Overclocking
Overclocking
This page is about overclocking the N900. For the N8x0 see this
# WORK IN PROGRESS, HELP IF YOU WANT
Overclocking is discussed in this thread. Benchmark results can be found here. If you're more interested in power saving read this.
Warnings
- Overclocking WILL VOID YOUR WARRANTY
- The lifetime of your device will get reduced
- You could lose the data in your device (file system corruption)
- Every device is an individual, what is stable for others might not be for you
- If you encounter ANY unusual problems, lower your clock frequency
- You do it at your own responsibility. No whining afterwards. If you're unsure, don't do it.
- Nokia's overclocking warning: 500MHz is the normal frequency. Everything above is not good for your device, even with the stock kernel.
- Igor Stoppa's warning and comment
- chip vendors specs
Available kernels
Overclocking requires installation of a custom kernel. There are two types of kernels:
- modified PR1.1 kernels by Lehto and others. The only difference to the stock Nokia kernel is that the change the available hardcoded frequencies.
- enhanced kernels by titan. They are compatible with PR1.2 (!) , contain lots of additional features (IPv6, NAT etc) and bugfixes. In addition they include a large set of possible frequencies (125MHz-1.2GHz) which you manually set an try out without flashing a new kernel. The defaults are set to the standard 250-600MHz range. The kernel can be installed via HAM from the extras-devel catalouge.
Installation of Lehto's PR1.1 kernels
Lehto's Kernels talk.maemo.org: Jakiman's Overclock Guide / Summary
Installation of titan's enhanced kernels
This kernel makes it possible dynamically change the maximum frequency up to 1.15GHz (supported frequencies are 250,500,550,600,700,750,805,850,900,950,1000,1100,1150MHz). WARNING: Overclocking may damage your device and is at your own risk! It may void your warranty and destroy your data. You have been warned. You can manually increase the limit until your device fries using, e.g. for 600MHz
talk.maemo.org: Discussion of the enhanded kernel
Note: all commands on this page must be run as root in X Terminal (install rootsh package and enter "sudo gainroot")
Installation of stable kernel (version maemo19) from extras-testing
the package This version maemo19 is good for temporarily testing higher frequencies but a phone call resets the limits. It still includes the invalid 800Mhz frequency. phone call reset workaround for the older maemo19 kernel
It requires firmware PR1.1 or newer.
- Install the package kernel-flasher-maemo (section system in HAM)
- shutdown and cold boot. There's no need for reflashing etc.
Latest: Installation of the kernel (maemo22) from extras-devel
Installation is the same as with the extras-testing kernel. This version fixes the phone call reset problem and includes 125MHz (setting 124999), With this kernel you can change the voltages and DSP frequencies online. read this for more details. and follow those instructions when upgrading.
Obsolete: Installation of the older experimental kernels
Create and go to an empty directory first. Make sure wget is installed. Run everything as root.
Download of the normal voltage kernel:
wget http://maemory.com/N900/overclock/kernel-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/kernel-modules-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/kernel-flasher-maemo_2.6.28-maemo21_armel.deb
The lower voltage versions of the same kernel may conserve power and reduce the damage of overclocking but they may be less stable.
