; coordinates x,t into j,m; grid uniform,x,t; dependence u(x,t),v(x,t); iim a,u,diff(u,t)+diff(u,x)+cos xdiff(v,x,2)=0, v,diff(v,t)+diff(sin xu,x)=0; clear a; %*********************************************************************** % Example I.3 - Schrodinger equation factor diff; coordinates t,x into m,j; grid uniform,x,t; dependence ur(x,t),ui(x,t); same ui,ur; iim a,ur,-diff(ui,t)+1/2diff(ur,x,2)+(ur2+ui2)ur=0, ui,diff(ur,t)+1/2diff(ui,x,2)+(ur2+ui2)ui=0; clear a; clearsame; %*********************************************************************** % Example I.4 - Vector calculus in p.d.e. input % cooperation with expres module % 2-D hydrodynamics scalefactors 2,x,y,x,y; vectors u; off exp,twogrid; on eqfu; factor diff,ht,hx,hy; coordinates x,y,t into j,i,m; grid uniform,x,y,t; dependence n(t,x,y),u(t,x,y),p(t,x,y); iim a,n,diff(n,t)+u.grad n+ndiv u=0, u,mn(diff(u,t)+u.grad u)+grad p=vect(0,0), p,3/2(diff(p,t)+u.grad p)+5/2pdiv u=0; clear a,u; %*********************************************************************** % Example I.5 - 1-D hydrodynamics up to 3-rd moments (heat flow) coordinates x,t into j,m; grid uniform,x,t; dependence n(x,t),u(x,t),tt(x,t),p(x,t),q(x,t); iim a, n,diff(n,t)+udiff(n,x)+diff(u,x)=0, u,nm(diff(u,t)+udiff(u,x))+kdiff(ntt,x)+diff(p,x)=0, tt,3/2kn(diff(tt,t)+udiff(tt,x))+nkttdiff(u,x)+1/2p diff(u,x)+diff(q,x)=0, p,diff(p,t)+udiff(p,x)+pdiff(u,x)+nkttdiff(u,x)+2/5diff(q,x) =0, q,diff(q,t)+udiff(q,x)+qdiff(u,x)+5/2nk2tt/mdiff(tt,x)+nk ttdiff(p,x)-pdiff(p,x)=0; clear a; remfac diff,ht,hx,hy; on exp; off rat; %******************************************************************** %* * %* T e s t Examples --- Module A P P R O X * %* * %********************************************************************* % Example A.1 coordinates x,t into j,n; maxorder t=2,x=3; functions u,v; approx( (u(n+1/2)-u(n-1/2))/ht=(v(n+1/2,j+1/2)-v(n+1/2,j-1/2) +v(n-1/2,j+1/2)-v(n-1/2,j-1/2))/(2hx) ); % Example A.2 maxorder t=3,x=3; approx( (u(n+1)-u(n))/ht=(u(n+1,j+1/2)-u(n+1,j-1/2) +u(n,j+1/2)-u(n,j-1/2))/(2hx) ); % Example A.3 maxorder t=2,x=3; center t=1/2; approx( (u(n+1)-u(n))/ht=(v(n+1,j+1/2)-v(n+1,j-1/2) +v(n,j+1/2)-v(n,j-1/2))/(2hx) ); % Example A.4 approx( u(n+1)/ht=(v(n+1,j+1/2)-v(n+1,j-1/2) +v(n,j+1/2)-v(n,j-1/2))/(2hx) ); % Example A.5 maxorder t=3,x=3; approx( (u(n+1)-u(n))/ht=(u(n+1,j+1/2)-u(n+1,j-1/2))/hx); % Example A.6 approx( (u(n+1)-u(n))/ht=(u(n+1/2,j+1/2)-u(n+1/2,j-1/2))/hx); % Example A.7; maxorder x=4; approx((u(n+1)-u(n))/ht=(u(n+1/2,j+1)-2u(n+1/2,j)+u(n+1/2,j-1))/hx2); %******************************************************************** %* * %* T e s t Examples --- Module C H A R P O L * %* * %******************************************************************* % Example C.1 coordinates t,x into i,j; grid uniform,t,x; let cos ax2=1-sin ax2; unfunc u,v; matrix aa(1,2),bb(2,2); aa(1,1):=(u(i+1)-u(i))/ht+(v(j+1)-v(j))/hx$ aa(1,2):=(v(i+1)-v(i))/ht+(u(j+1/2)-u(j-1/2))/hx$ bb:=ampmat aa; bb:=denotemat bb; factor lam; pol:=charpol bb; prdenot; cleardenot; clear aa,bb,pol; %********************************************************************* % Example C.2 : Reprint Vorozcov, Ganza, Mazurik: Simvolno-cislennyj % interfejs. v zadacach ..., Novosibirsk 1986, p.47. unfunc u; matrix aa(1,1),bb(1,1); aa(1,1):=(u(i+1)-u(i))/ht+a(u(j)-u(j-1))/hx$ bb:=ampmat aa; bb:=denotemat bb; pol:=charpol bb; prdenot; cleardenot; clear aa,bb,pol; %********************************************************************** % Example C.3 : Reprint Vorozcov, Ganza, Mazurik: Simvolno-cislennyj % interfejs. v zadacach ..., Novosibirsk 