I'm planning on overclocking my device by modifying the init.doh script. I have made the modifications as follows:
Code:
#!/system/bin/sh
sleep 5
# ===================
# Max CPU
# ===================
echo "1504000" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
# ===================
# Min CPU
# ===================
echo "200000" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq
# ===================
# Undervolting
# ===================
echo "1425 1300 1200 1100 1000 950 900 900 " > /sys/devices/system/cpu/cpu0/cpufreq/UV_mV_table
# ===================
# CPU Table
# ===================
echo "1600 1400 1200 1000 800 500 200 100" > /sys/devices/system/cpu/cpu0/cpufreq/freq_table;
# ===================
# Governor
# ===================
echo "lulzactive" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor
^This is the section of the script I've made modifications to.
As you can see I've OC'ed to 1.5GHz and changed governor to Lulzactive, to see if I can get it stable here as 1.6 causes lockups and crashes.
Did I do it right? Do I need to add 1504 to the respective spots in the cpu frequency/undervolt lists?
Any help is appreciated.
Please don't say to use Setcpu or something. I want to learn something here
Is it possible to oc to 1.5G? I thought the steps above 1.2G are 1.4G and 1.6G. The in between frequencies are physically possible? If not, using those number is not going to be useful I guess?
dineshbabumm said:
Is it possible to oc to 1.5G? I thought the steps above 1.2G are 1.4G and 1.6G. The in between frequencies are physically possible? If not, using those number is not going to be useful I guess?
Click to expand...
Click to collapse
Its possible. I found a stable overclock too
You go off of the most stable setting you can find and add increments of 8 until you find a spot where there's a good balance of stability and speed.
For me it was 1496
Mod can close this now.
Is this what an overclock init.d script should look like?
And how would you know if it worked?
#!/system/bin/sh
echo 245760 > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq
echo 1000000 > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
echo "performance" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_governer
echo "sio" > /sys/block/mmcblk0/queue/scheduler;
If no one can tell me if I'm in the right direction or not is there a way to see if the script is working in the init.d?
If I use this:
cat > /sys/devices/system/cpu/cpu0/cpufreq/scaling_min_freq
it still shows the default and not what I put it too.
Do I have to edit the kernel before making a script?
How can this be done properly?
The kernel needs to support overclocking before anything, if you're confident with kernel development then do that and try an o/c app from the market before using a script.
sinksterĀ©
Well ive done alot of searching and I am unable to find the info specific to the lg l9. Im currently running kumas rom so I am able to use the command
SU
./etc/overclock
This bumps me up to 1.2 ghz. Is there a method to go higher than 1.2ghz on a locked bootloader? If so can someone explain or post a link. It is also very annoying to have to type the command after each boot. Has anyone got this script to successfully run at boot without running it manually? I have used a few programs that auto runs scripts at boot. I gave it SU and boot permissions and It shows it under notifications that it does run at boot however under no frills cpu program it does not make the 1.2 available until after I manually run the script.THANKS!
lwg45714 said:
Well ive done alot of searching and I am unable to find the info specific to the lg l9. Im currently running kumas rom so I am able to use the command
SU
./etc/overclock.THANKS!
Click to expand...
Click to collapse
Write the script to init.d
Lgeob said:
Write the script to init.d
Click to expand...
Click to collapse
Do you have a link that tells how to do that or maybe explain? THAnks!
lwg45714 said:
Do you have a link that tells how to do that or maybe explain? THAnks!
Click to expand...
Click to collapse
Try to open the file overclock as text.What is written?
lwg45714 said:
Do you have a link that tells how to do that or maybe explain? THAnks!
Click to expand...
Click to collapse
Please take a look at this post
Edit: don't know why I miss a link in last post
http://forum.xda-developers.com/showthread.php?t=2096061
Lgeob said:
Try to open the file overclock as text.What is written?
Click to expand...
