Trailing-Edge
-
PDP-10 Archives
-
decuslib10-02
-
43,50145/mfss.ssp
There are 2 other files named mfss.ssp in the archive. Click here to see a list.
C MFSS 10
���C ..................................................................MFSS 20
���C MFSS 30
���C SUBROUTINE MFSS MFSS 40
���C MFSS 50
���C PURPOSE MFSS 60
���C GIVEN A SYMMETRIC POSITIVE SEMI DEFINITE MATRIX , MFSS WILL MFSS 70
���C (1) DETERMINE THE RANK AND LINEARLY INDEPENDENT ROWS AND MFSS 80
���C COLUMNS MFSS 90
���C (2) FACTOR A SYMMETRIC SUBMATRIX OF MAXIMAL RANK MFSS 100
���C (3) EXPRESS NONBASIC ROWS IN TERMS OF BASIC ONES, MFSS 110
���C EXPRESS NONBASIC COLUMNS IN TERMS OF BASIC ONES MFSS 120
���C EXPRESS BASIC VARIABLES IN TERMS OF FREE ONES MFSS 130
���C SUBROUTINE MFSS MAY BE USED AS A PREPARATORY STEP FOR THE MFSS 140
���C CALCULATION OF THE LEAST SQUARES SOLUTION OF MINIMAL MFSS 150
���C LENGTH OF A SYSTEM OF LINEAR EQUATIONS WITH SYMMETRIC MFSS 160
���C POSITIVE SEMI-DEFINITE COEFFICIENT MATRIX MFSS 170
���C MFSS 180
���C USAGE MFSS 190
���C CALL MFSS(A,N,EPS,IRANK,TRAC) MFSS 200
���C MFSS 210
���C DESCRIPTION OF PARAMETERS MFSS 220
���C A - UPPER TRIANGULAR PART OF GIVEN SYMMETRIC SEMI- MFSS 230
���C DEFINITE MATRIX STORED COLUMNWISE IN COMPRESSED FORMMFSS 240
���C ON RETURN A CONTAINS THE MATRIX T AND, IF IRANK IS MFSS 250
���C LESS THAN N, THE MATRICES U AND TU MFSS 260
���C N - DIMENSION OF GIVEN MATRIX A MFSS 270
���C EPS - TESTVALUE FOR ZERO AFFECTED BY ROUND-OFF NOISE MFSS 280
���C IRANK - RESULTANT VARIABLE, CONTAINING THE RANK OF GIVEN MFSS 290
���C MATRIX A IF A IS SEMI-DEFINITE MFSS 300
���C IRANK = 0 MEANS A HAS NO POSITIVE DIAGONAL ELEMENT MFSS 310
���C AND/OR EPS IS NOT ABSOLUTELY LESS THAN ONEMFSS 320
���C IRANK =-1 MEANS DIMENSION N IS NOT POSITIVE MFSS 330
���C IRANK =-2 MEANS COMPLETE FAILURE, POSSIBLY DUE TO MFSS 340
���C INADEQUATE RELATIVE TOLERANCE EPS MFSS 350
���C TRAC - VECTOR OF DIMENSION N CONTAINING THE MFSS 360
���C SOURCE INDEX OF THE I-TH PIVOT ROW IN ITS I-TH MFSS 370
���C LOCATION, THIS MEANS THAT TRAC CONTAINS THE MFSS 380
���C PRODUCT REPRESENTATION OF THE PERMUTATION WHICH MFSS 390
���C IS APPLIED TO ROWS AND COLUMNS OF A IN TERMS OF MFSS 400
���C TRANSPOSITIONS MFSS 410
���C MFSS 420
���C REMARKS MFSS 430
���C EPS MUST BE ABSOLUTELY LESS THAN ONE. A SENSIBLE VALUE IS MFSS 440
���C SOMEWHERE IN BETWEEN 10**(-4) AND 10**(-6) MFSS 450
���C THE ABSOLUTE VALUE OF INPUT PARAMETER EPS IS USED AS MFSS 460
���C RELATIVE TOLERANCE. MFSS 470
���C IN ORDER TO PRESERVE SYMMETRY ONLY PIVOTING ALONG THE MFSS 480
���C DIAGONAL IS BUILT IN. MFSS 490
���C ALL PIVOTELEMENTS MUST BE GREATER THAN THE ABSOLUTE VALUE MFSS 500
���C OF EPS TIMES ORIGINAL DIAGONAL ELEMENT MFSS 510