1986, p.52. coordinates t,x into m,j; unfunc u,r; matrix aa(1,2),bb(2,2); aa(1,1):=(r(m+1)-r(m))/ht+u0(r(m+1,j+1)-r(m+1,j-1))/2/hx +r0(u(m+1,j+1)-u(m+1,j-1))/2/hx$ aa(1,2):=(u(m+1)-u(m))/ht+u0(u(m+1,j+1)-u(m+1,j-1))/2/hx +c02/r0(r(m,j+1)-u(m,j-1))/2/hx$ bb:=ampmat aa; bb:=denotemat bb; pol:=charpol bb; prdenot; cleardenot; clear aa,bb,pol; %*********************************************************************** % Example C.4 : Richtmyer, Morton: Difference methods for initial value % problems, &10.3. p.262 coordinates t,x into n,j; unfunc v,w; matrix aa(1,2),bb(2,2); aa(1,1):=(v(n+1)-v(n))/ht-c(w(j+1/2)-w(j-1/2)+ w(n+1,j+1/2)-w(n+1,j-1/2))/(2hx)$ aa(1,2):=(w(n+1,j-1/2)-w(n,j-1/2))/ht-c(v(n+1,j)-v(n+1,j-1)+ v(j)-v(j-1))/(2hx)$ bb:=ampmat aa; bb:=denotemat bb; pol:=charpol bb; prdenot; cleardenot; clear aa,bb,pol; %*********************************************************************** % Example C.5: Mazurik: Algoritmy resenia zadaci..., Preprint no.24-85, % AN USSR SO, Inst. teor. i prikl. mechaniky, p.34 coordinates t,x,y into n,m,k; grid uniform,t,x,y; unfunc u1,u2,u3; matrix aa(1,3),bb(3,3); aa(1,1):=(u1(n+1)-u1(n))/ht+c/2((-u1(m-1)+2u1(m)-u1(m+1))/hx + (u2(m+1)-u2(m-1))/hx - (u1(k-1)-2u1(k)+u1(k+1))/hy + (u3(k+1)-u3(k-1))/hy)$ aa(1,2):=(u2(n+1)-u2(n))/ht+c/2((u1(m+1)-u1(m-1))/hx - (u2(m-1)-2u2(m)+u2(m+1))/hx)$ aa(1,3):=(u3(n+1)-u3(n))/ht + c/2((u1(k+1)-u1(k-1))/hy - (u3(k-1)-2u3(k)+u3(k+1))/hy)$ off prfourmat; bb:=ampmat aa; pol:=charpol bb; let cos ax=cos ax22-sin ax22, cos ay=cos ay22-sin ay22, sin ax=2sin ax2cos ax2, sin ay=2sin ay2cos ay2, cos ax22=1-sin ax22, cos ay22=1-sin ay22, sin ax2=s1, sin ay2=s2, hx=cht/cap1, hy=cht/cap2; order s1,s2; pol:=pol; clear cos ax,cos ay,sin ax,sin ay,cos ax22,cos ay22,sin ax2,sin ay2, hx,hy; pol:=complexpol pol; pol1:=hurw pol; denotid cp; pol:=denotepol pol; prdenot; cleardenot; clear aa,bb,pol,pol1; %******************************************************************** % Example C.6 : Lax-Wendrov (V. Ganzha) coordinates t,x,y into n,m,k; grid uniform,t,x,y; let cos ax2=1-sin ax2, cos ay2=1-sin ay*2; unfunc u1,u2,u3,u4; matrix aa(1,4),bb(4,4); aa(1,1):=4(u1(n+1)-u1(n))/ht+ (w(u1(m+2)-u1(m-2)+u1(m+1,k+1)+u1(m+1,k-1)- u1(m-1,k+1)-u1(m-1,k-1))+p(u2(m+2)-u2(m-2)+u2(m+1,k+1)+ u2(m+1,k-1)-u2(m-1,k+1)-u2(m-1,k-1))+ v(u1(m+1,k+1)+u1(m-1,k+1)- u1(m+1,k-1)-u1(m-1,k-1)+u1(k+2)-u1(k-2))+p(u3(m+1,k+1)+ u3(m-1,k+1)-u3(m+1,k-1)-u3(m-1,k-1)+u3(k+2)-u3(k-2)))/hx+ht* (2w2(-u1(m+2)+2u1(m)-u1(m-2))+4wp(-u2(m+2)+2u2(m)- u2(m-2))+2(-u4(m+2)+2u4(m)-u4(m-2))+2v*2(-u1(k+2)+ 2u1(k)-u1(k-2))+4vp(u3(k+2)+2u3(k)-u3(k-2))+2(-u4(k+2)+ 2u4(k)-u4(k-2))+4wv(-u1(m+1,k+1)+u1(m+1,k-1)+u1(m-1,k+1)- u1(m-1,k-1))+4pv(-u2(m+1,k+1)+u2(m+1,k-1)+u2(m-1,k+1)- u2(m-1,k-1))+4wp(-u3(m+1,k+1)+u3(m+1,k-1)+u3(m-1,k+1)- u3(m-1,k-1)))/hx/hx$ aa(1,2):=4p(u2(n+1)-u2(n))/ht+ (wp(u2(m+2)-u2(m-2)+u2(m+1,k+1)+ u2(m+1,k-1)-u2(m-1,k+1)-u2(m-1,k-1))+u4(m+2)-u4(m-2)+ u4(m+1,k+1)+ u4(m+1,k-1)-u4(m-1,k+1)-u4(m-1,k-1)+ pv(u2(m+1,k+1)+u2(m-1,k+1)+ u2(k+2)-u2(k-2)-u2(m+1,k-1)-u2(m-1,k-1)))/hx+ht(2w*2p* (-u2(m+2)+2u2(m)-u2(m-2))+2pc2(-u2(m+2)+2u2(m)-u2(m-2)) +4w(-u4(m+2)+2u4(m)-u4(m-2))+2pv*2(-u2(k+2)+2u2(k)- u2(k-2))+4wpv(-u2(m+1,k+1)+u2(m+1,k-1)+u2(m-1,k+1)- u2(m-1,k-1))+2pc2(-u3(m+1,k+1)+u3(m+1,k-1)+u3(m-1,k+1) -u3(m-1,k-1))+4v(-u4(m+1,k+1)+u4(m+1,k-1)+u4(m-1,k+1)- u4(m-1,k-1)))/hx/hx$ aa(1,3):=4p(u3(n+1)-u3(n))/ht+(wp(u3(m+2)-u3(m-2)+u3(m+1,k+1)+ u3(m+1,k-1)-u3(m-1,k+1)-u3(m-1,k-1))+u4(k+2)-u4(k-2)+ u4(m+1,k+1)-u4(m+1,k-1)+u4(m-1,k+1)-u4(m-1,k-1)+ pv(u3(m+1,k+1)+u3(m-1,k+1)+u3(k+2)-u3(k-2)-u3(m+1,k-1)- u3(m-1,k-1)))/hx+ht(2w*2p(-u3(m+2)+2u3(m)-u3(m-2))+ 