Download of the lower voltage (LV) kernel:
wget http://maemory.com/N900/overclock/lv/kernel-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/lv/kernel-modules-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/lv/kernel-flasher-maemo_2.6.28-maemo21_armel.deb
Comparison of LV kernel voltages with stock kernel:
- <=500 is the same as stock
- 550 is 500 stock (normal voltage)
- 600/700/750/810/850/900/950 is 550 stock (overvoltage)
- >=1000 is 600 stock (overvoltage)
Download of the ultra low voltage (ULV) kernel (less stable?):
wget http://maemory.com/N900/overclock/ulv/kernel-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/ulv/kernel-modules-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/ulv/kernel-flasher-maemo_2.6.28-maemo21_armel.deb
Comparison of ULV kernel voltages with stock kernel:
- <=250 is <idle stock (ultra low voltage)
- 500 is ca. idle stock (lower voltage)
- 550/600 is 250 stock (low voltage)
- 700/750/800 is <500 stock (low voltage)
- 850 is 500 stock (normal voltage)
- 900/950 is 550 stock (overvoltage)
- >=1000 is 600 stock (overvoltage)
Download of the extremely low voltage (XLV) kernel (less stable?):
wget http://maemory.com/N900/overclock/xlv/kernel-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/xlv/kernel-modules-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/xlv/kernel-flasher-maemo_2.6.28-maemo21_armel.deb
Comparison of XLV kernel voltages with stock kernel:
- <=250 is <idle stock (extremely low voltage)
- 500 is idle stock (lower voltage)
- 550 is ca. idle stock (low voltage)
- 600 is 250 stock (low voltage)
- 700/750/800 is <500 stock (low voltage)
- 850 is 500 stock (normal voltage)
- 900/950 is 550 stock (overvoltage)
- >=1000 is 600 stock (overvoltage)
Download of the "ideal" kernel (the same as XLV but with minimum 500Mhz and [500,850] defaults):
wget http://maemory.com/N900/overclock/ideal/kernel-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/ideal/kernel-modules-maemo_2.6.28-maemo21_armel.deb wget http://maemory.com/N900/overclock/ideal/kernel-flasher-maemo_2.6.28-maemo21_armel.deb
Install with (shut the device down automatically, close all apps and save the data first!):
dpkg -i kernel-m* dpkg -i kernel-f* halt
and boot again.
Deinstallation
sudo gainroot apt-get install --reinstall kernel kernel-flasher apt-get remove kernel-maemo kernel-modules-maemo
Temporarly change of the frequency limits
sudo gainroot echo 250000 > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq echo 599000 > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
The last line shows which values were actually set. To set 125MHz use 124999, for 600MHz 599999, for everthing else x000 with x=MHz. This setting takes effect immediately and is cleared with the next reboot.
Permanently change of the frequency limits
WARNING: Permanent overclocking is very dangerous! To permanently fix a limit you found to be stable edit the scaling_max_freq setting in /etc/pmconfig
vi /etc/pmconfig
You can also use Leafpad but open it again after saving to make sure everything is ok. There have been clues that sometimes Leafpad cuts off last character when the file is saved.
leafpad /etc/pmconfig
The defaults are:
# Power management configuration file enable_off_mode 1 sleep_while_idle 1 sr_vdd1_autocomp 0 sr_vdd2_autocomp 0 clocks_off_while_idle 1 voltage_off_while_idle 1 scaling_governor ondemand scaling_max_freq 600000 scaling_min_freq 125000 sleep_ind 1
Other permament settings
not all settings can be stored in pmconfig. Create the following file /etc/event.d/overclock for them
start on started hildon-desktop stop on starting shutdown service console none script echo 1 > /sys/devices/system/cpu/cpu0/cpufreq/ondemand/ignore_nice_load echo 75 > /sys/devices/system/cpu/cpu0/cpufreq/ondemand/up_threshold echo 150000 > /sys/devices/system/cpu/cpu0/cpufreq/ondemand/sampling_rate modprobe bq27x00_battery end script
Battery
In kernels version >=maemo20 you can read out the current battery info:
modprobe bq27x00_battery cat /sys/class/power_supply/bq27200-0/current_now
Holding a kernel version
It your manually installed kernel should be not upgraded to the one in extras* try this:
echo kernel-flasher-maemo hold | dpkg --set-selections echo kernel-maemo hold | dpkg --set-selections echo kernel-modules-maemo hold | dpkg --set-selections
to unlock the version:
echo kernel-flasher-maemo install | dpkg --set-selections echo kernel-maemo install | dpkg --set-selections echo kernel-modules-maemo install | dpkg --set-selections
Remarks
- The screen calibration in settings crashes immediately. It is a known bug in the calibration app, not in the kernel. It's mentioned in the kernel package description and is due to additional evdev (joystick,mouse) support. Just calibrate once with the stock kernel before you install the fully featured kernel.