Click to collapse
IT says:
#!/system/bin/sh
ECHO 0 300 980> /PROC/CPU_CONTROL/TWEAK_CPu
ECHO 1 600 1200>/proc/cpu_control/tweak_cpu
ECHO 2 900 1260> /proc/ cpu_control/ tweak_ cpu
ECHO 3 1200 1340>/proc/cpu_control/ tweak_ cpu
If you use modules,try this,create a filepaste is:
Code:
#!/system/bin/sh
insmod /system/lib/modules/symsearch.ko
insmod /system/lib/modules/cpu_control.ko
echo 0 300 980> /proc/cpu_control/tweak_cpu
echo 1 600 1200> /proc/cpu_control/tweak_cpu
echo 2 900 1260> /proc/cpu_control/tweak_ cpu
echo 3 1200 1340> /proc/cpu_control/tweak_ cpu
Place it in the folder init.d
lwg45714 said:
IT says:
#!/system/bin/sh
ECHO 0 300 980> /PROC/CPU_CONTROL/TWEAK_CPu
ECHO 1 600 1200>/proc/cpu_control/tweak_cpu
ECHO 2 900 1260> /proc/ cpu_control/ tweak_ cpu
ECHO 3 1200 1340>/proc/cpu_control/ tweak_ cpu
Click to expand...
Click to collapse
I don't have it set at boot because the phone "might" lockup/freeze. In addition, some phones don't allow overclocking.
If you want it set at boot type the following in a terminal
Code:
su
mount -o remount /system
cp /etc/overclock /etc/init.d/
chmod 777 /etc/init.d/overclock
Or just use a root browser app to put it (overclock script) in the init.d folder.
Raising the CPU any higher won't improve performance and the phone will more than likely crash. If you dig through the l9 forums you will find a lot more information on the subject.
Oh and don't be afraid to ask questions in my thread
Lgeob said:
If you use modules,try this,create a filepaste is:
Code:
#!/system/bin/sh
insmod /system/lib/modules/symsearch.ko
insmod /system/lib/modules/cpu_control.ko
echo 0 300 980> /proc/cpu_control/tweak_cpu
echo 1 600 1200> /proc/cpu_control/tweak_cpu
echo 2 900 1260> /proc/cpu_control/tweak_ cpu
echo 3 1200 1340> /proc/cpu_control/tweak_ cpu
Place it in the folder init.d
Click to expand...
Click to collapse
I already have the modules loaded in another script.
Sent from my LGMS769 using XDA Premium 4 mobile app
What good app you preffer for underclocking SD625? I want an app thar can underclock and if posible undervolt CPU and turn off some cpu cores. I have RR 5.8.5 with Electrablue 7 kernel.
If you are after an app, then Kernel Adiutor should do some of what you want.
However, if you want full manual control, then you can run commands from a root terminal, or use a script - eg
Code:
# reduce max freq to 1.68ghz
echo "1689600" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
# reduce cores running foreground operations
echo "0-3" > /dev/cpuset/foreground/cpus # default=0-6
echo "0-3" > /dev/cpuset/foreground/boost/cpus # default=0-6
# reduce cores running background operations
echo "0" > /dev/cpuset/background/cpus # default=0-1
echo "0-1" > /dev/cpuset/system-background/cpus # default=0-3
# turn off the last 4 cores
echo "0" > /sys/devices/system/cpu/cpu7/online
echo "0" > /sys/devices/system/cpu/cpu6/online
echo "0" > /sys/devices/system/cpu/cpu5/online
echo "0" > /sys/devices/system/cpu/cpu4/online
DarthJabba9 said:
If you are after an app, then Kernel Adiutor should do some of what you want.
However, if you want full manual control, then you can run commands from a root terminal, or use a script - eg
Code:
# reduce max freq to 1.68ghz
echo "1689600" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
# reduce cores running foreground operations
echo "0-3" > /dev/cpuset/foreground/cpus # default=0-6
echo "0-3" > /dev/cpuset/foreground/boost/cpus # default=0-6
# reduce cores running background operations
echo "0" > /dev/cpuset/background/cpus # default=0-1
echo "0-1" > /dev/cpuset/system-background/cpus # default=0-3
# turn off the last 4 cores
echo "0" > /sys/devices/system/cpu/cpu7/online
echo "0" > /sys/devices/system/cpu/cpu6/online
echo "0" > /sys/devices/system/cpu/cpu5/online
echo "0" > /sys/devices/system/cpu/cpu4/online
Click to expand...
Click to collapse
Very nice commands, these remain after reboot?
Do you know the command for checking current cpu speed and current number of cores online? Or better, one command to show all running cores with their speed.
nikkky said:
Very nice commands, these remain after reboot?
Do you know the command for checking current cpu speed and current number of cores online? Or better, one command to show all running cores with their speed.
