1 #pragma once 2 #include <petscsystypes.h> 3 4 /* MANSEC = Sys */ 5 /* SUBMANSEC = Log */ 6 7 /*S 8 PetscEventPerfInfo - statistics on how many times the event is used, how much time it takes, etc. 9 10 Level: advanced 11 12 Note: 13 This is the data structure that describes profiling statsitics collected for an event from 14 the default log handler (`PetscLogDefaultBegin()`) using `PetscLogEventGetPerfInfo()`. 15 16 .seealso(): [](ch_profiling) 17 S*/ 18 typedef struct { 19 int id; /* The integer identifying this event / stage */ 20 PetscBool active; /* Deprecated */ 21 PetscBool visible; /* The flag to print info in summary */ 22 int depth; /* The nesting depth of the event call */ 23 int count; /* The number of times this event was executed */ 24 PetscLogDouble flops; /* The flops used in this event */ 25 PetscLogDouble flops2; /* The square of flops used in this event */ 26 PetscLogDouble flopsTmp; /* The accumulator for flops used in this event */ 27 PetscLogDouble time; /* The time taken for this event */ 28 PetscLogDouble time2; /* The square of time taken for this event */ 29 PetscLogDouble timeTmp; /* The accumulator for time taken for this event */ 30 PetscLogDouble syncTime; /* The synchronization barrier time */ 31 PetscLogDouble dof[8]; /* The number of degrees of freedom associated with this event */ 32 PetscLogDouble errors[8]; /* The errors (user-defined) associated with this event */ 33 PetscLogDouble numMessages; /* The number of messages in this event */ 34 PetscLogDouble messageLength; /* The total message lengths in this event */ 35 PetscLogDouble numReductions; /* The number of reductions in this event */ 36 PetscLogDouble memIncrease; /* How much the resident memory has increased in this event */ 37 PetscLogDouble mallocIncrease; /* How much the maximum malloced space has increased in this event */ 38 PetscLogDouble mallocSpace; /* How much the space was malloced and kept during this event */ 39 PetscLogDouble mallocIncreaseEvent; /* Maximum of the high water mark with in event minus memory available at the end of the event */ 40 #if defined(PETSC_HAVE_DEVICE) 41 PetscLogDouble CpuToGpuCount; /* The total number of CPU to GPU copies */ 42 PetscLogDouble GpuToCpuCount; /* The total number of GPU to CPU copies */ 43 PetscLogDouble CpuToGpuSize; /* The total size of CPU to GPU copies */ 44 PetscLogDouble GpuToCpuSize; /* The total size of GPU to CPU copies */ 45 PetscLogDouble GpuFlops; /* The flops done on a GPU in this event */ 46 PetscLogDouble GpuTime; /* The time spent on a GPU in this event */ 47 #endif 48 } PetscEventPerfInfo; 49 50 typedef struct _n_PetscIntStack *PetscIntStack; 51 52 /*MC 53 PetscLogEvent - id used to identify PETSc or user events which timed portions (blocks of executable) 54 code. 55 56 Level: intermediate 57 58 .seealso: [](ch_profiling), `PetscLogEventRegister()`, `PetscLogEventBegin()`, `PetscLogEventEnd()`, `PetscLogStage` 59 M*/ 60 typedef int PetscLogEvent; 61 62 /*MC 63 PetscLogStage - id used to identify user stages (phases, sections) of runs - for logging 64 65 Level: intermediate 66 67 .seealso: [](ch_profiling), `PetscLogStageRegister()`, `PetscLogStagePush()`, `PetscLogStagePop()`, `PetscLogEvent` 68 M*/ 69 typedef int PetscLogStage; 70 71 /*MC 72 PetscLogClass - id used to identify classes for logging purposes only. It 73 is not equal to its `PetscClassId`, which is the identifier used for other 74 purposes. 75 76 Level: developer 77 78 .seealso: [](ch_profiling), `PetscLogStateClassRegister()` 79 M*/ 80 typedef int PetscLogClass; 81 82 /*S 83 PetscLogHandler - Interface for performance logging. A log handler receives a `PetscLogState` that has 84 information about the events (`PetscLogEvent`) and stages (`PetscLogStage`) in the logging environment. 85 When a handler is connected to PETSc's global logging stream (`PetscLogHandlerStart()`), it receives 86 updates about events (`PetscLogEventBegin()` / `PetscLogEventEnd()`), stages (`PetscLogStagePush()` / 87 `PetscLogStagePop()`), and objects (`PetscLogObjectCreate()` / `PetscLogObjectDestroy()`). After 88 collecting information the logger can summarize its data with `PetscLogHandlerView()`. 