- the 125MHz issue
- Installing another version of the enhanced kernel will just overwrite the older version. The stock kernel modules are preserved so that you can simply reflash the stock kernel via USB.
- If you for some reason get errors like this during removal or installation "rm: cannot remove '/lib/modules/2.6.28.10maemo-lv-omap1/modules.*': No such file or directory".try this workaround. There was a bug in one of the early LV kernels but it should be fixed in more recent versions.
- This kernel will not conflict with the future PR1.2 upgrade. The upgrade will, however, overwrite this kernel and you'll have to install it again.
Additional information and hints
- the frequencies available in the Nokia kernel are: 250, 500, 550 and 600MHz.
- Nokia locks the device to 600MHz during phone calls. This may be a bug. It also affects Lehto's kernels.
- the telephone app is closed-source and broken. After a phone call it sets the maximum to 600Mhz and the minimum to 250MHz (or 125MHz if available) irrespective of what you have set before.
- when connected via USB the device locks the minimum frequency to 500Mhz.
- By default the device is configured to use 125MHz as the lowest frequency but it not enabled in the kernel pmconfig bug
- if enable 125MHz also set "echo 1 > /sys/devices/system/cpu/cpu0/cpufreq/ondemand/ignore_nice_load" hint
- improving responsiveness
- safe pmconfig configuration
- the warning "WARNING: at arch/arm/mach-omap2/clock34xx.c:443 omap3_noncore_dpll_set_rate+0x28c/0x2dc()" in the kernel logs (dmesg) only happens if the invalid 800MHz frequency was selected. ignore it.
- saving more battery power when idle
- EvilJazz had photoshopped a picture of a device being overclocked 1.7GHz. It's a JOKE!
- reading one of the temperature sensors "cat /sys/devices/platform/omap34xx_temp/temp1_input"
Useful stuff
Show current CPU frequency
awk '{print $1/1000" MHz"}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq
Set maximum CPU frequency
From root terminal:
rootsh echo 600000 > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq | echo ""
Replace 600000 with desired maximum frequency. Pay attention to the two exceptions in titan's kernels (124999 and 599000). The list of available frequencies on your device/kernel can be obtained with command:
awk '{print $1/1000" MHz"}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state
Script for analyzing time_in_state (by rooted) - rev6
This script prints percentage of frequencies (states) used and some additional info useful for posting on the forum (debugging). It displays all frequencies, works with all kernels and it is not affected by the bug which resets minimum frequency after phone call.
The script is in active development. I'm adding new features and resolving bugs if they are reported. Please update your script to newest revision and report if something doesn't work properly.
Temperature may not be listed if you don't have module bq27x00_battery installed or enabled. Also kernel-maemo version is not listed if you don't use titan's kernel.
