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Linux/tools/perf/Documentation/intel-hybrid.txt

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  1 Intel hybrid support
  2 --------------------
  3 Support for Intel hybrid events within perf tools.
  4 
  5 For some Intel platforms, such as AlderLake, which is hybrid platform and
  6 it consists of atom cpu and core cpu. Each cpu has dedicated event list.
  7 Part of events are available on core cpu, part of events are available
  8 on atom cpu and even part of events are available on both.
  9 
 10 Kernel exports two new cpu pmus via sysfs:
 11 /sys/devices/cpu_core
 12 /sys/devices/cpu_atom
 13 
 14 The 'cpus' files are created under the directories. For example,
 15 
 16 cat /sys/devices/cpu_core/cpus
 17 0-15
 18 
 19 cat /sys/devices/cpu_atom/cpus
 20 16-23
 21 
 22 It indicates cpu0-cpu15 are core cpus and cpu16-cpu23 are atom cpus.
 23 
 24 As before, use perf-list to list the symbolic event.
 25 
 26 perf list
 27 
 28 inst_retired.any
 29         [Fixed Counter: Counts the number of instructions retired. Unit: cpu_atom]
 30 inst_retired.any
 31         [Number of instructions retired. Fixed Counter - architectural event. Unit: cpu_core]
 32 
 33 The 'Unit: xxx' is added to brief description to indicate which pmu
 34 the event is belong to. Same event name but with different pmu can
 35 be supported.
 36 
 37 Enable hybrid event with a specific pmu
 38 
 39 To enable a core only event or atom only event, following syntax is supported:
 40 
 41         cpu_core/<event name>/
 42 or
 43         cpu_atom/<event name>/
 44 
 45 For example, count the 'cycles' event on core cpus.
 46 
 47         perf stat -e cpu_core/cycles/
 48 
 49 Create two events for one hardware event automatically
 50 
 51 When creating one event and the event is available on both atom and core,
 52 two events are created automatically. One is for atom, the other is for
 53 core. Most of hardware events and cache events are available on both
 54 cpu_core and cpu_atom.
 55 
 56 For hardware events, they have pre-defined configs (e.g. 0 for cycles).
 57 But on hybrid platform, kernel needs to know where the event comes from
 58 (from atom or from core). The original perf event type PERF_TYPE_HARDWARE
 59 can't carry pmu information. So now this type is extended to be PMU aware
 60 type. The PMU type ID is stored at attr.config[63:32].
 61 
 62 PMU type ID is retrieved from sysfs.
 63 /sys/devices/cpu_atom/type
 64 /sys/devices/cpu_core/type
 65 
 66 The new attr.config layout for PERF_TYPE_HARDWARE:
 67 
 68 PERF_TYPE_HARDWARE:                 0xEEEEEEEE000000AA
 69                                     AA: hardware event ID
 70                                     EEEEEEEE: PMU type ID
 71 
 72 Cache event is similar. The type PERF_TYPE_HW_CACHE is extended to be
 73 PMU aware type. The PMU type ID is stored at attr.config[63:32].
 74 
 75 The new attr.config layout for PERF_TYPE_HW_CACHE:
 76 
 77 PERF_TYPE_HW_CACHE:                 0xEEEEEEEE00DDCCBB
 78                                     BB: hardware cache ID
 79                                     CC: hardware cache op ID
 80                                     DD: hardware cache op result ID
 81                                     EEEEEEEE: PMU type ID
 82 
 83 When enabling a hardware event without specified pmu, such as,
 84 perf stat -e cycles -a (use system-wide in this example), two events
 85 are created automatically.