89 90 Example Usage: 91 .vb 92 #include <petscsys.h> 93 94 int main() { 95 UserCtx ctx; 96 PetscLogHandlerType handler_type; 97 98 PetscInitialize(...); 99 // ... fill in ctx 100 PetscLogHandlerCreate(PETSC_COMM_WORLD, &handler); 101 PetscLogHandlerSetType(handler, handler_type); 102 PetscLogHandlerStart(handler); // connect your handler to global logging state 103 // ... run code to be profiled 104 PetscLogHandlerStop(handler); // disconnect your handler from the global logging state 105 PetscLogHandlerView(handler, PETSC_VIEWER_STDOUT_WORLD); // view the results 106 PetscLogHandlerDestroy(&handler); 107 PetscFinalize(); 108 } 109 .ve 110 111 Level: developer 112 113 .seealso: [](ch_profiling), 114 `PetscLogHandlerCreate()`, 115 `PetscLogHandlerStart()`, `PetscLogHandlerStop()`, 116 `PetscLogHandlerSetType()`, `PetscLogHandlerGetType()`, 117 `PetscLogHandlerSetState()`, `PetscLogHandlerGetState()`, 118 `PetscLogHandlerEventBegin()`, `PetscLogHandlerEventEnd()`, 119 `PetscLogHandlerEventSync()`, 120 `PetscLogHandlerObjectCreate()`, `PetscLogHandlerObjectDestroy()`, 121 `PetscLogHandlerStagePush()`, `PetscLogHandlerStagePop()`, 122 `PetscLogHandlerView()`, 123 `PetscLogHandlerDestroy()`, 124 S*/ 125 typedef struct _p_PetscLogHandler *PetscLogHandler; 126 127 /*J 128 PetscLogHandlerType - String with the name of a `PetscLogHandler` type 129 130 Level: Developer 131 132 Note: 133 Implementations included with PETSc include\: 134 + `PETSCLOGHANDLERDEFAULT` (`PetscLogDefaultBegin()`) - formats data for PETSc's default summary (`PetscLogView()`) and data-dump (`PetscLogDump()`) formats. 135 . `PETSCLOGHANDLERNESTED` (`PetscLogNestedBegin()`) - formats data for XML or flamegraph output 136 . `PETSCLOGHANDLERTRACE` (`PetscLogTraceBegin()`) - traces profiling events in an output stream 137 . `PETSCLOGHANDLERMPE` (`PetscLogMPEBegin()`) - outputs parallel performance visualization using MPE 138 . `PETSCLOGHANDLERPERFSTUBS` (`PetscLogPerfstubsBegin()`) - outputs instrumentation data for PerfStubs/TAU 139 . `PETSCLOGHANDLERLEGACY` (`PetscLogLegacyCallbacksBegin()`) - adapts legacy callbacks to the `PetscLogHandler` interface 140 - `PETSCLOGHANDLERNVTX` - creates NVTX ranges for events that are visible in Nsight 141 - `PETSCLOGHANDLERROCTX` - creates ROCTx ranges for events that are visible in rocprof 142 143 .seealso: [](ch_profiling), `PetscLogHandler`, `PetscLogHandlerSetType()`, `PetscLogHandlerGetType()` 144 J*/ 145 typedef const char *PetscLogHandlerType; 146 147 #define PETSCLOGHANDLERDEFAULT "default" 148 #define PETSCLOGHANDLERNESTED "nested" 149 #define PETSCLOGHANDLERTRACE "trace" 150 #define PETSCLOGHANDLERMPE "mpe" 151 #define PETSCLOGHANDLERPERFSTUBS "perfstubs" 152 #define PETSCLOGHANDLERLEGACY "legacy" 153 #define PETSCLOGHANDLERNVTX "nvtx" 154 #define PETSCLOGHANDLERROCTX "roctx" 155 156 typedef struct _n_PetscLogRegistry *PetscLogRegistry; 157 158 /*S 159 PetscLogState - Interface for the shared state information used by `PetscLogHandler`s. 160 161 Most users will not need to reference a `PetscLogState` directly: global logging routines 162 like `PetscLogEventRegister()` and `PetscLogStagePush()` implicitly manipulate PETSc's global 163 logging state, `PetscLogGetState()`. 164 165 Level: developer 166 167 Notes: 168 `PetscLogState` holds a registry of events (`PetscLogStateEventRegister()`), stages 169 (`PetscLogStateStageRegister()`), and classes (`PetscLogStateClassRegister()`). 170 It keeps track of when the user has activated events (`PetscLogStateEventSetActive()`) and 171 stages (`PetscLogStateStageSetActive()`). It also keeps a stack of running stages 172 (`PetscLogStateStagePush()`, `PetscLogStateStagePop()`). 173 174 The struct defining `PetscLogState` is in a public header so that `PetscLogEventBegin()`, 175 `PetscLogEventEnd()`, `PetscLogObjectCreate()`, and `PetscLogObjectDestroy()` can be defined 176 as macros rather than function calls, but users are discouraged from directly accessing 177 the struct's fields, which are subject to change. 178 179 .seealso: [](ch_profiling), `PetscLogStateCreate()`, `PetscLogStateDestroy()` 180 S*/ 181 typedef struct _n_PetscLogState *PetscLogState; 182 struct _n_PetscLogState { 183 PetscLogRegistry registry; 184 PetscBT active; 185 PetscIntStack stage_stack; 186 int current_stage; 187 int bt_num_stages; 188 int bt_num_events; 189 int refct; 190 }; 191 192 /*S 193 PetscLogEventInfo - A registry entry about a logging event for `PetscLogState`. 194 195 Level: developer 196 197 .seealso: [](ch_profiling), `PetscLogEvent`, `PetscLogState`, `PetscLogStateEventGetInfo()` 198 S*/ 199 typedef struct { 200 char *name; /* The name of this event */ 201 PetscClassId classid; /* The class the event is associated with */ 202 PetscBool collective; /* Flag this event as collective */ 203 } PetscLogEventInfo; 204 205 /*S 206 PetscLogClassInfo - A registry entry about a class for `PetscLogState`. 207 208 Level: developer 209 210 .seealso: [](ch_profiling), `PetscLogClass`, `PetscLogState`, `PetscLogStateStageGetInfo()` 211 S*/ 212 typedef struct { 213 char *name; /* The class name */ 214 PetscClassId classid; /* The integer identifying this class */ 215 } PetscLogClassInfo; 216 217 /*S 218 PetscLogStageInfo - A registry entry about a class for `PetscLogState`. 219 220 Level: developer 221 222 .seealso: [](ch_profiling), `PetscLogStage`, `PetscLogState`, `PetscLogStateClassGetInfo()` 223 S*/ 224 typedef struct { 225 char *name; /* The stage name */ 226 } PetscLogStageInfo; 227