#!/bin/sh currfreq=`cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq` idlefreq=`awk '{if ($2 > 0) print $1}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state | tail -n 1` tis1=`awk '{sum += $2} END {print sum}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state` tis2=`awk '$1 == "'"$idlefreq"'" {idle = $2} {sum += $2} END {print sum-idle}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state` echo -e " SCRIPT FOR ANALYZING TIME_IN_STATE By rooted (maemo.org) Revision 6 The script is in active development. Update your script to current revision from: wiki.maemo.org/Overclocking FREQUENCY\tUSED\t\tWHEN BUSY\n" awk ' {if ($1 >= 1000000) printf ("%.0f MHz\t",$1/1000); else printf ("%.0f MHz\t\t",$1/1000)} {if ($2 == 0) printf "unused"; else printf ("%.1f %\t\t",($2*100)/"'"$tis1"'")} {if ($2 == 0 || $2/"'"$tis2"'" > 1) printf "\n"; else printf ("%.1f %\n",($2*100)/"'"$tis2"'")} ' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state echo -e " Current frequency: $(($currfreq/1000)) MHz Idle frequency: $(($idlefreq/1000)) MHz Kernel: `uname -r` kernel-maemo: `dpkg -l kernel* | awk '/kernel-maemo/ {print $3}'` Uptime: `uptime | sed -e 's/.*p *//' -e 's/, l.*//' -e 's/ / /'` Load: `uptime | sed 's/.*e: //'` Boot reason: `cat /proc/bootreason` Temperature: `cat /sys/class/power_supply/bq27200-0/temp` °C\n"
Output example:
SCRIPT FOR ANALYZING TIME_IN_STATE By rooted (maemo.org) Revision 6 The script is in active development. Update your script to current revision from: wiki.maemo.org/Overclocking FREQUENCY USED WHEN BUSY 1200 MHz unused 1100 MHz unused 1000 MHz unused 950 MHz unused 900 MHz unused 850 MHz unused 810 MHz 1.6 % 56.7 % 750 MHz 0.0 % 0.8 % 700 MHz 0.1 % 1.9 % 600 MHz 0.0 % 1.5 % 550 MHz 0.0 % 1.2 % 500 MHz 1.0 % 37.8 % 250 MHz 97.3 % 125 MHz unused Current frequency: 250 MHz Idle frequency: 250 MHz Kernel: 2.6.28.10maemo-ulv-omap1 kernel-maemo: 2.6.28-maemo21 Uptime: 2 days, 2:27 Load: 0.11, 0.04, 0.01 Boot reason: pwr_key Temperature: 25 °C
Analyzing time in state, including idle mode stats (by ArbitRabbit)
The following script will show the current frequency and statistics for each state, including time spent in idle mode when the CPU is actually sleeping. This script works with the special frequency handling in Titan's kernel.
To run this script as user and be able to set the frequencies you will need to install "rootsh" via apt-get.
scheduler_stats.sh
#!/bin/sh awk '{print "\nCurrent frequency: "$1/1000" MHz\n"}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq awk '{print "Minimum frequency: "$1/1000" MHz\n"}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq awk '{print "Maximum frequency: "$1/1000" MHz\n"}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq tis1=`awk '{SUM += $2} END {printf("%.0f",SUM/1000)}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state` idle0=`awk '{printf ("%.0f",$1/1000)}' /sys/devices/system/cpu/cpu0/cpuidle/state0/time` idle1=`awk '{printf ("%.0f",$1/1000)}' /sys/devices/system/cpu/cpu0/cpuidle/state1/time` idle2=`awk '{printf ("%.0f",$1/1000)}' /sys/devices/system/cpu/cpu0/cpuidle/state2/time` idle3=`awk '{printf ("%.0f",$1/1000)}' /sys/devices/system/cpu/cpu0/cpuidle/state3/time` totaltime=$(($idle0+$idle1+$idle2+$idle3+$tis1)) echo -e "FREQUENCY\tUSED" SUM=0 awk ' { printf (($1/1000)" MHz \t"); if ($2 == 0) { printf "0 %\n"; } else { SUM+=$2; printf("%.3f %\n",($2/10)/"'"$totaltime"'"); } } END{ printf ("Time spent in idle mode is %2.2f %\n",(1-((SUM/1000)/"'"$totaltime"'"))*100); }' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state echo ""
Sample Output
Current frequency: 500 MHz Minimum frequency: 500 MHz Maximum frequency: 810 MHz FREQUENCY USED 1200 MHz 0 % 1100 MHz 0 % 1000 MHz 0 % 950 MHz 0 % 900 MHz 0 % 850 MHz 0 % 810 MHz 0.000 % 750 MHz 0.000 % 700 MHz 0.000 % 600 MHz 0.000 % 550 MHz 0.000 % 500 MHz 0.010 % Time spent in idle mode is 99.99 %
Known Bugs: Requires the Phone to be booted for an hour or so before it results in decent stats.
