Trailing-Edge
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PDP-10 Archives
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decus_20tap2_198111
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decus/20-0026/dqhfe.ssp
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C DQHE 10
���C ..................................................................DQHE 20
���C DQHE 30
���C SUBROUTINE DQHFE DQHE 40
���C DQHE 50
���C PURPOSE DQHE 60
���C TO COMPUTE THE VECTOR OF INTEGRAL VALUES FOR A GIVEN DQHE 70
���C EQUIDISTANT TABLE OF FUNCTION AND DERIVATIVE VALUES. DQHE 80
���C DQHE 90
���C USAGE DQHE 100
���C CALL DQHFE (H,Y,DERY,Z,NDIM) DQHE 110
���C DQHE 120
���C DESCRIPTION OF PARAMETERS DQHE 130
���C H - DOUBLE PRECISION INCREMENT OF ARGUMENT VALUES. DQHE 140
���C Y - DOUBLE PRECISION INPUT VECTOR OF FUNCTION VALUES. DQHE 150
���C DERY - DOUBLE PRECISION INPUT VECTOR OF DERIVATIVE VALUES.DQHE 160
���C Z - RESULTING DOUBLE PRECISION VECTOR OF INTEGRAL DQHE 170
���C VALUES. Z MAY BE IDENTICAL WITH Y OR DERY. DQHE 180
���C NDIM - THE DIMENSION OF VECTORS Y,DERY,Z. DQHE 190
���C DQHE 200
���C REMARKS DQHE 210
���C NO ACTION IN CASE NDIM LESS THAN 1. DQHE 220
���C DQHE 230
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED DQHE 240
���C NONE DQHE 250
���C DQHE 260
���C METHOD DQHE 270
���C BEGINNING WITH Z(1)=0, EVALUATION OF VECTOR Z IS DONE BY DQHE 280
���C MEANS OF HERMITEAN FOURTH ORDER INTEGRATION FORMULA. DQHE 290
���C FOR REFERENCE, SEE DQHE 300
���C (1) F.B.HILDEBRAND, INTRODUCTION TO NUMERICAL ANALYSIS, DQHE 310
���C MCGRAW-HILL, NEW YORK/TORONTO/LONDON, 1956, PP.314-319. DQHE 320
���C (2) R.ZURMUEHL, PRAKTISCHE MATHEMATIK FUER INGENIEURE UND DQHE 330
���C PHYSIKER, SPRINGER, BERLIN/GOETTINGEN/HEIDELBERG, 1963, DQHE 340
���C PP.227-230. DQHE 350
���C DQHE 360
���C ..................................................................DQHE 370
���C DQHE 380
��� SUBROUTINE DQHFE(H,Y,DERY,Z,NDIM) DQHE 390
���C DQHE 400
���C DQHE 410
��� DIMENSION Y(1),DERY(1),Z(1) DQHE 420
��� DOUBLE PRECISION Y,DERY,Z,H,HH,HS,SUM1,SUM2 DQHE 430
���C DQHE 440
��� SUM2=0.D0 DQHE 450
��� IF(NDIM-1)4,3,1 DQHE 460
��� 1 HH=.5D0*H DQHE 470
��� HS=.16666666666666667D0*H DQHE 480
���C DQHE 490
���C INTEGRATION LOOP DQHE 500
��� DO 2 I=2,NDIM DQHE 510
��� SUM1=SUM2 DQHE 520
��� SUM2=SUM2+HH*((Y(I)+Y(I-1))+HS*(DERY(I-1)-DERY(I))) DQHE 530
��� 2 Z(I-1)=SUM1 DQHE 540
��� 3 Z(NDIM)=SUM2 DQHE 550
��� 4 RETURN DQHE 560
��� END DQHE 570
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