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source: palm/trunk/SOURCE/cpulog.f90 @ 1350

Last change on this file since 1350 was 1323, checked in by raasch, 11 years ago
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[1318]	1	MODULE cpulog
[1]	2
[1036]	3	!--------------------------------------------------------------------------------!
	4	! This file is part of PALM.
	5	!
	6	! PALM is free software: you can redistribute it and/or modify it under the terms
	7	! of the GNU General Public License as published by the Free Software Foundation,
	8	! either version 3 of the License, or (at your option) any later version.
	9	!
	10	! PALM is distributed in the hope that it will be useful, but WITHOUT ANY
	11	! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
	12	! A PARTICULAR PURPOSE. See the GNU General Public License for more details.
	13	!
	14	! You should have received a copy of the GNU General Public License along with
	15	! PALM. If not, see <http://www.gnu.org/licenses/>.
	16	!
[1310]	17	! Copyright 1997-2014 Leibniz Universitaet Hannover
[1036]	18	!--------------------------------------------------------------------------------!
	19	!
[254]	20	! Current revisions:
[1]	21	! -----------------
[1321]	22	!
[1323]	23	!
[1321]	24	! Former revisions:
	25	! -----------------
	26	! $Id: cpulog.f90 1323 2014-03-20 17:09:54Z maronga $
	27	!
[1323]	28	! 1322 2014-03-20 16:38:49Z raasch
	29	! REAL functions provided with KIND-attribute
	30	!
[1321]	31	! 1320 2014-03-20 08:40:49Z raasch
[1320]	32	! ONLY-attribute added to USE-statements,
	33	! kind-parameters added to all INTEGER and REAL declaration statements,
	34	! kinds are defined in new module kinds,
	35	! revision history before 2012 removed,
	36	! comment fields (!:) to be used for variable explanations added to
	37	! all variable declaration statements
[1321]	38	!
[1319]	39	! 1318 2014-03-17 13:35:16Z raasch
	40	! former files/routines cpu_log and cpu_statistics combined to one module,
	41	! which also includes the former data module cpulog from the modules-file
	42	!
[1037]	43	! 1036 2012-10-22 13:43:42Z raasch
	44	! code put under GPL (PALM 3.9)
	45	!
[1]	46	! Revision 1.1 1997/07/24 11:12:29 raasch
	47	! Initial revision
	48	!
	49	!
	50	! Description:
	51	! ------------
	52	! Cpu-time measurements for any program part whatever.
[3]	53	!------------------------------------------------------------------------------!
[1]	54
[1320]	55	USE control_parameters, &
	56	ONLY: message_string, nr_timesteps_this_run, run_description_header, &
	57	synchronous_exchange
	58
	59	USE indices, &
	60	ONLY: nx, ny, nz
	61
	62	USE kinds
	63
[1]	64	USE pegrid
	65
	66	IMPLICIT NONE
	67
[1318]	68	PRIVATE
[1320]	69	PUBLIC cpu_log, cpu_log_barrierwait, cpu_log_nowait, cpu_statistics, &
[1318]	70	initial_wallclock_time, log_point, log_point_s
[1]	71
[1318]	72	INTERFACE cpu_log
	73	MODULE PROCEDURE cpu_log
	74	END INTERFACE cpu_log
	75
	76	INTERFACE cpu_statistics
	77	MODULE PROCEDURE cpu_statistics
	78	END INTERFACE cpu_statistics
	79
[1320]	80	INTEGER(iwp), PARAMETER :: cpu_log_continue = 0 !:
