STweaks Guide

[yalz.agustus]

Flashable ZIP worked, in the process of creating 5 profiles of low voltage, and 5 profiles of higher voltage.
ETA = sometime tomorrow, because I'm tired.

View attachment 1677068
Dig my wallpaper? xD

Can using it's on international SGN2..?

Sent from my GT-N7100 using xda premium

 

[AMSPOWER]

I'm trying to set up my GPU but in my stweaks its in steps 1-5 I can't find where I can set a max and min for the GPU.

Sent from my SCH-I605 using xda premium

 

[jbcagampan]

Alright, below this, I will include an almost full guide to setting up STweaks (for those who do not want to use the provided profiles)

The CPU section contains the frequencies and voltages that you want to run at.
200mHz is the minimum speed, 1800mHz is the maximum speed. You can change these to affect your overall performance or battery life. Mine is currently set to 200mHz minimum, 1800mHz maximum. I have seen no hit on battery life at all (might be miniscule.)

Now for the voltages.. Each and every person will have a different set of voltages, as every CPU will be a little bit different. You can manually set your frequency to a certain level, use a CPU stress testing app (stability test) and drop the voltage by SMALL increments until you start to lose stability (system crashes, app force closes, etc.) I usually go UP one voltage step over the borderline stable voltage. I will post my voltages, but take caution, as my voltages are set pretty low compared to stock values on the kernel.
1800mHz - set to 1200000 uV or 1.2 volts.
1704mHz - set to 1175000 uV or 1.175 volts.
1600mHz - set to 1112500 uV or 1.1125 volts.
1500mHz - set to 1100000 uV or 1.1 volts.
1400mHz - set to 1062500 uV or 1.0625 volts.
1300mHz - set to 1025000 uV or 1.025 volts.
1200mHz - set to 1000000 uV or 1 volt.
1100mHz - set to 975000 uV or 0.975 volts.
1000mHz - set to 962500 uV or 0.9625 volts.
900mHz - set to 937500 uV or 0.9375 volts.
800mHz - set to 912500 uV or 0.9125 volts.
700mHz - set to 887500 uV or 0.8875 volts.
600mHz - set to 862500 uV or 0.8625 volts.
500mHz - set to 837500 uV or 0.8375 volts.
400mHz - set to 812500 uV or 0.8125 volts.
300mHz - set to 800000 uV or 0.8 volts.
200mHz - set to 787500 uV or 0.7875 volts. * BE CAREFUL WITH THIS ONE, it can cause your device to lock up when the screen is off, and need a battery pull if the voltage is too low.

CPU Scaling Section - this controls how your device will turn up the speed when it needs to.

Governor - This contols how the device will respond overall (power management, sleep, etc.) I will keep mine set to the Pegasusq governor unless I am running a benchmark, in that case, use perfomance (which locks the device to full speed and all 4 cores online)
Sampling Rate - how often the device will 'think' about changing the CPU speed. I have mine set to 15000 uS (15 milliseconds) so it is more responsive.
Sampling Down Factor - This enables you to create 'lag' when the device is at full speed, so it doesn't jump down frequencies when you don't want it to. I leave mine at default 1 sample, because I see no need for this.
Up Threshold - When a core hits this % utilization at a set frequency, then it will scale up to the next frequency. I have mine set to 96%, so the device will scale up slower and more reliably (keep in mind it makes this decision every 15 milliseconds.)
Down Differential - When the device scales down, (drops frequency) it must get below this % utilization to scale down ( UP THRESHOLD minus DOWN DIFFERENTIAL ) I have mine set to 5%, so it drops frequency at or below 91% utilization.
Frequency for Responsiveness - This helps keep the device smooth at lower frequency, and when the frequency is below the set spot, it will use a DIFFERENT up threshold so the device scales up faster and doesn't lag. My frequency setting is 500mHz, and the up threshold for it is set at 70%.
Frequency for Fast Down - this sets the frequency at which the device can use aggressive down scaling, much like the opposite of frequency for responsiveness. I have mine set to 1400mHz, and the up threshold is set to 98%, so the device only scales up if it really needs to.
Frequency Step - This applies to the Fast Down setting, and whenever the device gets above 98% utilization, then it will increase the frequency by a SET percentage of the maximum frequency. So if you set 10%, and are have 1800mHz max, it will increase to the closest step that adds 180mHz. I have mine set to 6%, so it increases by 108mHz.
The up threshold and frequency step decrease confuse me for this, but I have the up threshold set to 2%, and the frequency step set to 3%.
I didn't touch the flexrate settings, as everything else should control this area.