2pc*2(-u3(k+2)+2u3(k)-u3(k-2))+4v(-u4(k+2)+ 2u4(k)-u4(k-2))+2pv*2(-u3(k+2)+2u3(k)-u3(k-2))+ 4wpv(-u3(m+1,k+1)+u3(m+1,k-1)+u3(m-1,k+1)- u3(m-1,k-1))+2pc2(-u2(m+1,k+1)+u2(m+1,k-1)+ u2(m-1,k+1)-u2(m-1,k-1))+4w(u4(m+1,k+1)+u4(m+1,k-1)+ u4(m-1,k+1)-u4(m-1,k-1)))/hx/hx$ aa(1,4):=4(u4(n+1)-u4(n))/ht+(pc*2(u2(m+2)-u2(m-2)+u2(m+1,k+1)+ u2(m+1,k-1)-u2(m-1,k+1)-u2(m-1,k-1))+w(u4(m+2)- u4(m-2)+u4(m+1,k+1)+u4(m+1,k-1)-u4(m-1,k+1)-u4(m-1,k-1))+ +pc*2(u3(m+1,k+1)+u3(m-1,k+1)-u3(m+1,k-1)- u3(m-1,k-1)+u3(k+2)-u3(k-2))+v(u4(m+1,k+1)+u4(m-1,k+1)- u4(m+1,k-1)-u4(m-1,k-1)+u4(k+2)-u4(k-2)))/hx+ht (2w2(-u4(m+2)+2u4(m)-u4(m-2))+4wpc*2(-u2(m+2)+ 2u2(m)-u2(m-2))+2c*2(-u4(m+2)+2u4(m)-u4(m-2))+ 4pvc*2(-u3(k+2)+2u3(k)-u3(k-2))+2c*2(-u4(k+2)+ 2u4(k)-u4(k-2))+2v*2(-u4(k+2)+2u4(k)-u4(k-2))+ 4pvc*2(-u2(m+1,k+1)+u2(m+1,k-1)+u2(m-1,k+1)- u2(m-1,k-1))+4wpc2(-u3(m+1,k+1)+u3(m+1,k-1)+ u3(m-1,k+1)-u3(m-1,k-1))+4wv(-u4(m+1,k+1)+ u4(m+1,k-1)+u4(m-1,k+1)-u4(m-1,k-1)))/hx/hx$ bb:=ampmat aa; let sin(ax)=s1, cos(ax)=c1, sin(ay)=s2, cos(ay)=c2, w=k1hx/ht, v=k2hx/ht, c=k3hx/ht, ht=r1hx; denotid a; bb:=denotemat bb; clear sin ax,cos ax,sin ay,cos ay,w,v,c,ht; pol:=charpol bb; denotid cp; pol:=denotepol pol; pol:=complexpol pol; denotid rp; pol:=denotepol pol; prdenot; cleardenot; clear aa,bb,pol; %******************************************************************** %* * %* T e s t Examples --- Module H U R W P * %* * %********************************************************************* % Example H.1 x0:=lam-1; x1:=lam-(ar+iai); x2:=lam-(br+ibi); x3:=lam-(cr+ici); hurwitzp x1; % Example H.2 x:=hurw(x0x1); hurwitzp x; % Example H.3 x:=(x1x2); hurwitzp x; % Example H.4 x:=(x1x2x3); hurwitzp x; clear x,x0,x1,x2,x3; %******************************************************************** %* * %* T e s t Examples --- Module L I N B A N D * %* * %********************************************************************* on evallhseqp; % So both sides of equations evaluate. % Example L.1 operator v; off echo; gentran <<literal tab!,"DIMENSION U(200),V(200),ACOF(200,3),ARHS(200),XL(200,3)",cr!$ dx:=0.05$ x:=0.1$ for i:=1:101 do <<v(i):=x*2/2$ x:=x+dx >> >>$ off period; gentran <<iacof:=200$ iarhs:=200 >>$ on period; genlinbandsol(1,1,{{u(1),u(1)=v(1)},{do,{k,2,100,1 },{u(k),u(k+1)- 2u(k)+u(k-1)=v(k+1)-2v(k)+v(k-1)}},{u(101),u(101)=v(101)}})$ gentran <<amer:=0.0$ arer:=0.0$ for i:=1:101 do <<am:=abs(u(i)-v(i))$ ar:=am/v(i)$ literal tab!,"IF(AM.GT.AMER) AMER=AM",cr!$ literal tab!,"IF(AR.GT.ARER) ARER=AR",cr!* >>$ literal tab!,"WRITE(,100)AMER,ARER",cr!$ literal tab!,"STOP",cr!$ literal "100 FORMAT(' MAX. ABS. ERROR = ',E12.2,", "' MAX. REL. ERROR = ',E12.2)",cr!$ literal tab!,"END",cr! >>$ on echo; %*********************************************************************** % Example L.2 on nag; off echo; gentran <<literal tab!,"DIMENSION U(200),V(200),ACOF(200,3),ARHS(200),XL(200,3)",cr!$ dx:=0.05$ x:=0.1$ for i:=1:101 do <<v(i):=x*2/2$ x:=x+dx >> >>$ off period; gentran <<iacof:=200$ iarhs:=200 >>$ on period; genlinbandsol(1,1,{{u(1),u(1)=v(1)},{do,{k,2,100,1 },{u(k),u(k+1)- 2u(k)+u(k-1)=v(k+1)-2v(k)+v(k-1)}},{u(101),u(101)=v(101)}})$ gentran <<amer:=0.0$ arer:=0.0$ for i:=1:101 do <<am:=abs(u(i)-v(i))$ ar:=am/v(i)$ literal tab!,"IF(AM.GT.AMER) AMER=AM",cr!$ literal tab!,"IF(AR.GT.ARER) ARER=AR",cr!* >>$ literal tab!,"WRITE(,100)AMER,ARER",cr!$ literal tab!,"STOP",cr!$ literal "100 FORMAT(' MAX. ABS. ERROR = ',E12.2,", "' MAX. REL. ERROR = ',E12.2)",cr!$ literal tab!,"END",cr! >>$ on echo; %*********************************************************************** % Example L.3 on imsl; off echo,nag; gentran <<literal tab!,"DIMENSION U(200),V(200),ACOF(200,3),ARHS(200),XL(200,3)",cr!