	81	INTEGER(iwp), PARAMETER :: cpu_log_pause = 1 !:
	82	INTEGER(iwp), PARAMETER :: cpu_log_start = 2 !:
	83	INTEGER(iwp), PARAMETER :: cpu_log_stop = 3 !:
[1318]	84
[1320]	85	LOGICAL :: cpu_log_barrierwait = .FALSE. !:
	86	LOGICAL, PARAMETER :: cpu_log_nowait = .FALSE. !:
[1318]	87
[1320]	88	REAL(wp) :: initial_wallclock_time !:
[1318]	89
	90	TYPE logpoint
[1320]	91	REAL(wp) :: isum !:
	92	REAL(wp) :: ivect !:
	93	REAL(wp) :: mean !:
	94	REAL(wp) :: mtime !:
	95	REAL(wp) :: mtimevec !:
	96	REAL(wp) :: sum !:
	97	REAL(wp) :: vector !:
	98	INTEGER(iwp) :: counts !:
	99	CHARACTER (LEN=20) :: place !:
[1318]	100	END TYPE logpoint
	101
	102	TYPE(logpoint), DIMENSION(100) :: log_point = logpoint( 0.0, 0.0, 0.0, &
	103	0.0, 0.0, 0.0, 0.0, 0, ' ' ), &
	104	log_point_s = logpoint( 0.0, 0.0, 0.0, &
	105	0.0, 0.0, 0.0, 0.0, 0, ' ' )
	106
	107	SAVE
	108
	109	CONTAINS
	110
	111	SUBROUTINE cpu_log( log_event, place, modus, barrierwait )
	112
	113	IMPLICIT NONE
	114
[1320]	115	CHARACTER (LEN=*) :: modus !:
	116	CHARACTER (LEN=*) :: place !:
	117
	118	LOGICAL :: wait_allowed !:
	119	LOGICAL, OPTIONAL :: barrierwait !:
	120	LOGICAL, SAVE :: first = .TRUE. !:
	121
	122	REAL(wp) :: mtime = 0.0 !:
	123	REAL(wp) :: mtimevec = 0.0 !:
	124	TYPE(logpoint) :: log_event !:
[1318]	125
[239]	126	#if defined( __lc ) \|\| defined( __decalpha )
[1320]	127	INTEGER(idp) :: count !:
	128	INTEGER(idp) :: count_rate !:
[239]	129	#elif defined( __nec )
[1320]	130	INTEGER(iwp) :: count !:
	131	INTEGER(iwp) :: count_rate !:
[1]	132	#elif defined( __ibm )
[1320]	133	INTEGER(idp) :: IRTC !:
[1]	134	#endif
	135
	136
	137	!
[1318]	138	!-- Initialize and check, respectively, point of measurement
	139	IF ( log_event%place == ' ' ) THEN
	140	log_event%place = place
	141	ELSEIF ( log_event%place /= place ) THEN
[1320]	142	WRITE( message_string, * ) 'wrong argument & expected: ', &
[1318]	143	TRIM(log_event%place), ' given: ', TRIM( place )
	144	CALL message( 'cpu_log', 'PA0174', 1, 2, 0, 6, 0 )
	145	ENDIF
[1]	146
	147	!
[1318]	148	!-- Determine, if barriers are allowed to set
	149	IF ( PRESENT( barrierwait ) ) THEN
	150	wait_allowed = barrierwait
	151	ELSE
	152	wait_allowed = .TRUE.
	153	ENDIF
	154
	155	!
	156	!-- MPI barrier, if requested, in order to avoid measuring wait times
	157	!-- caused by MPI routines waiting for other MPI routines of other
	158	!-- PEs that have not yet finished
	159	#if defined( __parallel )
[1320]	160	IF ( cpu_log_barrierwait .AND. wait_allowed .AND. &
[1318]	161	( modus == 'start' .OR. modus == 'continue' ) ) THEN
	162	CALL MPI_BARRIER( comm2d, ierr )
	163	ENDIF
	164	#endif
	165
	166	!
	167	!-- Take current time
[82]	168	#if defined( __lc ) \|\| defined( __decalpha ) \|\| defined( __nec )
[1318]	169	CALL SYSTEM_CLOCK( count, count_rate )
[1322]	170	mtime = REAL( count, KIND=wp ) / REAL( count_rate, KIND=wp )
[1]	171	#elif defined( __ibm )
[1322]	172	mtime = IRTC( ) * 1E-9_wp
[1]	173	#else
[1318]	174	message_string = 'no time measurement defined on this host'
	175	CALL message( 'cpu_log', 'PA0175', 1, 2, 0, 6, 0 )
[1]	176	#endif
	177
	178	!