Combined helper script (by evilJazz)
The following script will show the current frequency and statistics. It also accepts two optional parameters that will set the max and/or min frequencies (in MHz unit). Calling the script without these parameters will not set the new clocking. Instead it will just show the current frequencies and statistics.
This script works with the special frequency handling in Titan's kernel.
To run this script as user and be able to set the frequencies you will need to install "rootsh" via apt-get.
overclock.sh [max freq] [min freq]
#!/bin/sh max=${1}000 min=${2}000 # Handle and rewrite special cases in Titan's kernel... [ "$max" == "600000" ] && max=599000 [ "$min" == "125000" ] && min=124999 if [ $(id -u) -ne 0 ]; then [ "$max" != "000" ] && echo "echo $max > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq" | sudo gainroot [ "$min" != "000" ] && echo "echo $min > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq" | sudo gainroot else [ "$max" != "000" ] && echo $max > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq [ "$min" != "000" ] && echo $min > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq fi awk '{printf("\nCurrent frequency: %7s MHz\n", $1/1000)}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq awk '{printf("Minimal frequency: %7s MHz\n", $1/1000)}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq awk '{printf("Maximal frequency: %7s MHz\n\n", $1/1000)}' /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq sum=$(awk '{SUM += $2} END {print SUM}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state) awk '{printf("%7s MHz: %5.1f % (%8d)\n", ($1/1000), ($2 * 100)/"'"$sum"'", $2)}' /sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state echo
Output example:
~ $ ./overclock.sh 600 250
Current frequency: 250 MHz Minimal frequency: 250 MHz Maximal frequency: 599 MHz 1200 MHz: 0.0 % ( 0) 1100 MHz: 0.0 % ( 0) 1000 MHz: 0.0 % ( 0) 950 MHz: 0.0 % ( 0) 900 MHz: 0.2 % ( 271) 850 MHz: 0.0 % ( 0) 810 MHz: 0.0 % ( 0) 750 MHz: 0.0 % ( 0) 700 MHz: 0.0 % ( 0) 600 MHz: 9.0 % ( 13663) 550 MHz: 0.5 % ( 701) 500 MHz: 15.4 % ( 23379) 250 MHz: 75.0 % ( 114021) 124.999 MHz: 0.0 % ( 0)
Changing the Kernel
Installing a modified Kernel
Flashing using PC
1. Power off the N900 completely.
2. Hold "u" on the N900's keyboard, while holding, connect it to the PC via USB cable.
3. You will see usb icon on top right of white Nokia screen.
4. Now you can let go of "u" on the keyboard.
5. Now use flasher utility with the kernel file located in the same directory.
flasher-3.5 -k image_file_name -f -R
6. It should take about 1-2 seconds then it'll say Done.
7. Now your N900 will show white Nokia screen. (reboot)
8. At this time, you can pull out the USB cable.
9. N900 should finish booting up if all goes well.
10. Test out your phone as usual. (Apps, browser, camera, phone etc etc)
11. If any abnormal events occur frequently (crash, hang, screen corruption etc), turn it off, flash it to a slower kernel and test again. note: For Windows7 64bit users, you may need to use WindowsXP mode. (Youtube Tutorial)
Flashing from N900 xterminal
- do a backup, have a pc nearby and know you are able to flash the n900 with flasher-3.5 - just in case
0. Launch xterminal app then type sudo gainroot (need rootsh installed)
1. type
softupd -vv -s --local
(thats double v)
2. open new terminal
3. type
flasher --local -f -k <kernel_zimage_file_with_path>
4. you see the flashing (takes some time)
5. type "sync" to save changes
6. type "reboot" and enter to restart
7. Test out your phone as usual. (Apps, browser, camera, phone etc etc)
8. If any abnormal events occur frequently (crash, hang, screen corruption etc), turn it off, flash it to a slower kernel and test again.
