330 lines
18 KiB
Groff
330 lines
18 KiB
Groff
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.TH TURBOSTAT 8
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.SH NAME
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turbostat \- Report processor frequency and idle statistics
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.SH SYNOPSIS
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.ft B
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.B turbostat
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.RB [ Options ]
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.RB command
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.br
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.B turbostat
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.RB [ Options ]
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.RB [ "\--interval seconds" ]
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.SH DESCRIPTION
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\fBturbostat \fP reports processor topology, frequency,
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idle power-state statistics, temperature and power on X86 processors.
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There are two ways to invoke turbostat.
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The first method is to supply a
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\fBcommand\fP, which is forked and statistics are printed
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in one-shot upon its completion.
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The second method is to omit the command,
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and turbostat displays statistics every 5 seconds interval.
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The 5-second interval can be changed using the --interval option.
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.PP
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Some information is not available on older processors.
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.SS Options
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Options can be specified with a single or double '-', and only as much of the option
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name as necessary to disambiguate it from others is necessary. Note that options are case-sensitive.
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.PP
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\fB--add attributes\fP add column with counter having specified 'attributes'. The 'location' attribute is required, all others are optional.
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.nf
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location: {\fBmsrDDD\fP | \fBmsr0xXXX\fP | \fB/sys/path...\fP}
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msrDDD is a decimal offset, eg. msr16
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msr0xXXX is a hex offset, eg. msr0x10
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/sys/path... is an absolute path to a sysfs attribute
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scope: {\fBcpu\fP | \fBcore\fP | \fBpackage\fP}
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sample and print the counter for every cpu, core, or package.
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default: cpu
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size: {\fBu32\fP | \fBu64\fP }
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MSRs are read as 64-bits, u32 truncates the displayed value to 32-bits.
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default: u64
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format: {\fBraw\fP | \fBdelta\fP | \fBpercent\fP}
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'raw' shows the MSR contents in hex.
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'delta' shows the difference in values during the measurement interval.
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'percent' shows the delta as a percentage of the cycles elapsed.
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default: delta
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name: "name_string"
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Any string that does not match a key-word above is used
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as the column header.
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.fi
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.PP
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\fB--cpu cpu-set\fP limit output to system summary plus the specified cpu-set. If cpu-set is the string "core", then the system summary plus the first CPU in each core are printed -- eg. subsequent HT siblings are not printed. Or if cpu-set is the string "package", then the system summary plus the first CPU in each package is printed. Otherwise, the system summary plus the specified set of CPUs are printed. The cpu-set is ordered from low to high, comma delimited with ".." and "-" permitted to denote a range. eg. 1,2,8,14..17,21-44
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.PP
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\fB--hide column\fP do not show the specified columns. May be invoked multiple times, or with a comma-separated list of column names. Use "--hide sysfs" to hide the sysfs statistics columns as a group.
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.PP
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\fB--show column\fP show only the specified columns. May be invoked multiple times, or with a comma-separated list of column names. Use "--show sysfs" to show the sysfs statistics columns as a group.
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.PP
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\fB--Dump\fP displays the raw counter values.
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.PP
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\fB--quiet\fP Do not decode and print the system configuration header information.
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.PP
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\fB--interval seconds\fP overrides the default 5.0 second measurement interval.
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.PP
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\fB--out output_file\fP turbostat output is written to the specified output_file.
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The file is truncated if it already exists, and it is created if it does not exist.
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.PP
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\fB--help\fP displays usage for the most common parameters.
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.PP
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\fB--Joules\fP displays energy in Joules, rather than dividing Joules by time to print power in Watts.
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.PP
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\fB--list\fP display column header names available for use by --show and --hide, then exit.
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.PP
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\fB--Summary\fP limits output to a 1-line System Summary for each interval.
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.PP
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\fB--TCC temperature\fP sets the Thermal Control Circuit temperature for systems which do not export that value. This is used for making sense of the Digital Thermal Sensor outputs, as they return degrees Celsius below the TCC activation temperature.
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.PP
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\fB--version\fP displays the version.
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.PP
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The \fBcommand\fP parameter forks \fBcommand\fP, and upon its exit,
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displays the statistics gathered since it was forked.
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.PP
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.SH ROW DESCRIPTIONS
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The system configuration dump (if --quiet is not used) is followed by statistics. The first row of the statistics labels the content of each column (below). The second row of statistics is the system summary line. The system summary line has a '-' in the columns for the Package, Core, and CPU. The contents of the system summary line depends on the type of column. Columns that count items (eg. IRQ) show the sum across all CPUs in the system. Columns that show a percentage show the average across all CPUs in the system. Columns that dump raw MSR values simply show 0 in the summary. After the system summary row, each row describes a specific Package/Core/CPU. Note that if the --cpu parameter is used to limit which specific CPUs are displayed, turbostat will still collect statistics for all CPUs in the system and will still show the system summary for all CPUs in the system.