[1318]	179	!-- Start, stop or pause measurement
	180	IF ( modus == 'start' .OR. modus == 'continue' ) THEN
	181	log_event%mtime = mtime
	182	log_event%mtimevec = mtimevec
	183	ELSEIF ( modus == 'pause' ) THEN
	184	IF ( ( mtime - log_event%mtime ) < 0.0 .AND. first ) THEN
[1320]	185	WRITE( message_string, * ) 'negative time interval occured', &
	186	' &PE',myid,' L=PAUSE "',TRIM(log_event%place), &
	187	'" new=', mtime,' last=',log_event%mtime
[1318]	188	CALL message( 'cpu_log', 'PA0176', 0, 1, -1, 6, 0 )
	189	first = .FALSE.
	190	ENDIF
	191	log_event%isum = log_event%isum + mtime - log_event%mtime
	192	log_event%ivect = log_event%ivect + mtimevec - log_event%mtimevec
	193	ELSEIF ( modus == 'stop' ) THEN
[1320]	194	IF ( ( mtime - log_event%mtime + log_event%isum ) < 0.0 .AND. &
[1318]	195	first ) THEN
[1320]	196	WRITE( message_string, * ) 'negative time interval occured', &
[1318]	197	' &PE',myid,' L=STOP "',TRIM(log_event%place),'" new=', &
	198	mtime,' last=',log_event%mtime,' isum=',log_event%isum
	199	CALL message( 'cpu_log', 'PA0177', 0, 1, -1, 6, 0 )
	200	first = .FALSE.
	201	ENDIF
	202	log_event%mtime = mtime - log_event%mtime + log_event%isum
	203	log_event%mtimevec = mtimevec - log_event%mtimevec + log_event%ivect
	204	log_event%sum = log_event%sum + log_event%mtime
	205	IF ( log_event%sum < 0.0 .AND. first ) THEN
[1320]	206	WRITE( message_string, * ) 'negative time interval occured', &
[1318]	207	' &PE',myid,' L=STOP "',TRIM(log_event%place),'" sum=', &
	208	log_event%sum,' mtime=',log_event%mtime
	209	CALL message( 'cpu_log', 'PA0178', 0, 1, -1, 6, 0 )
	210	first = .FALSE.
	211	ENDIF
	212	log_event%vector = log_event%vector + log_event%mtimevec
	213	log_event%counts = log_event%counts + 1
	214	log_event%isum = 0.0
	215	log_event%ivect = 0.0
	216	ELSE
	217	message_string = 'unknown modus of time measurement: ' // TRIM( modus )
	218	CALL message( 'cpu_log', 'PA0179', 0, 1, -1, 6, 0 )
[1]	219	ENDIF
[1318]	220
	221	END SUBROUTINE cpu_log
	222
	223
	224	SUBROUTINE cpu_statistics
	225	!------------------------------------------------------------------------------!
	226	! Description:
	227	! ------------
	228	! Analysis and output of the cpu-times measured. All PE results are collected
	229	! on PE0 in order to calculate the mean cpu-time over all PEs and other
	230	! statistics. The output is sorted according to the amount of cpu-time consumed
	231	! and output on PE0.
	232	!------------------------------------------------------------------------------!
	233
	234	IMPLICIT NONE
	235
[1320]	236	INTEGER(iwp) :: i !:
	237	INTEGER(iwp) :: ii(1) !:
	238	INTEGER(iwp) :: iii !:
	239	INTEGER(iwp) :: sender !:
	240	REAL(wp) :: average_cputime !:
	241	REAL(wp), SAVE :: norm = 1.0 !:
	242	REAL(wp), DIMENSION(:), ALLOCATABLE :: pe_max !:
	243	REAL(wp), DIMENSION(:), ALLOCATABLE :: pe_min !:
	244	REAL(wp), DIMENSION(:), ALLOCATABLE :: pe_rms !:
	245	REAL(wp), DIMENSION(:), ALLOCATABLE :: sum !:
	246	REAL(wp), DIMENSION(:,:), ALLOCATABLE :: pe_log_points !:
[1318]	247
	248
	249	!