$ dx:=0.05$ x:=0.1$ for i:=1:101 do <<v(i):=x*2/2$ x:=x+dx >> >>$ off period; gentran <<iacof:=200$ iarhs:=200 >>$ on period; genlinbandsol(1,1,{{u(1),u(1)=v(1)},{do,{k,2,100,1 },{u(k),u(k+1)- 2u(k)+u(k-1)=v(k+1)-2v(k)+v(k-1)}},{u(101),u(101)=v(101)}})$ gentran <<amer:=0.0$ arer:=0.0$ for i:=1:101 do <<am:=abs(u(i)-v(i))$ ar:=am/v(i)$ literal tab!,"IF(AM.GT.AMER) AMER=AM",cr!$ literal tab!,"IF(AR.GT.ARER) ARER=AR",cr!* >>$ literal tab!,"WRITE(,100)AMER,ARER",cr!$ literal tab!,"STOP",cr!$ literal "100 FORMAT(' MAX. ABS. ERROR = ',E12.2,", "' MAX. REL. ERROR = ',E12.2)",cr!$ literal tab!,"END",cr! >>$ on echo; %*********************************************************************** % Example L.4 on essl; off echo,imsl; gentran <<literal tab!,"DIMENSION U(200),V(200),ACOF(200,3),ARHS(200),XL(200,3)",cr!$ dx:=0.05$ x:=0.1$ for i:=1:101 do <<v(i):=x*2/2$ x:=x+dx >> >>$ off period; gentran <<iacof:=200$ iarhs:=200 >>$ on period; genlinbandsol(1,1,{{u(1),u(1)=v(1)},{do,{k,2,100,1 },{u(k),u(k+1)- 2u(k)+u(k-1)=v(k+1)-2v(k)+v(k-1)}},{u(101),u(101)=v(101)}})$ gentran <<amer:=0.0$ arer:=0.0$ for i:=1:101 do <<am:=abs(u(i)-v(i))$ ar:=am/v(i)$ literal tab!,"IF(AM.GT.AMER) AMER=AM",cr!$ literal tab!,"IF(AR.GT.ARER) ARER=AR",cr!* >>$ literal tab!,"WRITE(,100)AMER,ARER",cr!$ literal tab!,"STOP",cr!$ literal "100 FORMAT(' MAX. ABS. ERROR = ',E12.2,", "' MAX. REL. ERROR = ',E12.2)",cr!$ literal tab!,"END",cr! >>$ on echo; off essl; %********************************************************************* %* * %* T e s t Complex Examples --- More Modules * %* * %********************************************************************* % Example M.1 off exp; coordinates t,x into n,j; grid uniform,x,t; dependence v(t,x),w(t,x); isgrid v(x..one),w(x..half); iim aa, v, diff(v,t)=cdiff(w,x), w, diff(w,t)=cdiff(v,x); on exp; center t=1/2; functions v,w; approx( aa(0,0)=aa(0,1)); center x=1/2; approx( aa(1,0)=aa(1,1)); let cos ax2=1-sin ax2; unfunc v,w; matrix a(1,2),b(2,2),bt(2,2); a(1,1):=aa(0,0); a(1,2):=aa(1,0); off prfourmat; b:=ampmat a; clear a,aa; factor lam; pol:=charpol b; pol:=troot1 pol; pol:=hurw num pol; hurwitzp pol; bt:=tcon b; btb; btb-bbt; clear aa,a,b,bt; %******************************************************************** % Example M.2 : Richtmyer, Morton: Difference methods for initial value % problems, &10.2. p.261 coordinates t,x into n,j; grid uniform,t,x; let cos ax2=1-sin ax*2; unfunc v,w; matrix a(1,2),b(2,2),bt(2,2); a(1,1):=(v(n+1)-v(n))/ht-c(w(j+1/2)-w(j-1/2))/hx$ a(1,2):=(w(n+1,j-1/2)-w(n,j-1/2))/ht-c(v(n+1,j)-v(n+1,j-1))/hx$ off prfourmat; b:=ampmat a; clear a; factor lam; pol:=charpol b; pol:=hurw num pol; hurwitzp pol; bt:=tcon b; btb; btb-bbt; clear a,b,bt; %*********************************************************************** % Example M.3: Mazurik: Algoritmy resenia zadaci..., preprint no.24-85, % AN USSR SO, Inst. teor. i prikl. mechaniky, p.34 operator v1,v2; matrix a(1,3),b(3,3),bt(3,3); a(1,1):=(p(n+1)-p(n))/ht+c/2((-p(m-1)+2p(m)-p(m+1))/hx + (v1(m+1)-v1(m-1))/hx - (p(k-1)-2p(k)+p(k+1))/hy + (v2(k+1)-v2(k-1))/hy)$ a(1,2):=(v1(n+1)-v1(n))/ht+c/2((p(m+1)-p(m-1))/hx - (v1(m-1)-2v1(m)+v1(m+1))/hx)$ a(1,3):=(v2(n+1)-v2(n))/ht + c/2((p(k+1)-p(k-1))/hy - (v2(k-1)-2v2(k)+v2(k+1))/hy)$ coordinates t,x,y into n,m,k; functions p,v1,v2; for k:=1:3 do approx(a(1,k)=0); grid uniform,t,x,y; unfunc p,v1,v2; hy:=hx; off prfourmat; b:=ampmat a; pol:=charpol b; let cos ax=cos ax22-sin ax22, cos ay=cos ay22-sin ay22, sin ax=2sin ax2cos ax2, sin ay=2sin ay2cos ay2, cos ax22=1-sin ax22, cos ay22=1-sin ay22, sin ax2=s1, sin ay2=s2, hx=cht/cap; factor lam; order s1,s2; pol:=troot1 pol; clear cos ax,cos ay,sin ax,sin ay,cos ax22,cos ay22,sin ax2,sin ay2, hx,hy; pol:=hurw num pol; hurwitzp pol; bt:=tcon b; btb; btb-bbt; clear a,b,bt,pol; %********************************************************************** end;