 86 
 87   ------------------------------------------------------------
 88   perf_event_attr:
 89     size                             120
 90     config                           0x400000000
 91     sample_type                      IDENTIFIER
 92     read_format                      TOTAL_TIME_ENABLED|TOTAL_TIME_RUNNING
 93     disabled                         1
 94     inherit                          1
 95     exclude_guest                    1
 96   ------------------------------------------------------------
 97 
 98 and
 99 
100   ------------------------------------------------------------
101   perf_event_attr:
102     size                             120
103     config                           0x800000000
104     sample_type                      IDENTIFIER
105     read_format                      TOTAL_TIME_ENABLED|TOTAL_TIME_RUNNING
106     disabled                         1
107     inherit                          1
108     exclude_guest                    1
109   ------------------------------------------------------------
110 
111 type 0 is PERF_TYPE_HARDWARE.
112 0x4 in 0x400000000 indicates it's cpu_core pmu.
113 0x8 in 0x800000000 indicates it's cpu_atom pmu (atom pmu type id is random).
114 
115 The kernel creates 'cycles' (0x400000000) on cpu0-cpu15 (core cpus),
116 and create 'cycles' (0x800000000) on cpu16-cpu23 (atom cpus).
117 
118 For perf-stat result, it displays two events:
119 
120  Performance counter stats for 'system wide':
121 
122            6,744,979      cpu_core/cycles/
123            1,965,552      cpu_atom/cycles/
124 
125 The first 'cycles' is core event, the second 'cycles' is atom event.
126 
127 Thread mode example:
128 
129 perf-stat reports the scaled counts for hybrid event and with a percentage
130 displayed. The percentage is the event's running time/enabling time.
131 
132 One example, 'triad_loop' runs on cpu16 (atom core), while we can see the
133 scaled value for core cycles is 160,444,092 and the percentage is 0.47%.
134 
135 perf stat -e cycles \-- taskset -c 16 ./triad_loop
136 
137 As previous, two events are created.
138 
139 ------------------------------------------------------------
140 perf_event_attr:
141   size                             120
142   config                           0x400000000
143   sample_type                      IDENTIFIER
144   read_format                      TOTAL_TIME_ENABLED|TOTAL_TIME_RUNNING
145   disabled                         1
146   inherit                          1
147   enable_on_exec                   1
148   exclude_guest                    1
149 ------------------------------------------------------------
150 
151 and
152 
153 ------------------------------------------------------------
154 perf_event_attr:
155   size                             120
156   config                           0x800000000
157   sample_type                      IDENTIFIER
158   read_format                      TOTAL_TIME_ENABLED|TOTAL_TIME_RUNNING
159   disabled                         1
160   inherit                          1
161   enable_on_exec                   1
162   exclude_guest                    1
163 ------------------------------------------------------------
164 
165  Performance counter stats for 'taskset -c 16 ./triad_loop':
166 
167        233,066,666      cpu_core/cycles/                                              (0.43%)
168        604,097,080      cpu_atom/cycles/                                              (99.57%)
169 
170 perf-record:
171 
172 If there is no '-e' specified in perf record, on hybrid platform,
173 it creates two default 'cycles' and adds them to event list. One
174 is for core, the other is for atom.
175 
176 perf-stat:
177 
178 If there is no '-e' specified in perf stat, on hybrid platform,
179 besides of software events, following events are created and
180 added to event list in order.
181 
182 cpu_core/cycles/,
183 cpu_atom/cycles/,
184 cpu_core/instructions/,
185 cpu_atom/instructions/,
186 cpu_core/branches/,
187 cpu_atom/branches/,
188 cpu_core/branch-misses/,
189 cpu_atom/branch-misses/
190 
191 Of course, both perf-stat and perf-record support to enable
192 hybrid event with a specific pmu.
193 
194 e.g.
195 perf stat -e cpu_core/cycles/
196 perf stat -e cpu_atom/cycles/
197 perf stat -e cpu_core/r1a/
198 perf stat -e cpu_atom/L1-icache-loads/
199 perf stat -e cpu_core/cycles/,cpu_atom/instructions/
200 perf stat -e '{cpu_core/cycles/,cpu_core/instructions/}'
201 
202 But '{cpu_core/cycles/,cpu_atom/instructions/}' will return
203 warning and disable grouping, because the pmus in group are
204 not matched (cpu_core vs. cpu_atom).

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