Click to expand...
Click to collapse
The commands are not persistent. If you want them to be applied automatically after reboots, you need to put them in a script that is executed via init.d (see https://forum.xda-developers.com/re...o-initd-ad-blocking-bad-audio-videos-t3626661).
To see the values, simply run "cat" on each of the files being written to in the above examples - eg
Code:
cat /sys/devices/system/cpu/cpu7/online
DarthJabba9 said:
The commands are not persistent. If you want them to be applied automatically after reboots, you need to put them in a script that is executed via init.d (see https://forum.xda-developers.com/re...o-initd-ad-blocking-bad-audio-videos-t3626661).
To see the values, simply run "cat" on each of the files being written to in the above examples - eg
Code:
cat /sys/devices/system/cpu/cpu7/online
Click to expand...
Click to collapse
Do you know the command for changing governors?
nikkky said:
Do you know the command for changing governors?
Click to expand...
Click to collapse
Unfortunately, no.
DarthJabba9 said:
If you are after an app, then Kernel Adiutor should do some of what you want.
However, if you want full manual control, then you can run commands from a root terminal, or use a script - eg
Code:
# reduce max freq to 1.68ghz
echo "1689600" > /sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq
# reduce cores running foreground operations
echo "0-3" > /dev/cpuset/foreground/cpus # default=0-6
echo "0-3" > /dev/cpuset/foreground/boost/cpus # default=0-6
# reduce cores running background operations
echo "0" > /dev/cpuset/background/cpus # default=0-1
echo "0-1" > /dev/cpuset/system-background/cpus # default=0-3
# turn off the last 4 cores
echo "0" > /sys/devices/system/cpu/cpu7/online
echo "0" > /sys/devices/system/cpu/cpu6/online
echo "0" > /sys/devices/system/cpu/cpu5/online
echo "0" > /sys/devices/system/cpu/cpu4/online
Click to expand...
Click to collapse
When I try for example echo "0" > /sys/devices/system/cpu/cpu6/online I got permission denied. I used Material Terminal app.
Edit:
It worked by tiping su before, to convert $ to # for becoming root.
nikkky said:
Edit:
It worked by tiping su before, to convert $ to # for becoming root.
Click to expand...
Click to collapse
Yes. Running the "su" command is what converts your terminal session into a root terminal session
Hello, I decided to publish some guide + scripts I already use for a while, which allows you to use all CPU cores and boost GPU performance.
Battery consumption using this configuration surprisingly does not change much or even did not change at all, with default as well with new config my watch stays alive for ~32h with daily usage.
Some theory:
Sparrow is sold with Qualcomm Snapdragon 400 1.2GHz, which is 4 core CPU. ASUS AW2.0 official kernel though supports only 600MHz and 787MHz, as Asus probably thinks this is good balance between battery life and performance.
GPU is Adreno 302/305, which is capable running up to 450MHz, which is also supported by ASUS AW2.0 kernel.
Where is the catch?
During boot there are all four CPU cores enabled, however there is post-init script, disabling two of those and setting frequency as fixed 738MHz with performance governor (no frequency scaling). GPU is set to fix 200MHz:
/system/bin/init.asus.post_boot.sh
Code:
#!/system/bin/sh
PATH=/system/bin
cd /sys
echo 4 > module/lpm_levels/enable_low_power/l2
echo 1 > module/msm_pm/modes/cpu0/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu1/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu2/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu3/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu0/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu1/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu2/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu3/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu0/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu1/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu2/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu3/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu0/power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu1/power_collapse/idle_enabled
#Put all other cores offline
echo 0 > devices/system/cpu/cpu2/online
echo 0 > devices/system/cpu/cpu3/online
