ScaLAPACK 2.1  2.1
ScaLAPACK: Scalable Linear Algebra PACKage
pzseprdriver.f
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1  PROGRAM pzseprdriver
2 *
3 * Parallel COMPLEX*16 symmetric eigenproblem test driver for PZSYEVR
4 *
5  IMPLICIT NONE
6 *
7 * The user should modify TOTMEM to indicate the maximum amount of
8 * memory in bytes her system has. Remember to leave room in memory
9 * for operating system, the BLACS buffer, etc. DBLESZ
10 * indicates the length in bytes on the given platform for a number,
11 * real for SINGLE/DOUBLE PRECISION, and complex for COMPLEX/COMPLEX*16.
12 * For example, on a standard system, the length of a
13 * DBLE is 16, and an integer takes up 4 bytes. Some playing around
14 * to discover what the maximum value you can set MEMSIZ to may be
15 * required.
16 * All arrays used by factorization and solve are allocated out of
17 * big array called MEM.
18 *
19 * TESTS PERFORMED
20 * ===============
21 *
22 * This routine performs tests for combinations of: matrix size, process
23 * configuration (nprow and npcol), block size (nb),
24 * matrix type, range of eigenvalue (all, by value, by index),
25 * and upper vs. lower storage.
26 *
27 * It returns an error message when heterogeneity is detected.
28 *
29 * The input file allows multiple requests where each one is
30 * of the following sets:
31 * matrix sizes: n
32 * process configuration triples: nprow, npcol, nb
33 * matrix types:
34 * eigenvalue requests: all, by value, by position
35 * storage (upper vs. lower): uplo
36 *
37 * TERMS:
38 * Request - means a set of tests, which is the cross product of
39 * a set of specifications from the input file.
40 * Test - one element in the cross product, i.e. a specific input
41 * size and type, process configuration, etc.
42 *
43 * .. Parameters ..
44 *
45  INTEGER totmem, dblesz, nin
46  parameter( totmem = 100000000, dblesz = 16, nin = 11 )
47  INTEGER memsiz
48  parameter( memsiz = totmem / dblesz )
49 * ..
50 * .. Local Scalars ..
51  CHARACTER hetero
52  CHARACTER*80 summry, usrinfo
53  INTEGER context, iam, info, isieee, maxnodes, nnocheck,
54  $ nout, npassed, nprocs, nskipped, ntests
55 * ..
56 * .. Local Arrays ..
57 *
58  INTEGER iseed( 4 )
59  COMPLEX*16 mem( memsiz )
60 * ..
61 * .. External Functions ..
62  DOUBLE PRECISION dlamch
63  EXTERNAL dlamch
64 * ..
65 * .. External Subroutines ..
66 *
67  EXTERNAL blacs_exit, blacs_get, blacs_gridexit,
68  $ blacs_gridinit, blacs_pinfo, blacs_setup,
69  $ igamn2d, pdlachkieee, pdlasnbt, pzseprreq
70 * ..
71 * .. Executable Statements ..
72 *
73 * Get starting information
74 *
75  CALL blacs_pinfo( iam, nprocs )
76 *
77 *
78  IF( iam.EQ.0 ) THEN
79 *
80 * Open file and skip data file header
81 *
82  OPEN( unit = nin, file = 'SEPR.dat', status = 'OLD' )
83  READ( nin, fmt = * )summry
84  summry = ' '
85 *
86 * Read in user-supplied info about machine type, compiler, etc.