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.SH COLUMN DESCRIPTIONS
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.nf
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\fBCore\fP processor core number. Note that multiple CPUs per core indicate support for Intel(R) Hyper-Threading Technology (HT).
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\fBCPU\fP Linux CPU (logical processor) number. Yes, it is okay that on many systems the CPUs are not listed in numerical order -- for efficiency reasons, turbostat runs in topology order, so HT siblings appear together.
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\fBPackage\fP processor package number -- not present on systems with a single processor package.
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\fBAvg_MHz\fP number of cycles executed divided by time elapsed. Note that this includes idle-time when 0 instructions are executed.
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\fBBusy%\fP percent of the measurement interval that the CPU executes instructions, aka. % of time in "C0" state.
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\fBBzy_MHz\fP average clock rate while the CPU was not idle (ie. in "c0" state).
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\fBTSC_MHz\fP average MHz that the TSC ran during the entire interval.
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\fBIRQ\fP The number of interrupts serviced by that CPU during the measurement interval. The system total line is the sum of interrupts serviced across all CPUs. turbostat parses /proc/interrupts to generate this summary.
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\fBSMI\fP The number of System Management Interrupts serviced CPU during the measurement interval. While this counter is actually per-CPU, SMI are triggered on all processors, so the number should be the same for all CPUs.
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\fBC1, C2, C3...\fP The number times Linux requested the C1, C2, C3 idle state during the measurement interval. The system summary line shows the sum for all CPUs. These are C-state names as exported in /sys/devices/system/cpu/cpu*/cpuidle/state*/name. While their names are generic, their attributes are processor specific. They the system description section of output shows what MWAIT sub-states they are mapped to on each system.
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\fBC1%, C2%, C3%\fP The residency percentage that Linux requested C1, C2, C3.... The system summary is the average of all CPUs in the system. Note that these are software, reflecting what was requested. The hardware counters reflect what was actually achieved.
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\fBCPU%c1, CPU%c3, CPU%c6, CPU%c7\fP show the percentage residency in hardware core idle states. These numbers are from hardware residency counters.
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\fBCoreTmp\fP Degrees Celsius reported by the per-core Digital Thermal Sensor.
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\fBPkgTtmp\fP Degrees Celsius reported by the per-package Package Thermal Monitor.
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\fBGFX%rc6\fP The percentage of time the GPU is in the "render C6" state, rc6, during the measurement interval. From /sys/class/drm/card0/power/rc6_residency_ms.
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\fBGFXMHz\fP Instantaneous snapshot of what sysfs presents at the end of the measurement interval. From /sys/class/graphics/fb0/device/drm/card0/gt_cur_freq_mhz.
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\fBPkg%pc2, Pkg%pc3, Pkg%pc6, Pkg%pc7\fP percentage residency in hardware package idle states. These numbers are from hardware residency counters.
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\fBPkgWatt\fP Watts consumed by the whole package.
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\fBCorWatt\fP Watts consumed by the core part of the package.
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\fBGFXWatt\fP Watts consumed by the Graphics part of the package -- available only on client processors.
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\fBRAMWatt\fP Watts consumed by the DRAM DIMMS -- available only on server processors.
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\fBPKG_%\fP percent of the interval that RAPL throttling was active on the Package.
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\fBRAM_%\fP percent of the interval that RAPL throttling was active on DRAM.
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.fi
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.SH TOO MUCH INFORMATION EXAMPLE
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By default, turbostat dumps all possible information -- a system configuration header, followed by columns for all counters.
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This is ideal for remote debugging, use the "--out" option to save everything to a text file, and get that file to the expert helping you debug.
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.PP
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When you are not interested in all that information, and there are several ways to see only what you want. First the "--quiet" option will skip the configuration information, and turbostat will show only the counter columns. Second, you can reduce the columns with the "--hide" and "--show" options. If you use the "--show" option, then turbostat will show only the columns you list. If you use the "--hide" option, turbostat will show all columns, except the ones you list.