governor="performance"
scaling_min_freq="787200"
if [[ `grep "oem_perf_change" /proc/cmdline` ]];then
if [[ `grep "oem_perf_on" /proc/cmdline` ]];then
oem_perf_stats="1"
else
oem_perf_stats="0"
fi
echo -n $oem_perf_stats > /factory/oem_perf_stats
fi
echo $governor > devices/system/cpu/cpu0/cpufreq/scaling_governor
echo $governor > devices/system/cpu/cpu1/cpufreq/scaling_governor
#below ondemand parameters can be tuned
echo 50000 > devices/system/cpu/cpufreq/ondemand/sampling_rate
echo 90 > devices/system/cpu/cpufreq/ondemand/up_threshold
echo 1 > devices/system/cpu/cpufreq/ondemand/io_is_busy
echo 2 > devices/system/cpu/cpufreq/ondemand/sampling_down_factor
echo 10 > devices/system/cpu/cpufreq/ondemand/down_differential
echo 70 > devices/system/cpu/cpufreq/ondemand/up_threshold_multi_core
echo 10 > devices/system/cpu/cpufreq/ondemand/down_differential_multi_core
echo 787200 > devices/system/cpu/cpufreq/ondemand/optimal_freq
echo 300000 > devices/system/cpu/cpufreq/ondemand/sync_freq
echo 80 > devices/system/cpu/cpufreq/ondemand/up_threshold_any_cpu_load
echo $scaling_min_freq > devices/system/cpu/cpu0/cpufreq/scaling_min_freq
echo $scaling_min_freq > devices/system/cpu/cpu1/cpufreq/scaling_min_freq
echo 787200 > devices/system/cpu/cpu0/cpufreq/scaling_max_freq
echo 787200 > devices/system/cpu/cpu1/cpufreq/scaling_max_freq
#Below entries are to set the GPU frequency and DCVS governor
echo 200000000 > class/kgsl/kgsl-3d0/devfreq/max_freq
echo 200000000 > class/kgsl/kgsl-3d0/devfreq/min_freq
echo performance > class/kgsl/kgsl-3d0/devfreq/governor
chown -h system devices/system/cpu/cpu[0-1]/cpufreq/scaling_max_freq
chown -h system devices/system/cpu/cpu[0-1]/cpufreq/scaling_min_freq
chown -h root.system devices/system/cpu/cpu[1-3]/online
chmod 664 devices/system/cpu/cpu[1-3]/online
It is indeed required just to alter this script and you can enable all 4 cores with "ondemand" governor, scaling 600-738MHz and GPU scaling 200-450MHz using "msm-adreno-tz" governor:
(and this requires root of course)
Code:
#!/system/bin/sh
PATH=/system/bin
cd /sys
echo 4 > module/lpm_levels/enable_low_power/l2
echo 1 > module/msm_pm/modes/cpu0/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu1/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu2/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu3/power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu0/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu1/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu2/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu3/standalone_power_collapse/suspend_enabled
echo 1 > module/msm_pm/modes/cpu0/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu1/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu2/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu3/standalone_power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu0/power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu1/power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu2/power_collapse/idle_enabled
echo 1 > module/msm_pm/modes/cpu3/power_collapse/idle_enabled
governor="ondemand"
scaling_min_freq="600000"
if [[ `grep "oem_perf_change" /proc/cmdline` ]];then
if [[ `grep "oem_perf_on" /proc/cmdline` ]];then
oem_perf_stats="1"
else
oem_perf_stats="0"
fi
echo -n $oem_perf_stats > /factory/oem_perf_stats
fi
echo $governor > devices/system/cpu/cpu0/cpufreq/scaling_governor
echo $governor > devices/system/cpu/cpu1/cpufreq/scaling_governor
echo $governor > devices/system/cpu/cpu2/cpufreq/scaling_governor
echo $governor > devices/system/cpu/cpu3/cpufreq/scaling_governor
#below ondemand parameters can be tuned
echo 50000 > devices/system/cpu/cpufreq/ondemand/sampling_rate
echo 90 > devices/system/cpu/cpufreq/ondemand/up_threshold
echo 1 > devices/system/cpu/cpufreq/ondemand/io_is_busy
echo 2 > devices/system/cpu/cpufreq/ondemand/sampling_down_factor
echo 10 > devices/system/cpu/cpufreq/ondemand/down_differential
echo 70 > devices/system/cpu/cpufreq/ondemand/up_threshold_multi_core
echo 10 > devices/system/cpu/cpufreq/ondemand/down_differential_multi_core
echo 787200 > devices/system/cpu/cpufreq/ondemand/optimal_freq
echo 300000 > devices/system/cpu/cpufreq/ondemand/sync_freq
echo 80 > devices/system/cpu/cpufreq/ondemand/up_threshold_any_cpu_load
echo $scaling_min_freq > devices/system/cpu/cpu0/cpufreq/scaling_min_freq