87 *
88  READ( nin, fmt = 9999 )usrinfo
89 *
90 * Read name and unit number for summary output file
91 *
92  READ( nin, fmt = * )summry
93  READ( nin, fmt = * )nout
94  IF( nout.NE.0 .AND. nout.NE.6 )
95  $ OPEN( nout, file = summry, status = 'UNKNOWN' )
96  READ( nin, fmt = * )maxnodes
97  READ( nin, fmt = * )hetero
98  END IF
99 *
100  IF( nprocs.LT.1 ) THEN
101  CALL blacs_setup( iam, maxnodes )
102  nprocs = maxnodes
103  END IF
104 *
105  CALL blacs_get( -1, 0, context )
106  CALL blacs_gridinit( context, 'R', 1, nprocs )
107 *
108  CALL pdlasnbt( isieee )
109 *
110  CALL igamn2d( context, 'a', ' ', 1, 1, isieee, 1, 1, 1, -1, -1,
111  $ 0 )
112 *
113  IF( ( isieee.NE.0 ) ) THEN
114  IF( iam.EQ.0 ) THEN
115  WRITE( nout, fmt = 9997 )
116  WRITE( nout, fmt = 9996 )
117  WRITE( nout, fmt = 9995 )
118  END IF
119 *
120  CALL pdlachkieee( isieee, dlamch( 'O' ), dlamch( 'U' ) )
121 *
122  CALL igamn2d( context, 'a', ' ', 1, 1, isieee, 1, 1, 1, -1, -1,
123  $ 0 )
124 *
125  IF( isieee.EQ.0 ) THEN
126  GO TO 20
127  END IF
128 *
129  IF( iam.EQ.0 ) THEN
130  WRITE( nout, fmt = 9986 )
131  END IF
132 *
133  END IF
134 *
135  IF( iam.EQ.0 ) THEN
136  WRITE( nout, fmt = 9999 )
137  $ 'Test ScaLAPACK symmetric eigendecomposition routine.'
138  WRITE( nout, fmt = 9999 )usrinfo
139  WRITE( nout, fmt = 9999 )' '
140  WRITE( nout, fmt = 9999 )'Running tests of the parallel ' //
141  $ 'symmetric eigenvalue routine: PZSYEVR.'
142  WRITE( nout, fmt = 9999 )'The following scaled residual ' //
143  $ 'checks will be computed:'
144  WRITE( nout, fmt = 9999 )' ||AQ - QL|| ' //
145  $ '/ ((abstol + ||A|| * eps) * N)'
146  WRITE( nout, fmt = 9999 )' ||Q^T*Q - I|| ' // '/ (N * eps)'
147  WRITE( nout, fmt = 9999 )
148  WRITE( nout, fmt = 9999 )'An explanation of the ' //
149  $ 'input/output parameters follows:'
150  WRITE( nout, fmt = 9999 )'RESULT : passed; or ' //
151  $ 'an indication of which eigen request test failed'
152  WRITE( nout, fmt = 9999 )
153  $ 'N : The number of rows and columns ' //
154  $ 'of the matrix A.'
155  WRITE( nout, fmt = 9999 )
156  $ 'P : The number of process rows.'
157  WRITE( nout, fmt = 9999 )
158  $ 'Q : The number of process columns.'
159  WRITE( nout, fmt = 9999 )
160  $ 'NB : The size of the square blocks' //
161  $ ' the matrix A is split into.'
162  WRITE( nout, fmt = 9999 )
163  $ 'THRESH : If a residual value is less ' //
164  $ 'than THRESH, RESULT = PASSED.'
165  WRITE( nout, fmt = 9999 )
166  $ 'TYP : matrix type (see PZSEPRTST).'
167  WRITE( nout, fmt = 9999 )'SUB : Subtests (Y/N).'
168  WRITE( nout, fmt = 9999 )'WALL : Wallclock time.'
169  WRITE( nout, fmt = 9999 )'CPU : CPU time.'
170  WRITE( nout, fmt = 9999 )'CHK : ||AQ - QL|| ' //
171  $ '/ ((abstol + ||A|| * eps) * N)'
172  WRITE( nout, fmt = 9999 )'QTQ : ||Q^T*Q - I||/ (N * eps)'
173  WRITE( nout, fmt = 9999 )
174  $ ' : when the adjusted QTQ norm exceeds THRESH',
175  $ ' it is printed,'
176  WRITE( nout, fmt = 9999 )
177  $ ' otherwise the true QTQ norm is printed.'