85ac093026bf60d12480fcec6e5d09fffa2a00a3	449d555969bfd7befe906877abab098c6e63a0e8	/3740/CH3/EX3.3/Ex3_3.sce	0eeb09b5698dad40cd7bc031533bafb8232b1e06	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	842	sce	Ex3_3.sce	//Optoelectronics - An Introduction, 2nd Edition by J. Wilson and J.F.B. Hawkes //Example 3.3 //OS=Windows XP sp3 //Scilab version 5.5.2 clc; clear; //given Phi=%pi/30;//Given phase retardation Deltaf=1e9;//Frequency bandwidth in Hz D=25e-3;//Diameter of the circular aperture of a KDP Pockels cell in m L=30e-3;//Length of the cell in m lambda=633e-9;//Wavelength in m Epsilon0=8.85e-12;//Permittivity of free space in SI Units Epsilonr=50;//Dimensionless Relative permittivty of the crystal r=26.4e-12;//Linear electro-optic coefficient of KDP crystal in m/V n0=1.51;//refractive index of the crystal A=%pi((D/2)^2);//Cross-sectional area of the crystal in m^2 P=(Phi^2)(lambda^2)AEpsilon0EpsilonrDeltaf/(4%pi(r^2)(n0^6)L);//Power required for the desired phase retardation in W mprintf("P = %.1f W",P);
bdeffb96b042fa1931f5bc980eccd397bf3134ec	449d555969bfd7befe906877abab098c6e63a0e8	/2705/CH7/EX7.6/Ex7_6.sce	b9e9a3beb80323ae3fddc6c27ff0e502957c7a95	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	1,516	sce	Ex7_6.sce	clear; clc; disp('Example 7.6'); // aim : To determine the // (a) heat transfer during the expansion and // (b) work done durind the expansion // given values m = 4.5; // mass of steam,[kg] P1 = 3; // initial pressure,[MN/m^2] T1 = 300+273; // initial temperature,[K] P2 = .1; // final pressure,[MN/m^2] x2 = .96; // dryness fraction at final stage // solution // for state point 1,using steam table s1 = 6.541;// [kJ/kg/K] u1 = 2751;// [kJ/kg] // for state point 2 sf2 = 1.303;// [kJ/kg/K] sfg2 = 6.056;// [kJ/kg/k] T2 = 273+99.6;// [K] hf2 = 417;// [kJ/kg] hfg2 = 2258;// [kJ/kg] vg2 = 1.694;// [m^3/kg] // hence s2 = sf2+x2sfg2;// [kJ/kg/k] h2 = hf2+x2hfg2;// [kJ/kg] u2 = h2-P2x2vg210^3;// [kJ/kg] // Diagram of example 7.6 x = [s1 s2]; y = [T1 T2]; plot2d(x,y); xtitle('Diagram for example 7.6(T vs s)'); xlabel('Entropy (kJ/kg K)'); ylabel('Temperature (K)'); x = [s1,s1]; y = [0,T1]; plot2d(x,y); x = [s2,s2]; y = [0,T2]; plot2d(x,y); // (a) // Q_rev is area of T-s diagram Q_rev = (T1+T2)/2(s2-s1);// [kJ/kg] // so total heat transfer is Q_rev = mQ_rev;// [kJ] // (b) del_u = u2-u1;// change in internal energy, [kJ/kg] // using 1st law of thermodynamics W = Q_rev-mdel_u;// [kJ] mprintf('\n (a) The heat transfer during the expansion is = %f kJ (received)\n',Q_rev); mprintf('\n (b) The work done during the expansion is = %f kJ\n',W); // End
b4f6c12a4fb39637d7fbefd0e5a20bfe351eb919	4a1effb7ec08302914dbd9c5e560c61936c1bb99	/Project 2/Experiments/GAssist-Interval-C/results/GAssist-Intervalar-C.abalone-10-1tra/result0s0.tst	c88fad19622245db68e1b82aa5ad6967a4db23f3	[]	no_license	nickgreenquist/Intro_To_Intelligent_Systems	964cad20de7099b8e5808ddee199e3e3343cf7d5	7ad43577b3cbbc0b620740205a14c406d96a2517	refs/heads/master	2021-01-20T13:23:23.931062	2017-05-04T20:08:05	2017-05-04T20:08:05	90,484,366	0	0	null	null	null	null	UTF-8	Scilab	false	false	2,502	tst	result0s0.tst	@relation abalone @attribute Sex{M,F,I} @attribute Length real[0.075,0.815] @attribute