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.PP
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To find out what columns are available for --show and --hide, the "--list" option is available. For convenience, the special strings "sysfs" can be used to refer to all of the sysfs C-state counters at once:
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.nf
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sudo ./turbostat --show sysfs --quiet sleep 10
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10.003837 sec
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C1 C1E C3 C6 C7s C1% C1E% C3% C6% C7s%
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4 21 2 2 459 0.14 0.82 0.00 0.00 98.93
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1 17 2 2 130 0.00 0.02 0.00 0.00 99.80
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0 0 0 0 31 0.00 0.00 0.00 0.00 99.95
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2 1 0 0 52 1.14 6.49 0.00 0.00 92.21
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1 2 0 0 52 0.00 0.08 0.00 0.00 99.86
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0 0 0 0 71 0.00 0.00 0.00 0.00 99.89
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0 0 0 0 25 0.00 0.00 0.00 0.00 99.96
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0 0 0 0 74 0.00 0.00 0.00 0.00 99.94
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0 1 0 0 24 0.00 0.00 0.00 0.00 99.84
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.fi
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.PP
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.SH ONE SHOT COMMAND EXAMPLE
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If turbostat is invoked with a command, it will fork that command
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and output the statistics gathered after the command exits.
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In this case, turbostat output goes to stderr, by default.
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Output can instead be saved to a file using the --out option.
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In this example, the "sleep 10" command is forked, and turbostat waits for it to complete before saving all statistics into "ts.out". Note that "sleep 10" is not part of turbostat, but is simply an example of a command that turbostat can fork. The "ts.out" file is what you want to edit in a very wide window, paste into a spreadsheet, or attach to a bugzilla entry.
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.nf
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[root@hsw]# ./turbostat -o ts.out sleep 10
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[root@hsw]#
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.fi
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.SH PERIODIC INTERVAL EXAMPLE
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Without a command to fork, turbostat displays statistics ever 5 seconds.
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Periodic output goes to stdout, by default, unless --out is used to specify an output file.
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The 5-second interval can be changed with the "-i sec" option.
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.nf
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sudo ./turbostat --quiet --hide sysfs,IRQ,SMI,CoreTmp,PkgTmp,GFX%rc6,GFXMHz,PkgWatt,CorWatt,GFXWatt
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Core CPU Avg_MHz Busy% Bzy_MHz TSC_MHz CPU%c1 CPU%c3 CPU%c6 CPU%c7
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- - 488 12.52 3900 3498 12.50 0.00 0.00 74.98
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0 0 5 0.13 3900 3498 99.87 0.00 0.00 0.00
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0 4 3897 99.99 3900 3498 0.01
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1 1 0 0.00 3856 3498 0.01 0.00 0.00 99.98
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1 5 0 0.00 3861 3498 0.01
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2 2 1 0.02 3889 3498 0.03 0.00 0.00 99.95
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2 6 0 0.00 3863 3498 0.05
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3 3 0 0.01 3869 3498 0.02 0.00 0.00 99.97
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3 7 0 0.00 3878 3498 0.03
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Core CPU Avg_MHz Busy% Bzy_MHz TSC_MHz CPU%c1 CPU%c3 CPU%c6 CPU%c7
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- - 491 12.59 3900 3498 12.42 0.00 0.00 74.99
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0 0 27 0.69 3900 3498 99.31 0.00 0.00 0.00
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0 4 3898 99.99 3900 3498 0.01
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1 1 0 0.00 3883 3498 0.01 0.00 0.00 99.99
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1 5 0 0.00 3898 3498 0.01
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2 2 0 0.01 3889 3498 0.02 0.00 0.00 99.98
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2 6 0 0.00 3889 3498 0.02
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3 3 0 0.00 3856 3498 0.01 0.00 0.00 99.99
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3 7 0 0.00 3897 3498 0.01
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.fi
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This example also shows the use of the --hide option to skip columns that are not wanted.
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Note that cpu4 in this example is 99.99% busy, while the other CPUs are all under 1% busy.
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Notice that cpu4's HT sibling is cpu0, which is under 1% busy, but can get into CPU%c1 only,
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because its cpu4's activity on shared hardware keeps it from entering a deeper C-state.
