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decuslib10-02
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43,50145/mlss.ssp
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C MLSS 10
���C ..................................................................MLSS 20
���C MLSS 30
���C SUBROUTINE MLSS MLSS 40
���C MLSS 50
���C PURPOSE MLSS 60
���C SUBROUTINE MLSS IS THE SECOND STEP IN THE PROCEDURE FOR MLSS 70
���C CALCULATING THE LEAST SQUARES SOLUTION OF MINIMAL LENGTH MLSS 80
���C OF A SYSTEM OF SIMULTANEOUS LINEAR EQUATIONS WITH SYMMETRIC MLSS 90
���C POSITIVE SEMI-DEFINITE COEFFICIENT MATRIX. MLSS 100
���C MLSS 110
���C USAGE MLSS 120
���C CALL MLSS(A,N,IRANK,TRAC,INC,RHS,IER) MLSS 130
���C MLSS 140
���C DESCRIPTION OF PARAMETERS MLSS 150
���C A - COEFFICIENT MATRIX IN FACTORED FORM AS GENERATED MLSS 160
���C BY SUBROUTINE MFSS FROM INITIALLY GIVEN SYMMETRIC MLSS 170
���C COEFFICIENT MATRIX A STORED IN N*(N+1)/2 LOCATIONS MLSS 180
���C A REMAINS UNCHANGED MLSS 190
���C N - DIMENSION OF COEFFICIENT MATRIX MLSS 200
���C IRANK - RANK OF COEFFICIENT MATRIX, CALCULATED BY MEANS OF MLSS 210
���C SUBROUTINE MFSS MLSS 220
���C TRAC - VECTOR OF DIMENSION N CONTAINING THE MLSS 230
���C SUBSCRIPTS OF PIVOT ROWS AND COLUMNS, I.E. THE MLSS 240
���C PRODUCT REPRESENTATION IN TRANSPOSITIONS OF THE MLSS 250
���C PERMUTATION WHICH WAS APPLIED TO ROWS AND COLUMNS MLSS 260
���C OF A IN THE FACTORIZATION PROCESS MLSS 270
���C TRAC IS A RESULTANT ARRAY OF SUBROUTINE MFSS MLSS 280
���C INC - INPUT VARIABLE WHICH SHOULD CONTAIN THE VALUE ZERO MLSS 290
���C IF THE SYSTEM OF SIMULTANEOUS EQUATIONS IS KNOWN MLSS 300
���C TO BE COMPATIBLE AND A NONZERO VALUE OTHERWISE MLSS 310
���C RHS - VECTOR OF DIMENSION N CONTAINING THE RIGHT HAND SIDEMLSS 320
���C ON RETURN RHS CONTAINS THE MINIMAL LENGTH SOLUTION MLSS 330
���C IER - RESULTANT ERROR PARAMETER MLSS 340
���C IER = 0 MEANS NO ERRORS MLSS 350
���C IER =-1 MEANS N AND/OR IRANK IS NOT POSITIVE AND/OR MLSS 360
���C IRANK IS GREATER THAN N MLSS 370
���C IER = 1 MEANS THE FACTORIZATION CONTAINED IN A HAS MLSS 380
���C ZERO DIVISORS AND/OR TRAC CONTAINS MLSS 390
���C VALUES OUTSIDE THE FEASIBLE RANGE 1 UP TO N MLSS 400
���C MLSS 410
���C REMARKS MLSS 420
���C THE MINIMAL LENGTH SOLUTION IS PRODUCED IN THE STORAGE MLSS 430
���C LOCATIONS OCCUPIED BY THE RIGHT HAND SIDE. MLSS 440
���C SUBROUTINE MLSS DOES TAKE CARE OF THE PERMUTATION MLSS 450