	250	!-- Compute cpu-times in seconds
	251	log_point%mtime = log_point%mtime / norm
	252	log_point%sum = log_point%sum / norm
	253	log_point%vector = log_point%vector / norm
	254	WHERE ( log_point%counts /= 0 )
	255	log_point%mean = log_point%sum / log_point%counts
	256	END WHERE
	257
	258
	259	!
	260	!-- Collect cpu-times from all PEs and calculate statistics
	261	IF ( myid == 0 ) THEN
	262	!
	263	!-- Allocate and initialize temporary arrays needed for statistics
[1320]	264	ALLOCATE( pe_max( SIZE( log_point ) ), pe_min( SIZE( log_point ) ), &
	265	pe_rms( SIZE( log_point ) ), &
[1318]	266	pe_log_points( SIZE( log_point ), 0:numprocs-1 ) )
	267	pe_min = log_point%sum
	268	pe_max = log_point%sum ! need to be set in case of 1 PE
	269	pe_rms = 0.0
	270
	271	#if defined( __parallel )
	272	!
	273	!-- Receive data from all PEs
	274	DO i = 1, numprocs-1
[1320]	275	CALL MPI_RECV( pe_max(1), SIZE( log_point ), MPI_REAL, &
[1318]	276	i, i, comm2d, status, ierr )
	277	sender = status(MPI_SOURCE)
	278	pe_log_points(:,sender) = pe_max
	279	ENDDO
	280	pe_log_points(:,0) = log_point%sum ! Results from PE0
	281	!
	282	!-- Calculate mean of all PEs, store it on log_point%sum
	283	!-- and find minimum and maximum
	284	DO iii = 1, SIZE( log_point )
	285	DO i = 1, numprocs-1
	286	log_point(iii)%sum = log_point(iii)%sum + pe_log_points(iii,i)
	287	pe_min(iii) = MIN( pe_min(iii), pe_log_points(iii,i) )
	288	pe_max(iii) = MAX( pe_max(iii), pe_log_points(iii,i) )
	289	ENDDO
	290	log_point(iii)%sum = log_point(iii)%sum / numprocs
	291	!
	292	!-- Calculate rms
	293	DO i = 0, numprocs-1
[1320]	294	pe_rms(iii) = pe_rms(iii) + ( &
	295	pe_log_points(iii,i) - log_point(iii)%sum &
[1318]	296	)**2
	297	ENDDO
	298	pe_rms(iii) = SQRT( pe_rms(iii) / numprocs )
	299	ENDDO
	300	ELSE
	301	!
	302	!-- Send data to PE0 (pe_max is used as temporary storage to send
	303	!-- the data in order to avoid sending the data type log)
	304	ALLOCATE( pe_max( SIZE( log_point ) ) )
	305	pe_max = log_point%sum
	306	CALL MPI_SEND( pe_max(1), SIZE( log_point ), MPI_REAL, 0, myid, comm2d, &
	307	ierr )
	308	#endif
	309
[1]	310	ENDIF
[1318]	311
	312	!
	313	!-- Write cpu-times
	314	IF ( myid == 0 ) THEN
	315	!
	316	!-- Re-store sums
	317	ALLOCATE( sum( SIZE( log_point ) ) )
	318	WHERE ( log_point%counts /= 0 )
	319	sum = log_point%sum
	320	ELSEWHERE
	321	sum = -1.0
	322	ENDWHERE
	323
	324	!
	325	!-- Get total time in order to calculate CPU-time per gridpoint and timestep
	326	IF ( nr_timesteps_this_run /= 0 ) THEN
[1322]	327	average_cputime = log_point(1)%sum / REAL( (nx+1) * (ny+1) * nz, KIND=wp ) / &
	328	REAL( nr_timesteps_this_run, KIND=wp ) * 1E6_wp ! in micro-sec
[1318]	329	ELSE
	330	average_cputime = -1.0
	331	ENDIF
	332
	333	!
