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1perf-c2c(1)
2===========
3
4NAME
5----
6perf-c2c - Shared Data C2C/HITM Analyzer.
7
8SYNOPSIS
9--------
10[verse]
11'perf c2c record' [<options>] <command>
12'perf c2c record' [<options>] -- [<record command options>] <command>
13'perf c2c report' [<options>]
14
15DESCRIPTION
16-----------
17C2C stands for Cache To Cache.
18
19The perf c2c tool provides means for Shared Data C2C/HITM analysis. It allows
20you to track down the cacheline contentions.
21
22On x86, the tool is based on load latency and precise store facility events
23provided by Intel CPUs. On PowerPC, the tool uses random instruction sampling
24with thresholding feature.
25
26These events provide:
27 - memory address of the access
28 - type of the access (load and store details)
29 - latency (in cycles) of the load access
30
31The c2c tool provide means to record this data and report back access details
32for cachelines with highest contention - highest number of HITM accesses.
33
34The basic workflow with this tool follows the standard record/report phase.
35User uses the record command to record events data and report command to
36display it.
37
38
39RECORD OPTIONS
40--------------
41-e::
42--event=::
43 Select the PMU event. Use 'perf c2c record -e list'
44 to list available events.
45
46-v::
47--verbose::
48 Be more verbose (show counter open errors, etc).
49
50-l::
51--ldlat::
52 Configure mem-loads latency. (x86 only)
53
54-k::
55--all-kernel::
56 Configure all used events to run in kernel space.
57
58-u::
59--all-user::
60 Configure all used events to run in user space.
61
62REPORT OPTIONS
63--------------
64-k::
65--vmlinux=<file>::
66 vmlinux pathname
67
68-v::
69--verbose::
70 Be more verbose (show counter open errors, etc).
71
72-i::
73--input::
74 Specify the input file to process.
75
76-N::
77--node-info::
78 Show extra node info in report (see NODE INFO section)
79
80-c::
81--coalesce::
82 Specify sorting fields for single cacheline display.
83 Following fields are available: tid,pid,iaddr,dso
84 (see COALESCE)
85
86-g::
87--call-graph::
88 Setup callchains parameters.
89 Please refer to perf-report man page for details.
90
91--stdio::
92 Force the stdio output (see STDIO OUTPUT)
93
94--stats::
95 Display only statistic tables and force stdio mode.
96
97--full-symbols::
98 Display full length of symbols.
99
100--no-source::
101 Do not display Source:Line column.
102
103--show-all::
104 Show all captured HITM lines, with no regard to HITM % 0.0005 limit.
105
106-f::
107--force::
108 Don't do ownership validation.
109
110-d::
111--display::
112 Switch to HITM type (rmt, lcl) to display and sort on. Total HITMs as default.
113
114--stitch-lbr::
115 Show callgraph with stitched LBRs, which may have more complete
116 callgraph. The perf.data file must have been obtained using
117 perf c2c record --call-graph lbr.
118 Disabled by default. In common cases with call stack overflows,
119 it can recreate better call stacks than the default lbr call stack
120 output. But this approach is not full proof. There can be cases
121 where it creates incorrect call stacks from incorrect matches.
122 The known limitations include exception handing such as
123 setjmp/longjmp will have calls/returns not match.
124
125C2C RECORD
126----------
127The perf c2c record command setup options related to HITM cacheline analysis
128and calls standard perf record command.
129
130Following perf record options are configured by default:
131(check perf record man page for details)
132
133 -W,-d,--phys-data,--sample-cpu
134
135Unless specified otherwise with '-e' option, following events are monitored by
136default on x86:
137
138 cpu/mem-loads,ldlat=30/P
139 cpu/mem-stores/P
140
141and following on PowerPC:
142
143 cpu/mem-loads/
144 cpu/mem-stores/
145
146User can pass any 'perf record' option behind '--' mark, like (to enable
147callchains and system wide monitoring):
148
149 $ perf c2c record -- -g -a
150
151Please check RECORD OPTIONS section for specific c2c record options.
152
153C2C REPORT
154----------
155The perf c2c report command displays shared data analysis. It comes in two
156display modes: stdio and tui (default).