CPU Hotplug - This section will control how the device turns its cores on and off.

CPU Up Rate - How many samples you want to take until a core decides to turn on. (Sampling rate times your setting) I have mine set to 12, so if the conditions are correct, it takes 180 milliseconds to turn a core on.
CPU Down Rate - How many samples you want to take until a core decides to turn off. (Same thing as CPU up rate) Mine is set to 10, so it takes 150 milliseconds to turn off a core if it isn't being used.
Core Upbring Count - How many cores you want to bring online when the conditions are right. Mine is set to 1, I'm sure more will increase performance and hurt battery life.
Configuration Overrides - These can set you device to always have a certain amount of cores online, I don't use them (leave at 0.)
Hotplug Conditionals - These perameters are set to control when the cores turn on and off. Below are MY values
Hotplug 1 Core to ONLINE (make 2 cores online) - 600mHz
Hotplug 2 Cores to OFFLINE (make 1 core online) - 500mHz
Hotplug 2 Cores to ONLINE (make 3 cores online) - 700mHz
Hotplug 3 Cores to OFFLINE (make 2 cores online) - 600mHz
Hotplug 3 Cores to ONLINE (make 4 cores online) - 800mHz
Hotplug 4 Cores to OFFLINE (make 3 cores online) - 700mHz
The rest of this section, I left at DEFAULT values, because I did not understand them.

GPU - This section controls the frequencies and voltages of your GPU.
Maximum Frequency - How high you want your GPU to clock to, mine is set to 733mHz.
Minimum Frequency - How low you want your GPU to clock to, mine is set to 108mHz.
Up Threshold - Like the CPU setting, the percentage of utilization you achieve before the GPU scales up. Mine is set to 90%.
Down Differential - When you want your GPU to scale down lower, (Up threshold minus down differential.) Mine is set to 10%, so when the GPU hits 80% utilization on a speed, it drops to a lower frequency.
Utilization Timeout - Basically is the sampling speed of the GPU (how fast you want it to make decisions to change speed.) Mine is set to 25 milliseconds.
Voltages - Test these the same way as the CPU, get a GPU stress testing app, and set a certain frequency. When you see artifacts or glitches on your screen, then the voltages are too low. Below are MY values.
54mHz - 825mV
108mHz - 875mV
160mHz - 950mV
266mHz - 975mV
350mHz - 1050mV
440mHz - 1100mV
533mHz - 1125mV
640mHz - 1150mV
733mHz - 1175mV
800mHz - 1200mV (This clock speed proved to be slightly unstable at 1175mV, though still usable)

I/O section - These values/settings control how your device writes/reads things from the SD card, or internal storage.
I left both of my storage schedulers at ROW but you can change them and play around. I believe that deadline is the best for overall performance, but can be unstable sometimes.
I/O Read Ahead - These control the cache file on the internal/external storage. I have my internal set to 1536kB, and external set to 2048kB, because those values gave me overall good write/read speeds.
Dynamic Fsync - From what I know, this helps keep the data from being corrupted by creating a buffer between data being written and the storage. Correct me if I'm wrong. I kept it enabled.

The entire audio section is pretty self explanatory, and I'm getting tired of typing all of this, so if you need help, PM me or comment.