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.SH SYSTEM CONFIGURATION INFORMATION EXAMPLE
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By default, turbostat always dumps system configuration information
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before taking measurements. In the example above, "--quiet" is used
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to suppress that output. Here is an example of the configuration information:
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.nf
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turbostat version 2017.02.15 - Len Brown <lenb@kernel.org>
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CPUID(0): GenuineIntel 13 CPUID levels; family:model:stepping 0x6:3c:3 (6:60:3)
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CPUID(1): SSE3 MONITOR - EIST TM2 TSC MSR ACPI-TM TM
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CPUID(6): APERF, TURBO, DTS, PTM, No-HWP, No-HWPnotify, No-HWPwindow, No-HWPepp, No-HWPpkg, EPB
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cpu4: MSR_IA32_MISC_ENABLE: 0x00850089 (TCC EIST No-MWAIT PREFETCH TURBO)
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CPUID(7): No-SGX
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cpu4: MSR_MISC_PWR_MGMT: 0x00400000 (ENable-EIST_Coordination DISable-EPB DISable-OOB)
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RAPL: 3121 sec. Joule Counter Range, at 84 Watts
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cpu4: MSR_PLATFORM_INFO: 0x80838f3012300
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8 * 100.0 = 800.0 MHz max efficiency frequency
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35 * 100.0 = 3500.0 MHz base frequency
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cpu4: MSR_IA32_POWER_CTL: 0x0004005d (C1E auto-promotion: DISabled)
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cpu4: MSR_TURBO_RATIO_LIMIT: 0x25262727
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37 * 100.0 = 3700.0 MHz max turbo 4 active cores
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38 * 100.0 = 3800.0 MHz max turbo 3 active cores
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39 * 100.0 = 3900.0 MHz max turbo 2 active cores
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39 * 100.0 = 3900.0 MHz max turbo 1 active cores
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cpu4: MSR_CONFIG_TDP_NOMINAL: 0x00000023 (base_ratio=35)
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cpu4: MSR_CONFIG_TDP_LEVEL_1: 0x00000000 ()
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cpu4: MSR_CONFIG_TDP_LEVEL_2: 0x00000000 ()
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cpu4: MSR_CONFIG_TDP_CONTROL: 0x80000000 ( lock=1)
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cpu4: MSR_TURBO_ACTIVATION_RATIO: 0x00000000 (MAX_NON_TURBO_RATIO=0 lock=0)
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cpu4: MSR_PKG_CST_CONFIG_CONTROL: 0x1e000400 (UNdemote-C3, UNdemote-C1, demote-C3, demote-C1, UNlocked: pkg-cstate-limit=0: pc0)
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cpu4: POLL: CPUIDLE CORE POLL IDLE
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cpu4: C1: MWAIT 0x00
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cpu4: C1E: MWAIT 0x01
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cpu4: C3: MWAIT 0x10
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cpu4: C6: MWAIT 0x20
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cpu4: C7s: MWAIT 0x32
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cpu4: MSR_MISC_FEATURE_CONTROL: 0x00000000 (L2-Prefetch L2-Prefetch-pair L1-Prefetch L1-IP-Prefetch)
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cpu0: MSR_IA32_ENERGY_PERF_BIAS: 0x00000006 (balanced)
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cpu0: MSR_CORE_PERF_LIMIT_REASONS, 0x31200000 (Active: ) (Logged: Transitions, MultiCoreTurbo, Amps, Auto-HWP, )
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cpu0: MSR_GFX_PERF_LIMIT_REASONS, 0x00000000 (Active: ) (Logged: )
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cpu0: MSR_RING_PERF_LIMIT_REASONS, 0x0d000000 (Active: ) (Logged: Amps, PkgPwrL1, PkgPwrL2, )
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cpu0: MSR_RAPL_POWER_UNIT: 0x000a0e03 (0.125000 Watts, 0.000061 Joules, 0.000977 sec.)
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cpu0: MSR_PKG_POWER_INFO: 0x000002a0 (84 W TDP, RAPL 0 - 0 W, 0.000000 sec.)
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cpu0: MSR_PKG_POWER_LIMIT: 0x428348001a82a0 (UNlocked)
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cpu0: PKG Limit #1: ENabled (84.000000 Watts, 8.000000 sec, clamp DISabled)
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cpu0: PKG Limit #2: ENabled (105.000000 Watts, 0.002441* sec, clamp DISabled)
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cpu0: MSR_PP0_POLICY: 0
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cpu0: MSR_PP0_POWER_LIMIT: 0x00000000 (UNlocked)
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cpu0: Cores Limit: DISabled (0.000000 Watts, 0.000977 sec, clamp DISabled)
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cpu0: MSR_PP1_POLICY: 0
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cpu0: MSR_PP1_POWER_LIMIT: 0x00000000 (UNlocked)
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cpu0: GFX Limit: DISabled (0.000000 Watts, 0.000977 sec, clamp DISabled)
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cpu0: MSR_IA32_TEMPERATURE_TARGET: 0x00641400 (100 C)
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cpu0: MSR_IA32_PACKAGE_THERM_STATUS: 0x884c0800 (24 C)
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cpu0: MSR_IA32_THERM_STATUS: 0x884c0000 (24 C +/- 1)
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cpu1: MSR_IA32_THERM_STATUS: 0x88510000 (19 C +/- 1)
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cpu2: MSR_IA32_THERM_STATUS: 0x884e0000 (22 C +/- 1)
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cpu3: MSR_IA32_THERM_STATUS: 0x88510000 (19 C +/- 1)
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cpu4: MSR_PKGC3_IRTL: 0x00008842 (valid, 67584 ns)
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cpu4: MSR_PKGC6_IRTL: 0x00008873 (valid, 117760 ns)
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cpu4: MSR_PKGC7_IRTL: 0x00008891 (valid, 148480 ns)
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.fi
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The \fBmax efficiency\fP frequency, a.k.a. Low Frequency Mode, is the frequency
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available at the minimum package voltage. The \fBTSC frequency\fP is the base
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frequency of the processor -- this should match the brand string
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in /proc/cpuinfo. This base frequency
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should be sustainable on all CPUs indefinitely, given nominal power and cooling.