157
158The report command workflow is following:
159 - sort all the data based on the cacheline address
160 - store access details for each cacheline
161 - sort all cachelines based on user settings
162 - display data
163
164In general perf report output consist of 2 basic views:
165 1) most expensive cachelines list
166 2) offsets details for each cacheline
167
168For each cacheline in the 1) list we display following data:
169(Both stdio and TUI modes follow the same fields output)
170
171 Index
172 - zero based index to identify the cacheline
173
174 Cacheline
175 - cacheline address (hex number)
176
177 Rmt/Lcl Hitm
178 - cacheline percentage of all Remote/Local HITM accesses
179
180 LLC Load Hitm - Total, LclHitm, RmtHitm
181 - count of Total/Local/Remote load HITMs
182
183 Total records
184 - sum of all cachelines accesses
185
186 Total loads
187 - sum of all load accesses
188
189 Total stores
190 - sum of all store accesses
191
192 Store Reference - L1Hit, L1Miss
193 L1Hit - store accesses that hit L1
194 L1Miss - store accesses that missed L1
195
196 Core Load Hit - FB, L1, L2
197 - count of load hits in FB (Fill Buffer), L1 and L2 cache
198
199 LLC Load Hit - LlcHit, LclHitm
200 - count of LLC load accesses, includes LLC hits and LLC HITMs
201
202 RMT Load Hit - RmtHit, RmtHitm
203 - count of remote load accesses, includes remote hits and remote HITMs
204
205 Load Dram - Lcl, Rmt
206 - count of local and remote DRAM accesses
207
208For each offset in the 2) list we display following data:
209
210 HITM - Rmt, Lcl
211 - % of Remote/Local HITM accesses for given offset within cacheline
212
213 Store Refs - L1 Hit, L1 Miss
214 - % of store accesses that hit/missed L1 for given offset within cacheline
215
216 Data address - Offset
217 - offset address
218
219 Pid
220 - pid of the process responsible for the accesses
221
222 Tid
223 - tid of the process responsible for the accesses
224
225 Code address
226 - code address responsible for the accesses
227
228 cycles - rmt hitm, lcl hitm, load
229 - sum of cycles for given accesses - Remote/Local HITM and generic load
230
231 cpu cnt
232 - number of cpus that participated on the access
233
234 Symbol
235 - code symbol related to the 'Code address' value
236
237 Shared Object
238 - shared object name related to the 'Code address' value
239
240 Source:Line
241 - source information related to the 'Code address' value
242
243 Node
244 - nodes participating on the access (see NODE INFO section)
245
246NODE INFO
247---------
248The 'Node' field displays nodes that accesses given cacheline
249offset. Its output comes in 3 flavors:
250 - node IDs separated by ','
251 - node IDs with stats for each ID, in following format:
252 Node{cpus %hitms %stores}
253 - node IDs with list of affected CPUs in following format:
254 Node{cpu list}
255
256User can switch between above flavors with -N option or
257use 'n' key to interactively switch in TUI mode.
258
259COALESCE
260--------
261User can specify how to sort offsets for cacheline.
262
263Following fields are available and governs the final
264output fields set for caheline offsets output:
265
266 tid - coalesced by process TIDs
267 pid - coalesced by process PIDs
268 iaddr - coalesced by code address, following fields are displayed:
269 Code address, Code symbol, Shared Object, Source line
270 dso - coalesced by shared object
271
272By default the coalescing is setup with 'pid,iaddr'.
273
274STDIO OUTPUT
275------------
276The stdio output displays data on standard output.
277
278Following tables are displayed:
279 Trace Event Information
280 - overall statistics of memory accesses
281
282 Global Shared Cache Line Event Information
283 - overall statistics on shared cachelines
284
285 Shared Data Cache Line Table
286 - list of most expensive cachelines
287
288 Shared Cache Line Distribution Pareto
289 - list of all accessed offsets for each cacheline
290
291TUI OUTPUT
292----------
293The TUI output provides interactive interface to navigate
294through cachelines list and to display offset details.
295
296For details please refer to the help window by pressing '?' key.
