#!/bin/bash # # This test runs on Intel x86 based hardware which support the intel_pstate # driver. The test checks the frequency settings from the maximum turbo # state to the minimum supported frequency, in decrements of 100MHz. The # test runs the aperf.c program to put load on each processor. # # The results are displayed in a table which indicate the "Target" state, # or the requested frequency in MHz, the Actual frequency, as read from # /proc/cpuinfo, the difference between the Target and Actual frequencies, # and the value of MSR 0x199 (MSR_IA32_PERF_CTL) which indicates what # pstate the cpu is in, and the value of # /sys/devices/system/cpu/intel_pstate/max_perf_pct X maximum turbo state # # Notes: In some cases several frequency values may be placed in the # /tmp/result.X files. This is done on purpose in order to catch cases # where the pstate driver may not be working at all. There is the case # where, for example, several "similar" frequencies are in the file: # # #/tmp/result.3100:1:cpu MHz : 2899.980 #/tmp/result.3100:2:cpu MHz : 2900.000 #/tmp/result.3100:3:msr 0x199: 0x1e00 #/tmp/result.3100:4:max_perf_pct 94 # # and the test will error out in those cases. The result.X file can be checked # for consistency and modified to remove the extra MHz values. The result.X # files can be re-evaluated by setting EVALUATE_ONLY to 1 below. EVALUATE_ONLY=0 max_cpus=$(($(nproc)-1)) # compile programs gcc -o aperf aperf.c -lm [ $? -ne 0 ] && echo "Problem compiling aperf.c." && exit 1 gcc -o msr msr.c -lm [ $? -ne 0 ] && echo "Problem compiling msr.c." && exit 1 function run_test () { file_ext=$1 for cpu in `seq 0 $max_cpus` do echo "launching aperf load on $cpu" ./aperf $cpu & done echo "sleeping for 5 seconds" sleep 5 num_freqs=$(cat /proc/cpuinfo | grep MHz | sort -u | wc -l) if [ $num_freqs -le 2 ]; then cat /proc/cpuinfo | grep MHz | sort -u | tail -1 > /tmp/result.$1 else cat /proc/cpuinfo | grep MHz | sort -u > /tmp/result.$1 fi ./msr 0 >> /tmp/result.$1 max_perf_pct=$(cat /sys/devices/system/cpu/intel_pstate/max_perf_pct) echo "max_perf_pct $max_perf_pct" >> /tmp/result.$1 for job in `jobs -p` do echo "waiting for job id $job" wait $job done } # # MAIN (ALL UNITS IN MHZ) # # Get the marketing frequency _mkt_freq=$(cat /proc/cpuinfo | grep -m 1 "model name" | awk '{print $NF}') _mkt_freq=$(echo $_mkt_freq | tr -d [:alpha:][:punct:]) mkt_freq=${_mkt_freq}0 # Get the ranges from cpupower _min_freq=$(cpupower frequency-info -l | tail -1 | awk ' { print $1 } ') min_freq=$(($_min_freq / 1000)) _max_freq=$(cpupower frequency-info -l | tail -1 | awk ' { print $2 } ') max_freq=$(($_max_freq / 1000)) for freq in `seq $max_freq -100 $min_freq` do echo "Setting maximum frequency to $freq" cpupower frequency-set -g powersave --max=${freq}MHz >& /dev/null [ $EVALUATE_ONLY -eq 0 ] && run_test $freq done echo "==============================================================================" echo "The marketing frequency of the cpu is $mkt_freq MHz" echo "The maximum frequency of the cpu is $max_freq MHz" echo "The minimum frequency of the cpu is $min_freq MHz" cpupower frequency-set -g powersave --max=${max_freq}MHz >& /dev/null # make a pretty table echo "Target Actual Difference MSR(0x199) max_perf_pct" for freq in `seq $max_freq -100 $min_freq` do result_freq=$(cat /tmp/result.${freq} | grep "cpu MHz" | awk ' { print $4 } ' | awk -F "." ' { print $1 } ') msr=$(cat /tmp/result.${freq} | grep "msr" | awk ' { print $3 } ') max_perf_pct=$(cat /tmp/result.${freq} | grep "max_perf_pct" | awk ' { print $2 } ' ) if [ $result_freq -eq $freq ]; then echo " $freq $result_freq 0 $msr $(($max_perf_pct*3300))" else echo " $freq $result_freq $(($result_freq-$freq)) $msr $(($max_perf_pct*$max_freq))" fi done exit 0