	334	!-- Write cpu-times sorted by size
	335	CALL check_open( 18 )
	336	#if defined( __parallel )
	337	WRITE ( 18, 100 ) TRIM( run_description_header ), &
	338	numprocs * threads_per_task, pdims(1), pdims(2), &
	339	threads_per_task, nx+1, ny+1, nz, nr_timesteps_this_run, &
	340	average_cputime
	341
	342	IF ( num_acc_per_node /= 0 ) WRITE ( 18, 108 ) num_acc_per_node
	343	WRITE ( 18, 110 )
	344	#else
	345	WRITE ( 18, 100 ) TRIM( run_description_header ), &
	346	numprocs * threads_per_task, 1, 1, &
	347	threads_per_task, nx+1, ny+1, nz, nr_timesteps_this_run, &
	348	average_cputime
	349
	350	IF ( num_acc_per_node /= 0 ) WRITE ( 18, 109 ) num_acc_per_node
	351	WRITE ( 18, 110 )
	352	#endif
	353	DO
	354	ii = MAXLOC( sum )
	355	i = ii(1)
	356	IF ( sum(i) /= -1.0 ) THEN
	357	WRITE ( 18, 102 ) &
	358	log_point(i)%place, log_point(i)%sum, &
	359	log_point(i)%sum / log_point(1)%sum * 100.0, &
	360	log_point(i)%counts, pe_min(i), pe_max(i), pe_rms(i)
	361	sum(i) = -1.0
	362	ELSE
	363	EXIT
	364	ENDIF
	365	ENDDO
[1]	366	ENDIF
	367
	368
[1318]	369	!
	370	!-- The same procedure again for the individual measurements.
	371	!
	372	!-- Compute cpu-times in seconds
	373	log_point_s%mtime = log_point_s%mtime / norm
	374	log_point_s%sum = log_point_s%sum / norm
	375	log_point_s%vector = log_point_s%vector / norm
	376	WHERE ( log_point_s%counts /= 0 )
	377	log_point_s%mean = log_point_s%sum / log_point_s%counts
	378	END WHERE
	379
	380	!
	381	!-- Collect cpu-times from all PEs and calculate statistics
	382	#if defined( __parallel )
	383	!
	384	!-- Set barrier in order to avoid that PE0 receives log_point_s-data
	385	!-- while still busy with receiving log_point-data (see above)
	386	CALL MPI_BARRIER( comm2d, ierr )
	387	#endif
	388	IF ( myid == 0 ) THEN
	389	!
	390	!-- Initialize temporary arrays needed for statistics
	391	pe_min = log_point_s%sum
	392	pe_max = log_point_s%sum ! need to be set in case of 1 PE
	393	pe_rms = 0.0
	394
	395	#if defined( __parallel )
	396	!
	397	!-- Receive data from all PEs
	398	DO i = 1, numprocs-1
	399	CALL MPI_RECV( pe_max(1), SIZE( log_point ), MPI_REAL, &
	400	MPI_ANY_SOURCE, MPI_ANY_TAG, comm2d, status, ierr )
	401	sender = status(MPI_SOURCE)
	402	pe_log_points(:,sender) = pe_max
	403	ENDDO
	404	pe_log_points(:,0) = log_point_s%sum ! Results from PE0
	405	!
	406	!-- Calculate mean of all PEs, store it on log_point_s%sum
	407	!-- and find minimum and maximum
	408	DO iii = 1, SIZE( log_point )
	409	DO i = 1, numprocs-1
	410	log_point_s(iii)%sum = log_point_s(iii)%sum + pe_log_points(iii,i)
	411	pe_min(iii) = MIN( pe_min(iii), pe_log_points(iii,i) )
	412	pe_max(iii) = MAX( pe_max(iii), pe_log_points(iii,i) )
	413	ENDDO
	414	log_point_s(iii)%sum = log_point_s(iii)%sum / numprocs
	415	!
	416	!-- Calculate rms
	417	DO i = 0, numprocs-1
	418	pe_rms(iii) = pe_rms(iii) + ( &
	419	pe_log_points(iii,i) - log_point_s(iii)%sum &
	420	)**2
	421	ENDDO
	422	pe_rms(iii) = SQRT( pe_rms(iii) / numprocs )
	423	ENDDO
	424	ELSE
	425	!