���C OTHERWISE THEY ARE TREATED AS IF THEY WERE ZERO MFSS 520
���C MATRIX A REMAINS UNCHANGED IF THE RESULTANT VALUE IRANK MFSS 530
���C EQUALS ZERO MFSS 540
���C MFSS 550
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MFSS 560
���C NONE MFSS 570
���C MFSS 580
���C METHOD MFSS 590
���C THE SQUARE ROOT METHOD WITH DIAGONAL PIVOTING IS USED FOR MFSS 600
���C CALCULATION OF THE RIGHT HAND TRIANGULAR FACTOR. MFSS 610
���C IN CASE OF AN ONLY SEMI-DEFINITE MATRIX THE SUBROUTINE MFSS 620
���C RETURNS THE IRANK X IRANK UPPER TRIANGULAR FACTOR T OF A MFSS 630
���C SUBMATRIX OF MAXIMAL RANK, THE IRANK X (N-IRANK) MATRIX U MFSS 640
���C AND THE (N-IRANK) X (N-IRANK) UPPER TRIANGULAR TU SUCH MFSS 650
���C THAT TRANSPOSE(TU)*TU=I+TRANSPOSE(U)*U MFSS 660
���C MFSS 670
���C ..................................................................MFSS 680
���C MFSS 690
��� SUBROUTINE MFSS(A,N,EPS,IRANK,TRAC) MFSS 700
���C MFSS 710
���C MFSS 720
���C DIMENSIONED DUMMY VARIABLES MFSS 730
��� DIMENSION A(1),TRAC(1) MFSS 740
��� DOUBLE PRECISION SUM MFSS 750
���C MFSS 760
���C TEST OF SPECIFIED DIMENSION MFSS 770
��� IF(N)36,36,1 MFSS 780
���C MFSS 790
���C INITIALIZE TRIANGULAR FACTORIZATION MFSS 800
��� 1 IRANK=0 MFSS 810
��� ISUB=0 MFSS 820
��� KPIV=0 MFSS 830
��� J=0 MFSS 840
��� PIV=0. MFSS 850
���C MFSS 860
���C SEARCH FIRST PIVOT ELEMENT MFSS 870
��� DO 3 K=1,N MFSS 880
��� J=J+K MFSS 890
��� TRAC(K)=A(J) MFSS 900
��� IF(A(J)-PIV)3,3,2 MFSS 910
��� 2 PIV=A(J) MFSS 920
��� KSUB=J MFSS 930
��� KPIV=K MFSS 940
��� 3 CONTINUE MFSS 950
���C MFSS 960
���C START LOOP OVER ALL ROWS OF A MFSS 970
��� DO 32 I=1,N MFSS 980
��� ISUB=ISUB+I MFSS 990
��� IM1=I-1 MFSS1000
��� 4 KMI=KPIV-I MFSS1010
��� IF(KMI)35,9,5 MFSS1020
���C MFSS1030
���C PERFORM PARTIAL COLUMN INTERCHANGE MFSS1040
��� 5 JI=KSUB-KMI MFSS1050
��� IDC=JI-ISUB MFSS1060
��� JJ=ISUB-IM1 MFSS1070
��� DO 6 K=JJ,ISUB MFSS1080
��� KK=K+IDC MFSS1090
��� HOLD=A(K) MFSS1100
��� A(K)=A(KK) MFSS1110
��� 6 A(KK)=HOLD MFSS1120
���C MFSS1130
���C PERFORM PARTIAL ROW INTERCHANGE MFSS1140
��� KK=KSUB MFSS1150
��� DO 7 K=KPIV,N MFSS1160
��� II=KK-KMI MFSS1170
��� HOLD=A(KK) MFSS1180
��� A(KK)=A(II) MFSS1190
��� A(II)=HOLD MFSS1200
��� 7 KK=KK+K MFSS1210
���C MFSS1220
���C PERFORM REMAINING INTERCHANGE MFSS1230
��� JJ=KPIV-1 MFSS1240
��� II=ISUB MFSS1250
��� DO 8 K=I,JJ MFSS1260
��� HOLD=A(II) MFSS1270
��� A(II)=A(JI) MFSS1280
��� A(JI)=HOLD MFSS1290
��� II=II+K MFSS1300
��� 8 JI=JI+1 MFSS1310
��� 9 IF(IRANK)22,10,10 MFSS1320
���C MFSS1330
���C RECORD INTERCHANGE IN TRANSPOSITION VECTOR MFSS1340
��� 10 TRAC(KPIV)=TRAC(I) MFSS1350
��� TRAC(I)=KPIV MFSS1360
���C MFSS1370
���C MODIFY CURRENT PIVOT ROW MFSS1380
��� KK=IM1-IRANK MFSS1390
��� KMI=ISUB-KK MFSS1400