Again, take this entire post with caution. What works with my device, may make yours unstable. I only provided mine to give you a baseline, my values offer good performance and battery life anyways. Feel free to correct any of my errors by PM or comment, and I will gladly change my post to accommodate for my errors.

Followed this guide using my N7100 with Android Revolution HD 19.0 custom ROM and perseus kernel. GOT 17932 in Antutu. Though quite laggy typing this reply uaing chrome browser.

 

[ezsoulja]

Love the guide

Sent from my SGH-T889 using xda premium

 

[modder9]

Stweaks

Hi Guys, Im running ARHD 19 & Perseus Kernel on My Note 2 N7100 (UK /International Version)

I tried flashing the profile zip's after wiping cache. All but the fall back resulted in boot loop.

So back to normal and i have copied all settings manually beside a couple on the CPU Scaling tab that caused a reboot upon applying.

I aimed a click above all the voltage references used on this guide as they were causing me boot loop issues.

Quadrant not looking too good in comparison with stock settings. I got 7300 stock settings and with tweaked profile as per guide its giving me 6900. I noticed that the FPS are erratic with these settings, will play around but stock profile gives good stable FPS.

I know quadrant not a conclusive tool but i can notice difference in behaviour during test, which i think is more important for tweaking.

Will run it a few days and see how the battery compares.

I must say when i flashed ARHD V19 it absolutely flew without perseus was getting 7300 quadrant consistently. But battery was defo poorer than with perseus.

Anyone know about the latest ABB tab that is available with Perseus v36?

 

[curly9]

If im not mistaken stweakks only work on faux kernel. If im wrong someone will correct me

Sent from my SCH-I605 using xda premium

 

[veloct]

If im not mistaken stweakks only work on faux kernel. If im wrong someone will correct me

Sent from my SCH-I605 using xda premium

Works on perseus and plasma kernel.

Sent from my VZW Note II using XDA DEV

 

[shadowlabs9]

If im not mistaken stweakks only work on faux kernel. If im wrong someone will correct me

Sent from my SCH-I605 using xda premium

Hi,
No, there are others, like perseus...

Best regards

 

[curly9]

Hi,
No, there are others, like perseus...

Best regards

My mistake found that out. But flash the fall back zip. I had the same issue doing the highperf with normal volt

Sent from my SCH-I605 using xda premium

 

[jacobit]

help

can anyone post for redpill stweak settings please

 

[quatro27]

I have been looking for this guide on this app. Must try this later thanks!

** update I'm trying to find "Flexrate Enabled - 700mHz, 10000uS" where can I find this ?

 

[ChaoticWeaponry]

I have been looking for this guide on this app. Must try this later thanks!

** update I'm trying to find "Flexrate Enabled - 700mHz, 10000uS" where can I find this ?

Updates have removed/added some stuff.

Sent from my SCH-I605 using xda premium

 

[quatro27]

Updates have removed/added some stuff.

Sent from my SCH-I605 using xda premium

thanks

I tried copying all of the list that is posted on the 1st page and it work great, but my phone restart twice today by itself I don't know why??? did this happened to you before?

 

[saphiecor]

Anyone has settings for bass audio?.

 

[ceftriaxone]

Take a look at Perseus kernel thread. There were some presets in description. It may work for you

Sent from my GT-N7100 using Tapatalk 4

 

[C00lBeanz]

I set voltage too low and checked start on boot and now its stuck

 

[darkxeon89]

Alright, below this, I will include an almost full guide to setting up STweaks (for those who do not want to use the provided profiles)

The CPU section contains the frequencies and voltages that you want to run at.
200mHz is the minimum speed, 1800mHz is the maximum speed. You can change these to affect your overall performance or battery life. Mine is currently set to 200mHz minimum, 1800mHz maximum. I have seen no hit on battery life at all (might be miniscule.)