Diameter real[0.055,0.65] @attribute Height real[0.0,1.13] @attribute Whole_weight real[0.002,2.8255] @attribute Shucked_weight real[0.001,1.488] @attribute Viscera_weight real[5.0E-4,0.76] @attribute Shell_weight real[0.0015,1.005] @attribute Rings{15,7,9,10,8,20,16,19,14,11,12,18,13,5,4,6,21,17,22,1,3,26,23,29,2,27,25,24} @inputs Sex, Length, Diameter, Height, Whole_weight, Shucked_weight, Viscera_weight, Shell_weight @outputs Rings 19 9 9 9 10 9 15 9 7 8 6 6 14 11 15 11 15 9 10 9 9 8 14 9 4 6 13 9 8 9 5 6 14 11 9 6 10 9 9 6 11 9 6 9 9 8 14 9 6 6 6 9 10 8 14 9 8 8 5 6 11 9 5 6 7 6 12 9 14 9 14 9 22 9 20 11 13 11 18 11 17 11 16 11 20 11 11 9 10 9 7 8 16 11 13 9 12 11 21 11 11 11 23 11 10 8 11 8 17 9 13 9 4 9 13 11 9 8 7 9 18 11 19 9 8 9 15 9 5 9 6 6 15 9 11 8 12 9 8 9 10 8 6 6 6 6 7 6 7 6 7 8 8 8 8 9 10 9 9 9 12 9 11 11 10 11 5 6 7 6 6 8 6 8 8 9 8 8 7 9 9 9 8 9 8 9 11 9 9 9 9 11 12 11 3 6 4 6 5 6 7 8 7 8 6 8 8 9 8 9 9 9 8 9 8 9 9 9 8 9 10 9 10 11 11 9 12 11 10 11 7 6 9 6 6 8 9 8 7 8 9 9 9 9 9 9 8 9 10 9 10 9 9 9 10 9 10 9 10 11 12 9 10 9 10 11 7 8 8 9 8 9 9 9 9 9 9 9 10 9 9 9 11 11 11 9 10 11 10 11 6 6 7 6 8 8 7 8 8 8 8 8 7 8 9 8 10 8 11 9 9 9 8 9 8 11 7 11 12 9 12 9 9 11 10 9 10 11 12 11 9 9 14 11 11 11 13 11 10 11 11 11 10 11 12 11 8 9 8 9 11 9 10 11 5 6 7 8 8 8 7 8 8 8 8 9 9 8 8 9 8 9 8 9 9 9 7 9 10 9 13 9 10 9 10 9 11 9 9 9 10 11 9 9 11 9 10 11 11 9 10 9 9 9 10 11 10 11 5 6 6 6 7 6 6 6 8 8 10 9 8 8 7 8 8 8 11 11 9 9 10 11 10 9 7 8 27 11 7 8 10 9 19 11 9 9 6 6 9 8 15 11 13 11 8 8 16 11 13 9 13 11 11 11 13 11 14 9 13 11 8 9 10 8 10 9 12 9 9 8 17 9 12 8 11 8 14 11 15 9 11 9 16 9 12 9 8 9 15 8 7 8 6 8 8 8 9 9 6 6 6 6 6 8 8 8 10 11 9 9 11 11 7 8 8 8 9 9 9 9 9 9 10 9 9 9 10 9 9 9 7 6 8 8 8 11 6 8 7 8 11 8 11 11 8 8 11 11 12 11 10 11 4 6 7 6 8 8 9 9 9 9 8 9 10 9 11 9 9 11 13 9 12 11 9 9 13 9 9 9 9 9 9 8 8 8 11 9 11 8 9 9 11 9 10 9 12 9 9 9 9 11 7 9 6 9 11 8 18 11 17 11 17 11 10 9 12 8 12 11 14 11 15 11 15 11 9 9 12 9 11 8 16 11 16 8 12 6 17 9 10 8 10 8 13 8 13 9 18 9 9 9 13 8 8 9 6 8 9 9 11 9 4 6 9 11 11 11 11 11 7 8 7 8 8 9 8 9 9 9 10 9 11 11 7 6 8 8 8 8 11 11 10 9 11 11 12 11 7 8 10 9 6 6 5 6 6 6 9 9 9 9 9 9 10 9 11 9 11 9 7 8 7 9 10 9 9 9 5 6 8 8 9 9 11 9 11 11 13 11 9 8 12 11 8 6 10 11 12 11 14 8 7 8 8 9 9 9 6 6 9 8 9 6 16 11 12 11 11 9 10 9 13 9 15 11 14 11 13 9 9 9 4 6 6 9 10 9 11 11 5 6 10 9 9 9 8 9 10 9 11 9 12 9 10 11 8 8 11 9 11 11 9 9 11 9 11 9 13 11 7 8 10 8 8 9
b24b76abc0f6a3443a9c7bc52ccc73c40c08a66d	449d555969bfd7befe906877abab098c6e63a0e8	/3669/CH8/EX8.9/9.sce	a314224dcac58cedf18ef53e65754bf887be4f33	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	346	sce	9.sce	//Variable declaration mewe=0.13; //mobility of electrons(m2/Vs) mewh=0.05; //mobility of holes(m2/Vs) e=1.610-19; ni=1.51016; //intrinsic concentration(per m3) //Calculation sigma=nie(mewe+mewh); //conductivity(per ohm m) //Result printf('conductivity is %0.3f 10-4 per ohm m \n',sigma10**4)
4768facc80097c2f98ff7e8781a2b5e6243f9052	8217f7986187902617ad1bf89cb789618a90dd0a	/browsable_source/2.5/Unix-Windows/scilab-2.5/macros/int/%s_n_i.sci	05b7a480a1a06405f638c701a1268f9f2fcfa555	[ "LicenseRef-scancode-public-domain", "LicenseRef-scancode-warranty-disclaimer" ]	permissive	clg55/Scilab-Workbench	4ebc01d2daea5026ad07fbfc53e16d4b29179502	9f8fd29c7f2a98100fa9aed8b58f6768d24a1875	refs/heads/master	2023-05-31T04:06:22.931111	2022-09-13T14:41:51	2022-09-13T14:41:51	258,270,193	0	1	null	null	null	null	UTF-8	Scilab	false	false	47	sci	%s_n_i.sci	function r=%s_n_i(a,b) // a<>b r=a<>double(b)