	426	!-- Send data to PE0 (pe_max is used as temporary storage to send
	427	!-- the data in order to avoid sending the data type log)
	428	pe_max = log_point_s%sum
	429	CALL MPI_SEND( pe_max(1), SIZE( log_point ), MPI_REAL, 0, 0, comm2d, &
	430	ierr )
	431	#endif
	432
	433	ENDIF
	434
	435	!
	436	!-- Write cpu-times
	437	IF ( myid == 0 ) THEN
	438	!
	439	!-- Re-store sums
	440	WHERE ( log_point_s%counts /= 0 )
	441	sum = log_point_s%sum
	442	ELSEWHERE
	443	sum = -1.0
	444	ENDWHERE
	445
	446	!
	447	!-- Write cpu-times sorted by size
	448	WRITE ( 18, 101 )
	449	DO
	450	ii = MAXLOC( sum )
	451	i = ii(1)
	452	IF ( sum(i) /= -1.0 ) THEN
	453	WRITE ( 18, 102 ) &
	454	log_point_s(i)%place, log_point_s(i)%sum, &
	455	log_point_s(i)%sum / log_point(1)%sum * 100.0, &
	456	log_point_s(i)%counts, pe_min(i), pe_max(i), pe_rms(i)
	457	sum(i) = -1.0
	458	ELSE
	459	EXIT
	460	ENDIF
	461	ENDDO
	462
	463	!
	464	!-- Output of handling of MPI operations
	465	IF ( collective_wait ) THEN
	466	WRITE ( 18, 103 )
	467	ELSE
	468	WRITE ( 18, 104 )
	469	ENDIF
	470	IF ( cpu_log_barrierwait ) WRITE ( 18, 111 )
	471	IF ( synchronous_exchange ) THEN
	472	WRITE ( 18, 105 )
	473	ELSE
	474	WRITE ( 18, 106 )
	475	ENDIF
	476
	477	!
	478	!-- Empty lines in order to create a gap to the results of the model
	479	!-- continuation runs
	480	WRITE ( 18, 107 )
	481
	482	!
	483	!-- Unit 18 is not needed anymore
	484	CALL close_file( 18 )
	485
	486	ENDIF
	487
	488
	489	100 FORMAT (A/11('-')//'CPU measures for ',I5,' PEs (',I5,'(x) * ',I5,'(y', &
	490	&') tasks *',I5,' threads):'// &
	491	'gridpoints (x/y/z): ',20X,I5,' * ',I5,' * ',I5/ &
	492	'nr of timesteps: ',22X,I6/ &
	493	'cpu time per grid point and timestep: ',5X,F8.5,' * 10**-6 s')
	494
	495	101 FORMAT (/'special measures:'/ &
	496	&'-----------------------------------------------------------', &
	497	&'--------------------')
	498
	499	102 FORMAT (A20,2X,F9.3,2X,F7.2,1X,I7,3(1X,F9.3))
	500	103 FORMAT (/'Barriers are set in front of collective operations')
	501	104 FORMAT (/'No barriers are set in front of collective operations')
	502	105 FORMAT (/'Exchange of ghostpoints via MPI_SENDRCV')
	503	106 FORMAT (/'Exchange of ghostpoints via MPI_ISEND/MPI_IRECV')
	504	107 FORMAT (//)
	505	108 FORMAT ('Accelerator boards per node: ',14X,I2)
	506	109 FORMAT ('Accelerator boards: ',23X,I2)
	507	110 FORMAT ('----------------------------------------------------------', &
	508	&'------------'//&
	509	&'place: mean counts min ', &
	510	&' max rms'/ &
	511	&' sec. % sec. ', &
	512	&' sec. sec.'/ &
	513	&'-----------------------------------------------------------', &
	514	&'-------------------')
	515	111 FORMAT (/'Barriers are set at beginning (start/continue) of measurements')
	516
	517	END SUBROUTINE cpu_statistics
	518
	519	END MODULE cpulog

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