���C WHICH WAS APPLIED TO ROWS AND COLUMNS OF A. MLSS 460
���C OPERATION IS BYPASSED IN CASE OF A NON POSITIVE VALUE MLSS 470
���C OF IRANK MLSS 480
���C MLSS 490
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MLSS 500
���C NONE MLSS 510
���C MLSS 520
���C METHOD MLSS 530
���C LET T, U, TU BE THE COMPONENTS OF THE FACTORIZATION OF A, MLSS 540
���C AND LET THE RIGHT HAND SIDE BE PARTITIONED INTO A FIRST MLSS 550
���C PART X1 OF DIMENSION IRANK AND A SECOND PART X2 OF DIMENSIONMLSS 560
���C N-IRANK. THEN THE FOLLOWING OPERATIONS ARE APPLIED IN MLSS 570
���C SEQUENCE MLSS 580
���C (1) INTERCHANGE RIGHT HAND SIDE MLSS 590
���C (2) X1 = X1 + U * X2 MLSS 600
���C (3) X2 =-TRANSPOSE(U) * X1 MLSS 610
���C (4) X2 = INVERSE(TU) * INVERSE(TRANSPOSE(TU)) * X2 MLSS 620
���C (5) X1 = X1 + U * X2 MLSS 630
���C (6) X1 = INVERSE(T) * INVERSE(TRANSPOSE(T)) * X1 MLSS 640
���C (7) X2 =-TRANSPOSE(U) * X1 MLSS 650
���C (8) X2 = INVERSE(TU) * INVERSE(TRANSPOSE(TU)) * X2 MLSS 660
���C (9) X1 = X1 + U * X2 MLSS 670
���C (10)X2 = TRANSPOSE(U) * X1 MLSS 680
���C (11) REINTERCHANGE CALCULATED SOLUTION MLSS 690
���C IF THE SYSTEM OF SIMULTANEOUS LINEAR EQUATIONS IS SPECIFIED MLSS 700
���C TO BE COMPATIBLE THEN STEPS (2), (3), (4) AND (5) ARE MLSS 710
���C CANCELLED. MLSS 720
���C IF THE COEFFICIENT MATRIX HAS RANK N, THEN THE ONLY STEPS MLSS 730
���C PERFORMED ARE (1), (6) AND (11). MLSS 740
���C MLSS 750
���C ..................................................................MLSS 760
���C MLSS 770
��� SUBROUTINE MLSS(A,N,IRANK,TRAC,INC,RHS,IER) MLSS 780
���C MLSS 790
���C MLSS 800
���C DIMENSIONED DUMMY VARIABLES MLSS 810
��� DIMENSION A(1),TRAC(1),RHS(1) MLSS 820
��� DOUBLE PRECISION SUM MLSS 830
���C MLSS 840
���C TEST OF SPECIFIED DIMENSIONS MLSS 850
��� IDEF=N-IRANK MLSS 860
��� IF(N)33,33,1 MLSS 870
��� 1 IF(IRANK)33,33,2 MLSS 880
��� 2 IF(IDEF)33,3,3 MLSS 890
���C MLSS 900
���C CALCULATE AUXILIARY VALUES MLSS 910
��� 3 ITE=IRANK*(IRANK+1)/2 MLSS 920
��� IX2=IRANK+1 MLSS 930
��� NP1=N+1 MLSS 940
��� IER=0 MLSS 950
���C MLSS 960
���C INTERCHANGE RIGHT HAND SIDE MLSS 970
��� JJ=1 MLSS 980
��� II=1 MLSS 990
��� 4 DO 6 I=1,N MLSS1000
��� J=TRAC(II) MLSS1010
��� IF(J)31,31,5 MLSS1020
��� 5 HOLD=RHS(II) MLSS1030
��� RHS(II)=RHS(J) MLSS1040
��� RHS(J)=HOLD MLSS1050
��� 6 II=II+JJ MLSS1060
��� IF(JJ)32,7,7 MLSS1070
���C MLSS1080
���C PERFORM STEP 2 IF NECESSARY MLSS1090