b38d52dffa219bf6f0c7c2f436b90b11e390ea6d	4a1949be12fbe9a81d9308381b34c611e65877ca	/tests/semantiques/super.tst	50f6a1c06d35ac2c0e8a4146f9b57a2b76f51012	[]	no_license	ng88/trad	26439d8fe2284ece19d6fbfaa397d3f6f0d13e78	e4d3d4d56928539144d30c5c49e01e65c9b8729c	refs/heads/master	2020-12-05T07:31:25.854231	2008-02-29T10:15:34	2008-02-29T10:15:34	67,351,952	0	0	null	null	null	null	UTF-8	Scilab	false	false	490	tst	super.tst	class A public A(integer a) { prints("A::A(integer)\n"); } public A() { prints("A::A()\n"); } end class B inherit A public B() { prints("B::B()\n"); } public B(integer b) { super(b); prints("B::B()\n"); } public void main() { VAR A a; prints("test1\n"); a := new B(); prints("test2\n"); a := new B(5); } end
c75124e98468dbbbe994ae44be20c1d5aaa58d99	c87a44be475d3008f7d0fcb8dd2eac3b2fa78e94	/Examples/Chapter_5/Ex5_3.sce	6e8adcc90a225b7679d01ea06cf4acd9746d878a	[]	no_license	Echeban/icmd3e	6c766ffafab0137a64de46448879d8a9eed2903c	6ca0273e322fa390fcabc66669f3f56c9af5a563	refs/heads/master	2020-03-27T09:08:47.798549	2018-08-27T15:45:44	2018-08-27T15:45:44	146,316,991	0	0	null	null	null	null	UTF-8	Scilab	false	false	272	sce	Ex5_3.sce	// Example 5.3 mode(0); //prints everything not suppressed with ; exec('C:\Users\EJB\OneDrive\Scilab\CLT.sci',0); // include CLT.sci theta = -55; sigma = [100; 10; -5];// lamina c.s T = transf(theta) Tinv = transf(-theta) sigma_ = Tinv*sigma // laminate c.s.
a304d204eaf03d3060c9a93e6d43ad5f412dcf76	449d555969bfd7befe906877abab098c6e63a0e8	/1895/CH8/EX8.7/EXAMPLE8_7.SCE	829a330ec148f97b5e90485005a4d8b6ca8d9d4d	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	687	sce	EXAMPLE8_7.SCE	//ANALOG AND DIGITAL COMMUNICATION //BY Dr.SANJAY SHARMA //CHAPTER 7 //WAVEFORM CODING TECHNIQUES clear all; clc; printf("EXAMPLE 8.7(PAGENO 390)"); //given f_m = 310^3//maximum frequency M = 16//number of quantization levels q = M//number of quantization levels //calculations v = log2(q);//number of bits f_s = 2f_m//sampling frequency or rate which is greater than or equal to obtained value r = v*f_s//bit transmission rate which is greater than or equal to obtained value //results printf("\n\ni.Number of bits in a codeword = %.2f bits",v); printf("\n\nii.Minimum sampling rate = %.2f Hz ",f_s); printf("\n\niii.Bit transmission rate =%.2f bits/sec",r);
b38dc6e87f5fd90b46d6a9ac13714feadd8a0de5	449d555969bfd7befe906877abab098c6e63a0e8	/3507/CH19/EX19.10/Ex19_10.sce	6988255cc7d02a6bde423de08d69ee78fea46577	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	288	sce	Ex19_10.sce	//chapter19 //example19.10 //page423 fc=500 // kHz fs=1 // kHz lower_sideband=fc-fs upper_sideband=fc+fs BW=upper_sideband-lower_sideband printf("sideband frequencies = %.3f kHz and %.3f kHz \n",lower_sideband,upper_sideband) printf("bandwidth required = %.3f kHz \n",BW)
8116363e209d047d1cb79e228583998c71233af9	449d555969bfd7befe906877abab098c6e63a0e8	/2657/CH26/EX26.3/Ex26_3.sce	6fee1334b0300b4a1f7cf15a53256a2bf2b7a8c5	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	629	sce	Ex26_3.sce	//Calculations for zero efficiency clc,clear //Given: T1=25+273,T3=750+273 //Minimum and maximum temperature in K r_p=4 //pressure ratio eta_C=75 //Isentropic efficiency of compressor in percent g=1.4 //Specific heat ratio(gamma) //Solution: //Refer fig 26.24 T2!=T1r_p^((g-1)/g) //Isentropic temperature at 2 in K T2=(T2!-T1)/(eta_C/100)+T1 //Temperature at 2 in K T4!=T3/r_p^((g-1)/g) //Isentropic temperature at 4 in K //For zero efficiency of the cycle (T3-T4) = (T2-T1) eta_T=(T2-T1)/(T3-T4!) //Turbine efficiency //Results: printf("\n The turbine efficiency for zero cycle efficiency, eta_T = %.1f percent\n\n",eta_T100)