297
298CREDITS
299-------
300Although Don Zickus, Dick Fowles and Joe Mario worked together
301to get this implemented, we got lots of early help from Arnaldo
302Carvalho de Melo, Stephane Eranian, Jiri Olsa and Andi Kleen.
303
304C2C BLOG
305--------
306Check Joe's blog on c2c tool for detailed use case explanation:
307 https://joemario.github.io/blog/2016/09/01/c2c-blog/
308
309SEE ALSO
310--------
311linkperf:perf-record[1], linkperf:perf-mem[1]
1perf-c2c(1)
2===========
3
4NAME
5----
6perf-c2c - Shared Data C2C/HITM Analyzer.
7
8SYNOPSIS
9--------
10[verse]
11'perf c2c record' [<options>] <command>
12'perf c2c record' [<options>] -- [<record command options>] <command>
13'perf c2c report' [<options>]
14
15DESCRIPTION
16-----------
17C2C stands for Cache To Cache.
18
19The perf c2c tool provides means for Shared Data C2C/HITM analysis. It allows
20you to track down the cacheline contentions.
21
22The tool is based on x86's load latency and precise store facility events
23provided by Intel CPUs. These events provide:
24 - memory address of the access
25 - type of the access (load and store details)
26 - latency (in cycles) of the load access
27
28The c2c tool provide means to record this data and report back access details
29for cachelines with highest contention - highest number of HITM accesses.
30
31The basic workflow with this tool follows the standard record/report phase.
32User uses the record command to record events data and report command to
33display it.
34
35
36RECORD OPTIONS
37--------------
38-e::
39--event=::
40 Select the PMU event. Use 'perf mem record -e list'
41 to list available events.
42
43-v::
44--verbose::
45 Be more verbose (show counter open errors, etc).
46
47-l::
48--ldlat::
49 Configure mem-loads latency.
50
51-k::
52--all-kernel::
53 Configure all used events to run in kernel space.
54
55-u::
56--all-user::
57 Configure all used events to run in user space.
58
59REPORT OPTIONS
60--------------
61-k::
62--vmlinux=<file>::
63 vmlinux pathname
64
65-v::
66--verbose::
67 Be more verbose (show counter open errors, etc).
68
69-i::
70--input::
71 Specify the input file to process.
72
73-N::
74--node-info::
75 Show extra node info in report (see NODE INFO section)
76
77-c::
78--coalesce::
79 Specify sorintg fields for single cacheline display.
80 Following fields are available: tid,pid,iaddr,dso
81 (see COALESCE)
82
83-g::
84--call-graph::
85 Setup callchains parameters.
86 Please refer to perf-report man page for details.
87
88--stdio::
89 Force the stdio output (see STDIO OUTPUT)
90
91--stats::
92 Display only statistic tables and force stdio mode.
93
94--full-symbols::
95 Display full length of symbols.
96
97--no-source::
98 Do not display Source:Line column.
99
100--show-all::
101 Show all captured HITM lines, with no regard to HITM % 0.0005 limit.
102
103-f::
104--force::
105 Don't do ownership validation.
106
107-d::
108--display::
109 Siwtch to HITM type (rmt, lcl) to display and sort on. Total HITMs as default.
110
111C2C RECORD
112----------
113The perf c2c record command setup options related to HITM cacheline analysis
114and calls standard perf record command.
115
116Following perf record options are configured by default:
117(check perf record man page for details)
118
119 -W,-d,--sample-cpu
120
121Unless specified otherwise with '-e' option, following events are monitored by
122default:
123
124 cpu/mem-loads,ldlat=30/P
125 cpu/mem-stores/P
126
127User can pass any 'perf record' option behind '--' mark, like (to enable
128callchains and system wide monitoring):
129
130 $ perf c2c record -- -g -a
131
132Please check RECORD OPTIONS section for specific c2c record options.
133
134C2C REPORT
135----------
136The perf c2c report command displays shared data analysis. It comes in two
137display modes: stdio and tui (default).