��� 7 ISW=1 MLSS1100
��� IF(INC*IDEF)8,28,8 MLSS1110
���C MLSS1120
���C CALCULATE X1 = X1 + U * X2 MLSS1130
��� 8 ISTA=ITE MLSS1140
��� DO 10 I=1,IRANK MLSS1150
��� ISTA=ISTA+1 MLSS1160
��� JJ=ISTA MLSS1170
��� SUM=0.D0 MLSS1180
��� DO 9 J=IX2,N MLSS1190
��� SUM=SUM+A(JJ)*RHS(J) MLSS1200
��� 9 JJ=JJ+J MLSS1210
��� 10 RHS(I)=RHS(I)+SUM MLSS1220
��� GOTO(11,28,11),ISW MLSS1230
���C MLSS1240
���C CALCULATE X2 = TRANSPOSE(U) * X1 MLSS1250
��� 11 ISTA=ITE MLSS1260
��� DO 15 I=IX2,N MLSS1270
��� JJ=ISTA MLSS1280
��� SUM=0.D0 MLSS1290
��� DO 12 J=1,IRANK MLSS1300
��� JJ=JJ+1 MLSS1310
��� 12 SUM=SUM+A(JJ)*RHS(J) MLSS1320
��� GOTO(13,13,14),ISW MLSS1330
��� 13 SUM=-SUM MLSS1340
��� 14 RHS(I)=SUM MLSS1350
��� 15 ISTA=ISTA+I MLSS1360
��� GOTO(16,29,30),ISW MLSS1370
���C MLSS1380
���C INITIALIZE STEP (4) OR STEP (8) MLSS1390
��� 16 ISTA=IX2 MLSS1400
��� IEND=N MLSS1410
��� JJ=ITE+ISTA MLSS1420
���C MLSS1430
���C DIVISION OF X1 BY TRANSPOSE OF TRIANGULAR MATRIX MLSS1440
��� 17 SUM=0.D0 MLSS1450
��� DO 20 I=ISTA,IEND MLSS1460
��� IF(A(JJ))18,31,18 MLSS1470
��� 18 RHS(I)=(RHS(I)-SUM)/A(JJ) MLSS1480
��� IF(I-IEND)19,21,21 MLSS1490
��� 19 JJ=JJ+ISTA MLSS1500
��� SUM=0.D0 MLSS1510
��� DO 20 J=ISTA,I MLSS1520
��� SUM=SUM+A(JJ)*RHS(J) MLSS1530
��� 20 JJ=JJ+1 MLSS1540
���C MLSS1550
���C DIVISION OF X1 BY TRIANGULAR MATRIX MLSS1560
��� 21 SUM=0.D0 MLSS1570
��� II=IEND MLSS1580
��� DO 24 I=ISTA,IEND MLSS1590
��� RHS(II)=(RHS(II)-SUM)/A(JJ) MLSS1600
��� IF(II-ISTA)25,25,22 MLSS1610
��� 22 KK=JJ-1 MLSS1620
��� SUM=0.D0 MLSS1630
��� DO 23 J=II,IEND MLSS1640
��� SUM=SUM+A(KK)*RHS(J) MLSS1650
��� 23 KK=KK+J MLSS1660
��� JJ=JJ-II MLSS1670
��� 24 II=II-1 MLSS1680
��� 25 IF(IDEF)26,30,26 MLSS1690
��� 26 GOTO(27,11,8),ISW MLSS1700
���C MLSS1710
���C PERFORM STEP (5) MLSS1720
��� 27 ISW=2 MLSS1730
��� GOTO 8 MLSS1740
���C MLSS1750
���C PERFORM STEP (6) MLSS1760
��� 28 ISTA=1 MLSS1770
��� IEND=IRANK MLSS1780
��� JJ=1 MLSS1790
��� ISW=2 MLSS1800
��� GOTO 17 MLSS1810
���C MLSS1820
���C PERFORM STEP (8) MLSS1830
��� 29 ISW=3 MLSS1840
��� GOTO 16 MLSS1850
���C MLSS1860
���C REINTERCHANGE CALCULATED SOLUTION MLSS1870
��� 30 II=N MLSS1880
��� JJ=-1 MLSS1890
��� GOTO 4 MLSS1900
���C MLSS1910
���C ERROR RETURN IN CASE OF ZERO DIVISOR MLSS1920
��� 31 IER=1 MLSS1930
��� 32 RETURN MLSS1940
���C MLSS1950
���C ERROR RETURN IN CASE OF ILLEGAL DIMENSION MLSS1960
��� 33 IER=-1 MLSS1970
��� RETURN MLSS1980
��� END MLSS1990