Trailing-Edge
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PDP-10 Archives
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decuslib20-02
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decus/20-0026/ttest.ssp
There are 2 other files named ttest.ssp in the archive. Click here to see a list.
C TTES 10
���C ..................................................................TTES 20
���C TTES 30
���C SUBROUTINE TTEST TTES 40
���C TTES 50
���C PURPOSE TTES 60
���C TO FIND CERTAIN T-STATISTICS ON THE MEANS OF POPULATIONS. TTES 70
���C TTES 80
���C USAGE TTES 90
���C CALL TTEST (A,NA,B,NB,NOP,NDF,ANS) TTES 100
���C TTES 110
���C DESCRIPTION OF PARAMETERS TTES 120
���C A - INPUT VECTOR OF LENGTH NA CONTAINING DATA. TTES 130
���C NA - NUMBER OF OBSERVATIONS IN A. TTES 140
���C B - INPUT VECTOR OF LENGTH NB CONTAINING DATA. TTES 150
���C NB - NUMBER OF OBSERVATIONS IN B. TTES 160
���C NOP - OPTIONS FOR VARIOUS HYPOTHESES.. TTES 170
���C NOP=1--- THAT POPULATION MEAN OF B = GIVEN VALUE A. TTES 180
���C (SET NA=1) TTES 190
���C NOP=2--- THAT POPULATION MEAN OF B = POPULATION MEAN TTES 200
���C OF A, GIVEN THAT THE VARIANCE OF B = THE TTES 210
���C VARIANCE OF A. TTES 220
���C NOP=3--- THAT POPULATION MEAN OF B = POPULATION MEAN TTES 230
���C OF A, GIVEN THAT THE VARIANCE OF B IS NOT TTES 240
���C EQUAL TO THE VARIANCE OF A. TTES 250
���C NOP=4--- THAT POPULATION MEAN OF B = POPULATION MEAN TTES 260
���C OF A, GIVEN NO INFORMATION ABOUT VARIANCES OFTTES 270
���C A AND B. (SET NA=NB) TTES 280
���C NDF - OUTPUT VARIABLE CONTAINING DEGREES OF FREEDOM ASSOCI- TTES 290
���C ATED WITH T-STATISTIC CALCULATED. TTES 300
���C ANS - T-STATISTIC FOR GIVEN HYPOTHESIS. TTES 310
���C TTES 320
���C REMARKS TTES 330
���C NA AND NB MUST BE GREATER THAN 1, EXCEPT THAT NA=1 IN TTES 340
���C OPTION 1. NA AND NB MUST BE THE SAME IN OPTION 4. TTES 350
���C IF NOP IS OTHER THAN 1, 2, 3 OR 4, DEGREES OF FREEDOM AND TTES 360
���C T-STATISTIC WILL NOT BE CALCULATED. NDF AND ANS WILL BE TTES 370
���C SET TO ZERO. TTES 380
���C TTES 390
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED TTES 400
���C NONE TTES 410
���C TTES 420
���C METHOD TTES 430
���C REFER TO OSTLE, BERNARD, 'STATISTICS IN RESEARCH', IOWA TTES 440
���C STATE COLLEGE PRESS, 1954, CHAPTER 5. TTES 450
���C TTES 460
���C ..................................................................TTES 470
���C TTES 480
��� SUBROUTINE TTEST (A,NA,B,NB,NOP,NDF,ANS) TTES 490
��� DIMENSION A(1),B(1) TTES 500
���C TTES 510
���C INITIALIZATION TTES 520
���C TTES 530
��� NDF=0 TTES 540
��� ANS=0.0 TTES 550
���C TTES 560
���C CALCULATE THE MEAN OF A TTES 570
���C TTES 580
��� AMEAN=0.0 TTES 590
��� DO 110 I=1,NA TTES 600
��� 110 AMEAN=AMEAN+A(I) TTES 610
��� FNA=NA TTES 620
��� AMEAN=AMEAN/FNA TTES 630
���C TTES 640
���C CALCULATE THE MEAN OF B TTES 650
���C TTES 660
��� 115 BMEAN=0.0 TTES 670
��� DO 120 I=1,NB TTES 680
��� 120 BMEAN=BMEAN+B(I) TTES 690
��� FNB=NB TTES 700
��� BMEAN=BMEAN/FNB TTES 710
���C TTES 720
��� IF(NOP-4) 122, 180, 200 TTES 730
��� 122 IF(NOP-1) 200, 135, 125 TTES 740
���C TTES 750
���C CALCULATE THE VARIANCE OF A TTES 760
���C TTES 770
��� 125 SA2=0.0 TTES 780
��� DO 130 I=1,NA TTES 790
��� 130 SA2=SA2+(A(I)-AMEAN)**2 TTES 800
��� SA2=SA2/(FNA-1.0) TTES 810
���C TTES 820
���C CALCULATE THE VARIANCE OF B TTES 830
���C TTES 840
��� 135 SB2=0.0 TTES 850
��� DO 140 I=1,NB TTES 860
��� 140 SB2=SB2+(B(I)-BMEAN)**2 TTES 870
��� SB2=SB2/(FNB-1.0) TTES 880
���C TTES 890
��� GO TO (150,160,170), NOP TTES 900
���C TTES 910
���C OPTION 1 TTES 920
���C TTES 930
��� 150 ANS=((BMEAN-AMEAN)/SQRT(SB2))*SQRT(FNB) TTES 940
��� NDF=NB-1 TTES 950
��� GO TO 200 TTES 960
���C TTES 970
���C OPTION 2 TTES 980
���C TTES 990
��� 160 NDF=NA+NB-2 TTES1000
��� FNDF=NDF TTES1010
��� S=SQRT(((FNA-1.0)*SA2+(FNB-1.0)*SB2)/FNDF) TTES1020
��� ANS=((BMEAN-AMEAN)/S)*(1.0/SQRT(1.0/FNA+1.0/FNB)) TTES1030
��� GO TO 200 TTES1040
���C TTES1050
���C OPTION 3 TTES1060
���C TTES1070
��� 170 ANS=(BMEAN-AMEAN)/SQRT(SA2/FNA+SB2/FNB) TTES1080
��� A1=(SA2/FNA+SB2/FNB)**2 TTES1090
��� A2=(SA2/FNA)**2/(FNA+1.0)+(SB2/FNB)**2/(FNB+1.0) TTES1100
��� NDF=A1/A2-2.0+0.5 TTES1110
��� GO TO 200 TTES1120
���C TTES1130
���C OPTION 4 TTES1140
���C TTES1150
��� 180 SD=0.0 TTES1160
��� D=BMEAN-AMEAN TTES1170
��� DO 190 I=1,NB TTES1180
��� 190 SD=SD+(B(I)-A(I)-D)**2 TTES1190
��� SD=SQRT(SD/(FNB-1.0)) TTES1200
��� ANS=(D/SD)*SQRT(FNB) TTES1210
��� NDF=NB-1 TTES1220
���C TTES1230
��� 200 RETURN TTES1240
��� END TTES1250
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