echo $scaling_min_freq > devices/system/cpu/cpu1/cpufreq/scaling_min_freq
echo $scaling_min_freq > devices/system/cpu/cpu2/cpufreq/scaling_min_freq
echo $scaling_min_freq > devices/system/cpu/cpu3/cpufreq/scaling_min_freq
echo 787200 > devices/system/cpu/cpu0/cpufreq/scaling_max_freq
echo 787200 > devices/system/cpu/cpu1/cpufreq/scaling_max_freq
echo 787200 > devices/system/cpu/cpu2/cpufreq/scaling_max_freq
echo 787200 > devices/system/cpu/cpu3/cpufreq/scaling_max_freq
#Below entries are to set the GPU frequency and DCVS governor
echo 450000000 > class/kgsl/kgsl-3d0/devfreq/max_freq
echo 200000000 > class/kgsl/kgsl-3d0/devfreq/min_freq
echo msm-adreno-tz > class/kgsl/kgsl-3d0/devfreq/governor
chown -h system devices/system/cpu/cpu[0-3]/cpufreq/scaling_max_freq
chown -h system devices/system/cpu/cpu[0-3]/cpufreq/scaling_min_freq
chown -h root.system devices/system/cpu/cpu[0-3]/online
chmod 664 devices/system/cpu/cpu[0-3]/online
(both files also attached to this post)
To exchange files in your watch, you can easily use following bash script in linux:
First push desired file into sdcard and go to ADB shell:
Code:
adb push init.asus.post_boot.sh /sdcard/
adb shell
In ADB shell remount system to RW, replace the file and fix privileges, than remount system back to RO:
Code:
su
mount -o rw,remount /system
mv /sdcard/init.asus.post_boot.sh /system/bin/
chown root:shell /system/bin/init.asus.post_boot.sh
chmod 755 /system/bin/init.asus.post_boot.sh
mount -o ro,remount /system
Update 2018/09/05:
In case you want to experiment, I'm also sending "full_power" script, setting all cores to max frequency and performance governor. There should be no issues, except probably less battery life. Just test yourself, how battery life is affected if it is affected at all. Just unpack the zip file, rename the sh script from init.asus.post_boot_full_power.sh to init.asus.post_boot.sh. Rest of the procedure is still the same.
Without kernel sources, this is probably the maximum performance you can get from the watch. Obtaining kernel sources we might get up still twice of current maximum, as the HW is there, but locked on kernel level.
I just swapped the files and I'll give this a try over the next few days. It would be awesome to destroy lag without needing a kernel tweak app to make it happen. You are the man!
Update: I followed your directions, then I wiped cache and dalvik in TWRP. I have only used the watch for a few minutes with this tweak and it is noticeably faster/smoother already. Text messages display lightning fast after being received on the phone. I'm currently on WiFi in my office. The times I notice most lag on my watch is when I'm on 4G, have music playing, and get a call. The phone may ring for 5-10 seconds before the watch displays. I'm excited to see how helpful this tweak is under those conditions. I'll know later today and keep you posted.
I have not experienced any Bluetooth lag since enabling this. This is a must have mod. Thanks for this!
Glad to hear that @CVertigo1. This is just simple SW enablement of things already present in kernel, so even no cache cleans are required. You can play with it on the go even without watch restart.
Amazing will be getting some kernel with much more CPU freq. steps, like 300-768 or even to 1.2GHz (yes, our chip is capable doing so, it is just not enabled in kernel). With proper governor battery will be still ok, resting CPU most of the time in low clocks. It is pity we have great HW, but it is taken out from us with stock kernel.
It would be nice if Asus would upload the kernel source for AW2.0.
CVertigo1 said:
It would be nice if Asus would upload the kernel source for AW2.0.
Click to expand...
Click to collapse
Well we do have latest kernel source
https://www.asus.com/us/ZenWatch/ASUS_ZenWatch_2_WI501Q/HelpDesk_Download/
Or directly here:
http://dlcdnet.asus.com/pub/ASUS/Wearable/ASUS_WI501Q/ASUS_WI501Q-5.2003.1603.10-kernel-src.zip
We just need some handy guy able to compile it and add more governors and frequencies. That is something what overlapping my skills.
That is the latest kernel source for 1.5. They have not released their source for 2.0, nor any firmware for 2.0. I have contacted Asus about it multiple times and none of their reps have any idea what I'm talking about.