138
139The report command workflow is following:
140 - sort all the data based on the cacheline address
141 - store access details for each cacheline
142 - sort all cachelines based on user settings
143 - display data
144
145In general perf report output consist of 2 basic views:
146 1) most expensive cachelines list
147 2) offsets details for each cacheline
148
149For each cacheline in the 1) list we display following data:
150(Both stdio and TUI modes follow the same fields output)
151
152 Index
153 - zero based index to identify the cacheline
154
155 Cacheline
156 - cacheline address (hex number)
157
158 Total records
159 - sum of all cachelines accesses
160
161 Rmt/Lcl Hitm
162 - cacheline percentage of all Remote/Local HITM accesses
163
164 LLC Load Hitm - Total, Lcl, Rmt
165 - count of Total/Local/Remote load HITMs
166
167 Store Reference - Total, L1Hit, L1Miss
168 Total - all store accesses
169 L1Hit - store accesses that hit L1
170 L1Hit - store accesses that missed L1
171
172 Load Dram
173 - count of local and remote DRAM accesses
174
175 LLC Ld Miss
176 - count of all accesses that missed LLC
177
178 Total Loads
179 - sum of all load accesses
180
181 Core Load Hit - FB, L1, L2
182 - count of load hits in FB (Fill Buffer), L1 and L2 cache
183
184 LLC Load Hit - Llc, Rmt
185 - count of LLC and Remote load hits
186
187For each offset in the 2) list we display following data:
188
189 HITM - Rmt, Lcl
190 - % of Remote/Local HITM accesses for given offset within cacheline
191
192 Store Refs - L1 Hit, L1 Miss
193 - % of store accesses that hit/missed L1 for given offset within cacheline
194
195 Data address - Offset
196 - offset address
197
198 Pid
199 - pid of the process responsible for the accesses
200
201 Tid
202 - tid of the process responsible for the accesses
203
204 Code address
205 - code address responsible for the accesses
206
207 cycles - rmt hitm, lcl hitm, load
208 - sum of cycles for given accesses - Remote/Local HITM and generic load
209
210 cpu cnt
211 - number of cpus that participated on the access
212
213 Symbol
214 - code symbol related to the 'Code address' value
215
216 Shared Object
217 - shared object name related to the 'Code address' value
218
219 Source:Line
220 - source information related to the 'Code address' value
221
222 Node
223 - nodes participating on the access (see NODE INFO section)
224
225NODE INFO
226---------
227The 'Node' field displays nodes that accesses given cacheline
228offset. Its output comes in 3 flavors:
229 - node IDs separated by ','
230 - node IDs with stats for each ID, in following format:
231 Node{cpus %hitms %stores}
232 - node IDs with list of affected CPUs in following format:
233 Node{cpu list}
234
235User can switch between above flavors with -N option or
236use 'n' key to interactively switch in TUI mode.
237
238COALESCE
239--------
240User can specify how to sort offsets for cacheline.
241
242Following fields are available and governs the final
243output fields set for caheline offsets output:
244
245 tid - coalesced by process TIDs
246 pid - coalesced by process PIDs
247 iaddr - coalesced by code address, following fields are displayed:
248 Code address, Code symbol, Shared Object, Source line
249 dso - coalesced by shared object
250
251By default the coalescing is setup with 'pid,tid,iaddr'.
252
253STDIO OUTPUT
254------------
255The stdio output displays data on standard output.
256
257Following tables are displayed:
258 Trace Event Information
259 - overall statistics of memory accesses
260
261 Global Shared Cache Line Event Information
262 - overall statistics on shared cachelines
263
264 Shared Data Cache Line Table
265 - list of most expensive cachelines
266
267 Shared Cache Line Distribution Pareto
268 - list of all accessed offsets for each cacheline
269
270TUI OUTPUT
271----------
272The TUI output provides interactive interface to navigate
273through cachelines list and to display offset details.
274
275For details please refer to the help window by pressing '?' key.
276
277CREDITS
278-------
279Although Don Zickus, Dick Fowles and Joe Mario worked together
280to get this implemented, we got lots of early help from Arnaldo
281Carvalho de Melo, Stephane Eranian, Jiri Olsa and Andi Kleen.
282
283C2C BLOG
284--------
285Check Joe's blog on c2c tool for detailed use case explanation:
286 https://joemario.github.io/blog/2016/09/01/c2c-blog/
287
288SEE ALSO
289--------
290linkperf:perf-record[1], linkperf:perf-mem[1]