178  WRITE( nout, fmt = 9999 )
179  $ ' : If more than one test is done, CHK and QTQ '
180  WRITE( nout, fmt = 9999 )
181  $ ' are the max over all eigentests performed.'
182  WRITE( nout, fmt = 9999 )
183  $ 'TEST : EVR - testing PZSYEVR'
184  WRITE( nout, fmt = 9999 )' '
185  END IF
186 *
187  ntests = 0
188  npassed = 0
189  nskipped = 0
190  nnocheck = 0
191 *
192  IF( iam.EQ.0 ) THEN
193  WRITE( nout, fmt = 9979 )
194  WRITE( nout, fmt = 9978 )
195  END IF
196 *
197  10 CONTINUE
198 *
199  iseed( 1 ) = 139
200  iseed( 2 ) = 1139
201  iseed( 3 ) = 2139
202  iseed( 4 ) = 3139
203 *
204  CALL pzseprreq( hetero, nin, mem, memsiz, nout, iseed, ntests,
205  $ nskipped, nnocheck, npassed, info )
206  IF( info.EQ.0 )
207  $ GO TO 10
208 *
209  IF( iam.EQ.0 ) THEN
210  WRITE( nout, fmt = 9985 )ntests
211  WRITE( nout, fmt = 9984 )npassed
212  WRITE( nout, fmt = 9983 )nnocheck
213  WRITE( nout, fmt = 9982 )nskipped
214  WRITE( nout, fmt = 9981 )ntests - npassed - nskipped -
215  $ nnocheck
216  WRITE( nout, fmt = * )
217  WRITE( nout, fmt = * )
218  WRITE( nout, fmt = 9980 )
219  END IF
220 *
221 * Uncomment this line on SUN systems to avoid the useless print out
222 *
223 c CALL IEEE_FLAGS( 'clear', 'exception', 'underflow', ' ')
224 *
225  20 CONTINUE
226  IF( iam.EQ.0 ) THEN
227  CLOSE ( nin )
228  IF( nout.NE.6 .AND. nout.NE.0 )
229  $ CLOSE ( nout )
230  END IF
231 *
232  CALL blacs_gridexit( context )
233 *
234  CALL blacs_exit( 0 )
235  stop
236 *
237  9999 FORMAT( a )
238  9997 FORMAT( 'Check if overflow is handled in ieee default manner.' )
239  9996 FORMAT( 'If this is the last output you see, you should assume')
240  9995 FORMAT( 'that overflow caused a floating point exception.' )
241 *
242  9986 FORMAT( 'Test ok. The system appears to handle ieee overflow.' )
243 *
244  9985 FORMAT( 'Finished ', i6, ' tests, with the following results:' )
245  9984 FORMAT( i5, ' tests completed and passed residual checks.' )
246  9983 FORMAT( i5, ' tests completed without checking.' )
247  9982 FORMAT( i5, ' tests skipped for lack of memory.' )
248  9981 FORMAT( i5, ' tests completed and failed.' )
249  9980 FORMAT( 'END OF TESTS.' )
250  9979 FORMAT( ' N NB P Q TYP SUB WALL CPU ',
251  $ ' CHK QTQ CHECK TEST' )
252  9978 FORMAT( ' ----- --- --- --- --- --- -------- --------',
253  $ ' --------- --------- ----- ----' )
254 *
255 * End of PZSEPRDRIVER
256 *
257  END
258 
259 
260 
pzseprreq
subroutine pzseprreq(HETERO, NIN, MEM, MEMSIZE, NOUT, ISEED, NTESTS, NSKIPPED, NNOCHECK, NPASSED, INFO)
Definition: pzseprreq.f:3
dlamch
double precision function dlamch(CMACH)
Definition: tools.f:10
pzseprdriver
program pzseprdriver
Definition: pzseprdriver.f:1