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The remaining rows show what maximum turbo frequency is possible
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depending on the number of idle cores. Note that not all information is
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available on all processors.
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.SH ADD COUNTER EXAMPLE
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Here we limit turbostat to showing just the CPU number for cpu0 - cpu3.
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We add a counter showing the 32-bit raw value of MSR 0x199 (MSR_IA32_PERF_CTL),
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labeling it with the column header, "PRF_CTRL", and display it only once,
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afte the conclusion of a 0.1 second sleep.
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.nf
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sudo ./turbostat --quiet --cpu 0-3 --show CPU --add msr0x199,u32,raw,PRF_CTRL sleep .1
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0.101604 sec
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CPU PRF_CTRL
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- 0x00000000
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0 0x00000c00
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1 0x00000800
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2 0x00000a00
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3 0x00000800
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.fi
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.SH NOTES
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.B "turbostat "
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must be run as root.
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Alternatively, non-root users can be enabled to run turbostat this way:
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# setcap cap_sys_rawio=ep ./turbostat
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# chmod +r /dev/cpu/*/msr
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.B "turbostat "
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reads hardware counters, but doesn't write them.
|
||
|
So it will not interfere with the OS or other programs, including
|
||
|
multiple invocations of itself.
|
||
|
|
||
|
\fBturbostat \fP
|
||
|
may work poorly on Linux-2.6.20 through 2.6.29,
|
||
|
as \fBacpi-cpufreq \fPperiodically cleared the APERF and MPERF MSRs
|
||
|
in those kernels.
|
||
|
|
||
|
AVG_MHz = APERF_delta/measurement_interval. This is the actual
|
||
|
number of elapsed cycles divided by the entire sample interval --
|
||
|
including idle time. Note that this calculation is resilient
|
||
|
to systems lacking a non-stop TSC.
|
||
|
|
||
|
TSC_MHz = TSC_delta/measurement_interval.
|
||
|
On a system with an invariant TSC, this value will be constant
|
||
|
and will closely match the base frequency value shown
|
||
|
in the brand string in /proc/cpuinfo. On a system where
|
||
|
the TSC stops in idle, TSC_MHz will drop
|
||
|
below the processor's base frequency.
|
||
|
|
||
|
Busy% = MPERF_delta/TSC_delta
|
||
|
|
||
|
Bzy_MHz = TSC_delta/APERF_delta/MPERF_delta/measurement_interval
|
||
|
|
||
|
Note that these calculations depend on TSC_delta, so they
|
||
|
are not reliable during intervals when TSC_MHz is not running at the base frequency.
|
||
|
|
||
|
Turbostat data collection is not atomic.
|
||
|
Extremely short measurement intervals (much less than 1 second),
|
||
|
or system activity that prevents turbostat from being able
|
||
|
to run on all CPUS to quickly collect data, will result in
|
||
|
inconsistent results.
|
||
|
|
||
|
The APERF, MPERF MSRs are defined to count non-halted cycles.
|
||
|
Although it is not guaranteed by the architecture, turbostat assumes
|
||
|
that they count at TSC rate, which is true on all processors tested to date.
|
||
|
|
||
|
.SH REFERENCES
|
||
|
Volume 3B: System Programming Guide"
|
||
|
http://www.intel.com/products/processor/manuals/
|
||
|
|
||
|
.SH FILES
|
||
|
.ta
|
||
|
.nf
|
||
|
/dev/cpu/*/msr
|
||
|
.fi
|
||
|
|
||
|
.SH "SEE ALSO"
|
||
|
msr(4), vmstat(8)
|
||
|
.PP
|
||
|
.SH AUTHOR
|
||
|
.nf
|
||
|
Written by Len Brown <len.brown@intel.com>
|