bef9ec9dc2764b5a1b5537d40046f8baf280a2a4	a76fc4b155b155bb59a14a82b5939a30a9f74eca	/ProjetTomEval/NewTomeval/doc/TestProtoCarat/Test pb offre élargie/Résultat avant/Resultat de prince hertz sur offre élargie.tst	335a05bdc7c44b12e54cd4653d12e59e4627b25c	[]	no_license	isliulin/JFC-Tools	aade33337153d7cc1b5cfcd33744d89fe2d56b79	98b715b78ae5c01472ef595b1faa5531f356e794	refs/heads/master	2023-06-01T12:10:51.383944	2021-06-17T14:41:07	2021-06-17T14:41:07	null	0	0	null	null	null	null	UTF-8	Scilab	false	false	1,241	tst	Resultat de prince hertz sur offre élargie.tst	5860000;1056 @1 114;4563;77.87;38.46;32.05;25016;426.9;5.48;3.7 20;15;27;38;47;55;62;67;72;76;80;83;85;87;89;91;92;93;94;95;96 @2 0;1296;22.13; 1;838;14.30;77.87 2;683;11.67;63.57 3;542;9.26;51.89 4;434;7.41;42.64 5;354;6.05;35.23 6;296;5.06;29.17 7;250;4.27;24.12 8;211;3.61;19.84 9;176;3.02;16.24 10;146;2.50;13.22 11;120;2.06;10.71 12;99;1.69;8.65 13;80;1.38;6.96 14;65;1.11;5.58 15;52;0.89;4.47 16;41;0.71;3.57 17;32;0.56;2.87 18;26;0.45;2.31 19;21;0.36;1.86 20;87;1.50;1.50 @3 P(33%);21.3;5.0;2.0 M(33%);97.6;22.9;23.1 G(33%);308.0;72.1;10.6 @4 04/03/2002;1488;32.6;25.4 05/03/2002;484;10.6;33.7 06/03/2002;318;7.0;39.1 07/03/2002;688;15.1;50.8 08/03/2002;282;6.2;55.6 09/03/2002;199;4.4;59.0 10/03/2002;13;0.3;59.2 11/03/2002;161;3.5;62.0 12/03/2002;71;1.6;63.2 13/03/2002;72;1.6;64.4 14/03/2002;131;2.9;66.7 15/03/2002;231;5.1;70.6 16/03/2002;77;1.7;71.9 18/03/2002;164;3.6;74.7 19/03/2002;70;1.5;75.9 20/03/2002;26;0.6;76.4 21/03/2002;38;0.8;77.0 22/03/2002;37;0.8;77.7 23/03/2002;13;0.3;77.9 @5 du 04/03/02 au 10/03/02;3471;76.1;59.2 du 11/03/02 au 17/03/02;743;16.3;71.9 du 18/03/02 au 24/03/02;348;7.6;77.9 @6 du 04/03/02 au 10/03/02;3471;76.1;59.2 du 11/03/02 au 17/03/02;743;16.3;71.9 du 18/03/02 au 24/03/02;348;7.6;77.9 @7 @8
97e108bec3659dbe46bd37a83dc8c719dbab62a9	449d555969bfd7befe906877abab098c6e63a0e8	/575/DEPENDENCIES/463.sci	d0e37ad3662ce6708aa4127d5fe94d5d0a2cd288	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	47	sci	463.sci	basis=100 //mol x=0.850 conv1=0.501 conv2=0.471
e49477d3f757d0a5b0163985b439b3766b1cb62e	449d555969bfd7befe906877abab098c6e63a0e8	/3863/CH2/EX2.11/Ex2_11.sce	1b1190ccc0cd815aa7c0dc21048dec32e7f6f438	[]	no_license	FOSSEE/Scilab-TBC-Uploads	948e5d1126d46bdd2f89a44c54ba62b0f0a1f5e1	7bc77cb1ed33745c720952c92b3b2747c5cbf2df	refs/heads/master	2020-04-09T02:43:26.499817	2018-02-03T05:31:52	2018-02-03T05:31:52	37,975,407	3	12	null	null	null	null	UTF-8	Scilab	false	false	670	sce	Ex2_11.sce	clear //Given //Variable declaration A=88 //Area of section in sq.mm P=7000 //Axial pull in N Ldo=8 //Original Lateral dimension in mm Ldc=7.9985 //Changed Lateral dimension in mm C=0.8e5 //modulus of rigidity in N/sq.mm //Calculation lat_strain=(Ldo-Ldc)/Ldo //Lateral strain sigma=P/A //Axial stress in N/sq.mm mu=(1/((sigma/lat_strain)/(2C)-1)) //Poisson's ratio E=((sigma/lat_strain)/((sigma/lat_strain)/(2*C)-1)) //Modulus of elasticity in N/sq.mm //Result printf("\n Modulus of elasticity = %.4e N/mm^2",E)
e4d8f49b8288cfdda515379707672420277e9c4c	6e257f133dd8984b578f3c9fd3f269eabc0750be	/ScilabFromTheoryToPractice/Computing/testpolyerror.sce	a9001a5c51fa8d20e8f2ab6aad669bdc53b548c8	[]	no_license	markusmorawitz77/Scilab	902ef1b9f356dd38ea2dbadc892fe50d32b44bd0	7c98963a7d80915f66a3231a2235010e879049aa	refs/heads/master	2021-01-19T23:53:52.068010	2017-04-22T12:39:21	2017-04-22T12:39:21	89,051,705	0	0	null	null	null	null	UTF-8	Scilab	false	false	51	sce	testpolyerror.sce	X=poly(0,'x') Z=poly(0,'z') X+Z // error 144

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