CVertigo1 said:
That is the latest kernel source for 1.5. They have not released their source for 2.0, nor any firmware for 2.0. I have contacted Asus about it multiple times and none of their reps have any idea what I'm talking about.
Click to expand...
Click to collapse
Ah, I see I thought 2017/05/12 stated as a release day was after AW20 concluding this had to be the new one. Pity.
Maybe they'll release it eventually...at an Asus speed, like next year.
please help me(rom Sparrow_7.1.1_Debloat ROM ):
adb shell
sparrow:/ $ su
Permission denied
htduy11 said:
please help me(rom Sparrow_7.1.1_Debloat ROM ):
adb shell
sparrow:/ $ su
Permission denied
Click to expand...
Click to collapse
Hi there, you are missing super user in your ROM. Did you installed SuperSU and Busybox thru TWRP after flashing the ROM?
Do this in TWRP, not Android.
'the command can be used in adb in windows or are different? watch must be in recovery or bootloader? wrote a step by step for noob guide please
You must boot in the TWRP recovery. You need the ADB drivers installed on your computer and is easier to use your computer for this.
mastermoon said:
'the command can be used in adb in windows or are different? watch must be in recovery or bootloader? wrote a step by step for noob guide please
Click to expand...
Click to collapse
Actually it is quite simple, what you need:
* in case you use Windows, you need drivers for android (not needed with Linux)
* working ADB
* rooted watch
Then just connect normally booted watch and in command line (Windows) or terminal (Linux), execute:
Code:
adb push init.asus.post_boot.sh /sdcard/
adb shell
Second command above will enter adb shell, when you are in, just copy paste and execute following:
Code:
su
mount -o rw,remount /system
mv /sdcard/init.asus.post_boot.sh /system/bin/
chown root:shell /system/bin/init.asus.post_boot.sh
chmod 755 /system/bin/init.asus.post_boot.sh
mount -o ro,remount /system
LeeonLee said:
Actually it is quite simple, what you need:
* in case you use Windows, you need drivers for android (not needed with Linux)
* working ADB
* rooted watch
Then just connect normally booted watch and in command line (Windows) or terminal (Linux), execute:
Code:
adb push init.asus.post_boot.sh /sdcard/
adb shell
Second command above will enter adb shell, when you are in, just copy paste and execute following:
Code:
su
mount -o rw,remount /system
mv /sdcard/init.asus.post_boot.sh /system/bin/
chown root:shell /system/bin/init.asus.post_boot.sh
chmod 755 /system/bin/init.asus.post_boot.sh
mount -o ro,remount /system
Click to expand...
Click to collapse
yeah worked perfectly... after 9 month the zenwatch is back on my wrist....
---------- Post added at 05:31 PM ---------- Previous post was at 05:29 PM ----------
LeeonLee said:
Actually it is quite simple, what you need:
* in case you use Windows, you need drivers for android (not needed with Linux)
* working ADB
* rooted watch
Then just connect normally booted watch and in command line (Windows) or terminal (Linux), execute:
Code:
adb push init.asus.post_boot.sh /sdcard/
adb shell
Second command above will enter adb shell, when you are in, just copy paste and execute following:
Code:
su
mount -o rw,remount /system
mv /sdcard/init.asus.post_boot.sh /system/bin/
chown root:shell /system/bin/init.asus.post_boot.sh
chmod 755 /system/bin/init.asus.post_boot.sh
mount -o ro,remount /system
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worked perfectly.... after 9 months zenwatch is back on my wrist
Hey guys,
do i need to do it every time i booted up ?
And can i messure this Overclocking anywhere ?
Greetings
Namelocked said:
Hey guys,
do i need to do it every time i booted up ?
And can i messure this Overclocking anywhere ?
Greetings
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Hi, this is permanent solution. To revert you need to replace the file with original one.
I am also not aware of any reliable Wear benchmark, but you can see HW info using e.g. AIDA64 for Wear.
LeeonLee said:
Hi, this is permanent solution. To revert you need to replace the file with original one.
I am also not aware of any reliable Wear benchmark, but you can see HW info using e.g. AIDA64 for Wear.
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I dont even find the AIDA64 for my smartwatch :/ ?
how can i check core, cpu speed etc... aida64 isn't compatible .. tnx..