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38 #include "walltime_accounting.h"
47 #ifdef HAVE_SYS_TIME_H
51 #include "gromacs/utility/basedefinitions.h"
52 #include "gromacs/utility/smalloc.h"
54 /* TODO in future: convert gmx_walltime_accounting to a class,
55 * resolve who should have responsibility for recording the number of
56 * steps done, consider whether parts of finish_time, print_perf,
57 * wallcycle_print belong in this module.
59 * If/when any kind of task parallelism is implemented (even OpenMP
60 * regions simultaneously assigned to different tasks), consider
61 * whether this data structure (and/or cycle counters) should be
62 * maintained on a per-OpenMP-thread basis. */
64 /*! \brief Manages caching wall-clock time measurements for
66 typedef struct gmx_walltime_accounting {
67 //! Seconds since the epoch recorded at the start of the simulation
68 double start_time_stamp;
69 //! Seconds since the epoch recorded at the start of the simulation for this thread
70 double start_time_stamp_per_thread;
71 //! Total seconds elapsed over the simulation
73 //! Total seconds elapsed over the simulation running this thread
74 double elapsed_time_over_all_threads;
75 /*! \brief Number of OpenMP threads that will be launched by this
78 * This is used to scale elapsed_time_over_all_threads so
79 * that any combination of real MPI, thread MPI and OpenMP (even
80 * mdrun -ntomp_pme) processes/threads would (when run at maximum
81 * efficiency) return values such that the sum of
82 * elapsed_time_over_all_threads over all threads was constant
83 * with respect to parallelism implementation. */
85 //! Set by integrators to report the amount of work they did
86 gmx_int64_t nsteps_done;
87 } t_gmx_walltime_accounting;
89 /*! \brief Calls system timing routines (e.g. clock_gettime) to get
90 * the (fractional) number of seconds elapsed since the epoch when
91 * this thread was executing.
93 * This can be used to measure system load. This can be unreliable if
94 * threads migrate between sockets. If thread-specific timers are not
95 * supported by the OS (e.g. if the OS is not POSIX-compliant), this
96 * function is implemented by gmx_gettime. */
97 static double gmx_gettime_per_thread();
99 // TODO In principle, all this should get protected by checks that
100 // walltime_accounting is not null. In practice, that NULL condition
101 // does not happen, and future refactoring will likely enforce it by
102 // having the gmx_walltime_accounting_t object be owned by the runner
103 // object. When these become member functions, existence will be
106 gmx_walltime_accounting_t
107 walltime_accounting_init(int numOpenMPThreads)
109 gmx_walltime_accounting_t walltime_accounting;
111 snew(walltime_accounting, 1);
112 walltime_accounting->start_time_stamp = 0;
113 walltime_accounting->start_time_stamp_per_thread = 0;
114 walltime_accounting->elapsed_time = 0;
115 walltime_accounting->nsteps_done = 0;
116 walltime_accounting->numOpenMPThreads = numOpenMPThreads;
118 return walltime_accounting;
122 walltime_accounting_destroy(gmx_walltime_accounting_t walltime_accounting)
124 sfree(walltime_accounting);
128 walltime_accounting_start(gmx_walltime_accounting_t walltime_accounting)
130 walltime_accounting->start_time_stamp = gmx_gettime();
131 walltime_accounting->start_time_stamp_per_thread = gmx_gettime_per_thread();
132 walltime_accounting->elapsed_time = 0;
133 walltime_accounting->nsteps_done = 0;
137 walltime_accounting_end(gmx_walltime_accounting_t walltime_accounting)
139 double now, now_per_thread;
142 now_per_thread = gmx_gettime_per_thread();
144 walltime_accounting->elapsed_time = now - walltime_accounting->start_time_stamp;
145 walltime_accounting->elapsed_time_over_all_threads = now_per_thread - walltime_accounting->start_time_stamp_per_thread;
146 /* For thread-MPI, the per-thread CPU timer makes this just
147 * work. For OpenMP threads, the per-thread CPU timer measurement
148 * needs to be multiplied by the number of OpenMP threads used,
149 * under the current assumption that all regions ever opened
150 * within a process are of the same size, and each thread should
151 * keep one core busy.
153 walltime_accounting->elapsed_time_over_all_threads *= walltime_accounting->numOpenMPThreads;
157 walltime_accounting_get_current_elapsed_time(gmx_walltime_accounting_t walltime_accounting)
159 return gmx_gettime() - walltime_accounting->start_time_stamp;
163 walltime_accounting_get_elapsed_time(gmx_walltime_accounting_t walltime_accounting)
165 return walltime_accounting->elapsed_time;
169 walltime_accounting_get_elapsed_time_over_all_threads(gmx_walltime_accounting_t walltime_accounting)
171 return walltime_accounting->elapsed_time_over_all_threads;
175 walltime_accounting_get_start_time_stamp(gmx_walltime_accounting_t walltime_accounting)
177 return walltime_accounting->start_time_stamp;
181 walltime_accounting_get_nsteps_done(gmx_walltime_accounting_t walltime_accounting)
183 return walltime_accounting->nsteps_done;
187 walltime_accounting_set_nsteps_done(gmx_walltime_accounting_t walltime_accounting,
188 gmx_int64_t nsteps_done)
190 walltime_accounting->nsteps_done = nsteps_done;
196 #if defined HAVE_CLOCK_GETTIME && _POSIX_TIMERS >= 0
197 /* Mac and Windows do not support this. For added fun, Windows
198 * defines _POSIX_TIMERS without actually providing the
203 clock_gettime(CLOCK_REALTIME, &t);
204 seconds = (double) t.tv_sec + 1e-9*(double)t.tv_nsec;
207 #elif defined HAVE_GETTIMEOFDAY
208 // Note that gettimeofday() is deprecated by POSIX, but since Mac
209 // and Windows do not yet support POSIX, we are still stuck.
213 gettimeofday(&t, NULL);
214 seconds = (double) t.tv_sec + 1e-6*(double)t.tv_usec;
220 seconds = time(NULL);
227 gmx_gettime_per_thread()
229 #if defined HAVE_CLOCK_GETTIME && _POSIX_THREAD_CPUTIME >= 0
233 clock_gettime(CLOCK_THREAD_CPUTIME_ID, &t);
234 seconds = (double) t.tv_sec + 1e-9*(double)t.tv_nsec;
238 return gmx_gettime();