You are fully responsible for any damage caused by overclocking. Not anyone else.
Reverting to the Original Kernel
If you want to revert to the original kernel, execute:
apt-get install --reinstall kernel kernel-flasher
Voltage tables
Summary
FREQUENCY Nokia LV ULV XLV ideal 0 MHz 30 30 25 30 30 125 MHz 30 30 25 20 30 250 MHz 38 38 25 30 30 500 MHz 48 48 33 33 30 550 MHz *54* 48 38 38 33 600 MHz 60 *54* 38 38 38 700 MHz 54 45 45 45 750 MHz 54 45 45 45 810 MHz 54 48 48 48 850 MHz 54 48 48 48 900 MHz 54 *54* *54* *54* 950 MHz 54 54 54 54 1000 MHz 60 60 60 60 1100 MHz 72 72 72 72 1150 MHz 72 72 72 72 1200 MHz 72 72 72 72
Note: Asterisks indicate the first frequency in the kernel which needs overvoltage.
Nokia's kernel
VALUE VOLTAGE FREQUENCY 30 0.975V 0 MHz 30 0.975V 125 MHz 38 1.075V 250 MHz 48 1.200V 500 MHz 54 1.275V 550 MHz 60 1.350V 600 MHz
titan's LV kernel
VALUE VOLTAGE FREQUENCY 30 0.975V 0 MHz 30 0.975V 125 MHz 38 1.075V 250 MHz 48 1.200V 500 MHz 48 1.200V 550 MHz 54 1.275V 600 MHz 54 1.275V 700 MHz 54 1.275V 750 MHz 54 1.275V 810 MHz 54 1.275V 850 MHz 54 1.275V 900 MHz 54 1.275V 950 MHz 60 1.350V 1000 MHz 72 1.500V 1100 MHz 72 1.500V 1200 MHz
titan's ULV kernel
VALUE VOLTAGE FREQUENCY 25 0.912V 0 MHz 25 0.912V 125 MHz 25 0.912V 250 MHz 33 1.012V 500 MHz 38 1.075V 550 MHz 38 1.075V 600 MHz 45 1.163V 700 MHz 45 1.163V 750 MHz 48 1.200V 810 MHz 48 1.200V 850 MHz 54 1.275V 900 MHz 54 1.275V 950 MHz 60 1.350V 1000 MHz 72 1.500V 1100 MHz 72 1.500V 1200 MHz
titan's XLV kernel
VALUE VOLTAGE FREQUENCY 30 0.975V 0 MHz 20 0.850V 125 MHz 30 0.975V 250 MHz 33 1.012V 500 MHz 38 1.075V 550 MHz 38 1.075V 600 MHz 45 1.163V 700 MHz 45 1.163V 750 MHz 48 1.200V 810 MHz 48 1.200V 850 MHz 54 1.275V 900 MHz 54 1.275V 950 MHz 60 1.350V 1000 MHz 72 1.500V 1100 MHz 72 1.500V 1150 MHz
titan's ideal kernel
VALUE VOLTAGE FREQUENCY 30 0.975V 0 MHz 30 0.975V 125 MHz 30 0.975V 250 MHz 30 0.975V 500 MHz 33 1.012V 550 MHz 38 1.075V 600 MHz 45 1.163V 700 MHz 45 1.163V 750 MHz 48 1.200V 810 MHz 48 1.200V 850 MHz 54 1.275V 900 MHz 54 1.275V 950 MHz 60 1.350V 1000 MHz 72 1.500V 1100 MHz 72 1.500V 1150 MHz
/sys/power/vdd1_opps_vsel values
LV: "30 30 38 48 48 54 54 54 54 54 54 54 60 72 72" ULV: "25 25 25 33 38 38 45 45 48 48 54 54 60 72 72" XLV is: "30 20 30 33 38 38 45 45 48 48 54 54 60 72 72" ideal: "30 30 30 30 33 38 45 45 48 48 54 54 60 72 72"