��� PIV=0. MFSS1410
��� IDC=IRANK+1 MFSS1420
��� JI=ISUB-1 MFSS1430
��� JK=KMI MFSS1440
��� JJ=ISUB-I MFSS1450
��� DO 19 K=I,N MFSS1460
��� SUM=0.D0 MFSS1470
���C MFSS1480
���C BUILD UP SCALAR PRODUCT IF NECESSARY MFSS1490
��� IF(KK)13,13,11 MFSS1500
��� 11 DO 12 J=KMI,JI MFSS1510
��� SUM=SUM-A(J)*A(JK) MFSS1520
��� 12 JK=JK+1 MFSS1530
��� 13 JJ=JJ+K MFSS1540
��� IF(K-I)14,14,16 MFSS1550
��� 14 SUM=A(ISUB)+SUM MFSS1560
���C MFSS1570
���C TEST RADICAND FOR LOSS OF SIGNIFICANCE MFSS1580
��� IF(SUM-ABS(A(ISUB)*EPS))20,20,15 MFSS1590
��� 15 A(ISUB)=DSQRT(SUM) MFSS1600
��� KPIV=I+1 MFSS1610
��� GOTO 19 MFSS1620
��� 16 SUM=(A(JK)+SUM)/A(ISUB) MFSS1630
��� A(JK)=SUM MFSS1640
���C MFSS1650
���C SEARCH FOR NEXT PIVOT ROW MFSS1660
��� IF(A(JJ))19,19,17 MFSS1670
��� 17 TRAC(K)=TRAC(K)-SUM*SUM MFSS1680
��� HOLD=TRAC(K)/A(JJ) MFSS1690
��� IF(PIV-HOLD)18,19,19 MFSS1700
��� 18 PIV=HOLD MFSS1710
��� KPIV=K MFSS1720
��� KSUB=JJ MFSS1730
��� 19 JK=JJ+IDC MFSS1740
��� GOTO 32 MFSS1750
���C MFSS1760
���C CALCULATE MATRIX OF DEPENDENCIES U MFSS1770
��� 20 IF(IRANK)21,21,37 MFSS1780
��� 21 IRANK=-1 MFSS1790
��� GOTO 4 MFSS1800
��� 22 IRANK=IM1 MFSS1810
��� II=ISUB-IRANK MFSS1820
��� JI=II MFSS1830
��� DO 26 K=1,IRANK MFSS1840
��� JI=JI-1 MFSS1850
��� JK=ISUB-1 MFSS1860
��� JJ=K-1 MFSS1870
��� DO 26 J=I,N MFSS1880
��� IDC=IRANK MFSS1890
��� SUM=0.D0 MFSS1900
��� KMI=JI MFSS1910
��� KK=JK MFSS1920
��� IF(JJ)25,25,23 MFSS1930
��� 23 DO 24 L=1,JJ MFSS1940
��� IDC=IDC-1 MFSS1950
��� SUM=SUM-A(KMI)*A(KK) MFSS1960
��� KMI=KMI-IDC MFSS1970
��� 24 KK=KK-1 MFSS1980
��� 25 A(KK)=(SUM+A(KK))/A(KMI) MFSS1990
��� 26 JK=JK+J MFSS2000
���C MFSS2010
���C CALCULATE I+TRANSPOSE(U)*U MFSS2020
��� JJ=ISUB-I MFSS2030
��� PIV=0. MFSS2040
��� KK=ISUB-1 MFSS2050
��� DO 31 K=I,N MFSS2060
��� JJ=JJ+K MFSS2070
��� IDC=0 MFSS2080
��� DO 28 J=K,N MFSS2090
��� SUM=0.D0 MFSS2100
��� KMI=JJ+IDC MFSS2110
��� DO 27 L=II,KK MFSS2120
��� JK=L+IDC MFSS2130
��� 27 SUM=SUM+A(L)*A(JK) MFSS2140
��� A(KMI)=SUM MFSS2150
��� 28 IDC=IDC+J MFSS2160
��� A(JJ)=A(JJ)+1.D0 MFSS2170
��� TRAC(K)=A(JJ) MFSS2180
���C MFSS2190
���C SEARCH NEXT DIAGONAL ELEMENT MFSS2200
��� IF(PIV-A(JJ))29,30,30 MFSS2210
��� 29 KPIV=K MFSS2220
��� KSUB=JJ MFSS2230
��� PIV=A(JJ) MFSS2240
��� 30 II=II+K MFSS2250
��� KK=KK+K MFSS2260
��� 31 CONTINUE MFSS2270
��� GOTO 4 MFSS2280
��� 32 CONTINUE MFSS2290
��� 33 IF(IRANK)35,34,35 MFSS2300
��� 34 IRANK=N MFSS2310
��� 35 RETURN MFSS2320
���C MFSS2330
���C ERROR RETURNS MFSS2340
���C MFSS2350
���C RETURN IN CASE OF ILLEGAL DIMENSION MFSS2360
��� 36 IRANK=-1 MFSS2370
��� RETURN MFSS2380
���C MFSS2390
���C INSTABLE FACTORIZATION OF I+TRANSPOSE(U)*U MFSS2400
��� 37 IRANK=-2 MFSS2410
��� RETURN MFSS2420
��� END MFSS2430