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-rw-r--r--tools/perf/Documentation/tips.txt31
1 files changed, 26 insertions, 5 deletions
diff --git a/tools/perf/Documentation/tips.txt b/tools/perf/Documentation/tips.txt
index 825745a645..67b326ba00 100644
--- a/tools/perf/Documentation/tips.txt
+++ b/tools/perf/Documentation/tips.txt
@@ -2,6 +2,7 @@ For a higher level overview, try: perf report --sort comm,dso
Sample related events with: perf record -e '{cycles,instructions}:S'
Compare performance results with: perf diff [<old file> <new file>]
Boolean options have negative forms, e.g.: perf report --no-children
+To not accumulate CPU time of children symbols add --no-children
Customize output of perf script with: perf script -F event,ip,sym
Generate a script for your data: perf script -g <lang>
Save output of perf stat using: perf stat record <target workload>
@@ -12,32 +13,52 @@ List events using substring match: perf list <keyword>
To see list of saved events and attributes: perf evlist -v
Use --symfs <dir> if your symbol files are in non-standard locations
To see callchains in a more compact form: perf report -g folded
+To see call chains by final symbol taking CPU time (bottom up) use perf report -G
Show individual samples with: perf script
Limit to show entries above 5% only: perf report --percent-limit 5
Profiling branch (mis)predictions with: perf record -b / perf report
-To show assembler sample contexts use perf record -b / perf script -F +brstackinsn --xed
-Treat branches as callchains: perf report --branch-history
-To count events in every 1000 msec: perf stat -I 1000
-Print event counts in CSV format with: perf stat -x,
+To show assembler sample context control flow use perf record -b / perf report --samples 10 and then browse context
+To adjust path to source files to local file system use perf report --prefix=... --prefix-strip=...
+Treat branches as callchains: perf record -b ... ; perf report --branch-history
+Show estimate cycles per function and IPC in annotate use perf record -b ... ; perf report --total-cycles
+To count events every 1000 msec: perf stat -I 1000
+Print event counts in machine readable CSV format with: perf stat -x\;
If you have debuginfo enabled, try: perf report -s sym,srcline
For memory address profiling, try: perf mem record / perf mem report
For tracepoint events, try: perf report -s trace_fields
To record callchains for each sample: perf record -g
+If call chains don't work try perf record --call-graph dwarf or --call-graph lbr
To record every process run by a user: perf record -u <user>
+To show inline functions in call traces add --inline to perf report
+To not record events from perf itself add --exclude-perf
Skip collecting build-id when recording: perf record -B
To change sampling frequency to 100 Hz: perf record -F 100
+To show information about system the samples were collected on use perf report --header
+To only collect call graph on one event use perf record -e cpu/cpu-cycles,callgraph=1/,branches ; perf report --show-ref-call-graph
+To set sampling period of individual events use perf record -e cpu/cpu-cycles,period=100001/,cpu/branches,period=10001/ ...
+To group events which need to be collected together for accuracy use {}: perf record -e {cycles,branches}' ...
+To compute metrics for samples use perf record -e '{cycles,instructions}' ... ; perf script -F +metric
See assembly instructions with percentage: perf annotate <symbol>
If you prefer Intel style assembly, try: perf annotate -M intel
+When collecting LBR backtraces use --stitch-lbr to handle more than 32 deep entries: perf record --call-graph lbr ; perf report --stitch-lbr
For hierarchical output, try: perf report --hierarchy
Order by the overhead of source file name and line number: perf report -s srcline
System-wide collection from all CPUs: perf record -a
Show current config key-value pairs: perf config --list
+To collect Processor Trace with samples use perf record -e '{intel_pt//,cycles}' ; perf script --call-trace or --insn-trace --xed -F +ipc (remove --xed if no xed)
+To trace calls using Processor Trace use perf record -e intel_pt// ... ; perf script --call-trace. Then use perf script --time A-B --insn-trace to look at region of interest.
+To measure approximate function latency with Processor Trace use perf record -e intel_pt// ... ; perf script --call-ret-trace
+To trace only single function with Processor Trace use perf record --filter 'filter func @ program' -e intel_pt//u ./program ; perf script --insn-trace
Show user configuration overrides: perf config --user --list
To add Node.js USDT(User-Level Statically Defined Tracing): perf buildid-cache --add `which node`
-To report cacheline events from previous recording: perf c2c report
+To analyze cache line scalability issues use perf c2c record ... ; perf c2c report
To browse sample contexts use perf report --sample 10 and select in context menu
To separate samples by time use perf report --sort time,overhead,sym
+To filter subset of samples with report or script add --time X-Y or --cpu A,B,C or --socket-filter ...
To set sample time separation other than 100ms with --sort time use --time-quantum
Add -I to perf record to sample register values, which will be visible in perf report sample context.
To show IPC for sampling periods use perf record -e '{cycles,instructions}:S' and then browse context
To show context switches in perf report sample context add --switch-events to perf record.
+To show time in nanoseconds in record/report add --ns
+To compare hot regions in two workloads use perf record -b -o file ... ; perf diff --stream file1 file2
+To compare scalability of two workload samples use perf diff -c ratio file1 file2