Now for the voltages.. Each and every person will have a different set of voltages, as every CPU will be a little bit different. You can manually set your frequency to a certain level, use a CPU stress testing app (stability test) and drop the voltage by SMALL increments until you start to lose stability (system crashes, app force closes, etc.) I usually go UP one voltage step over the borderline stable voltage. I will post my voltages, but take caution, as my voltages are set pretty low compared to stock values on the kernel.
1800mHz - set to 1200000 uV or 1.2 volts.
1704mHz - set to 1175000 uV or 1.175 volts.
1600mHz - set to 1112500 uV or 1.1125 volts.
1500mHz - set to 1100000 uV or 1.1 volts.
1400mHz - set to 1062500 uV or 1.0625 volts.
1300mHz - set to 1025000 uV or 1.025 volts.
1200mHz - set to 1000000 uV or 1 volt.
1100mHz - set to 975000 uV or 0.975 volts.
1000mHz - set to 962500 uV or 0.9625 volts.
900mHz - set to 937500 uV or 0.9375 volts.
800mHz - set to 912500 uV or 0.9125 volts.
700mHz - set to 887500 uV or 0.8875 volts.
600mHz - set to 862500 uV or 0.8625 volts.
500mHz - set to 837500 uV or 0.8375 volts.
400mHz - set to 812500 uV or 0.8125 volts.
300mHz - set to 800000 uV or 0.8 volts.
200mHz - set to 787500 uV or 0.7875 volts. * BE CAREFUL WITH THIS ONE, it can cause your device to lock up when the screen is off, and need a battery pull if the voltage is too low.

CPU Scaling Section - this controls how your device will turn up the speed when it needs to.

Governor - This contols how the device will respond overall (power management, sleep, etc.) I will keep mine set to the Pegasusq governor unless I am running a benchmark, in that case, use perfomance (which locks the device to full speed and all 4 cores online)
Sampling Rate - how often the device will 'think' about changing the CPU speed. I have mine set to 15000 uS (15 milliseconds) so it is more responsive.
Sampling Down Factor - This enables you to create 'lag' when the device is at full speed, so it doesn't jump down frequencies when you don't want it to. I leave mine at default 1 sample, because I see no need for this.
Up Threshold - When a core hits this % utilization at a set frequency, then it will scale up to the next frequency. I have mine set to 96%, so the device will scale up slower and more reliably (keep in mind it makes this decision every 15 milliseconds.)
Down Differential - When the device scales down, (drops frequency) it must get below this % utilization to scale down ( UP THRESHOLD minus DOWN DIFFERENTIAL ) I have mine set to 5%, so it drops frequency at or below 91% utilization.
Frequency for Responsiveness - This helps keep the device smooth at lower frequency, and when the frequency is below the set spot, it will use a DIFFERENT up threshold so the device scales up faster and doesn't lag. My frequency setting is 500mHz, and the up threshold for it is set at 70%.
Frequency for Fast Down - this sets the frequency at which the device can use aggressive down scaling, much like the opposite of frequency for responsiveness. I have mine set to 1400mHz, and the up threshold is set to 98%, so the device only scales up if it really needs to.
Frequency Step - This applies to the Fast Down setting, and whenever the device gets above 98% utilization, then it will increase the frequency by a SET percentage of the maximum frequency. So if you set 10%, and are have 1800mHz max, it will increase to the closest step that adds 180mHz. I have mine set to 6%, so it increases by 108mHz.
The up threshold and frequency step decrease confuse me for this, but I have the up threshold set to 2%, and the frequency step set to 3%.
I didn't touch the flexrate settings, as everything else should control this area.

CPU Hotplug - This section will control how the device turns its cores on and off.

CPU Up Rate - How many samples you want to take until a core decides to turn on. (Sampling rate times your setting) I have mine set to 12, so if the conditions are correct, it takes 180 milliseconds to turn a core on.
CPU Down Rate - How many samples you want to take until a core decides to turn off. (Same thing as CPU up rate) Mine is set to 10, so it takes 150 milliseconds to turn off a core if it isn't being used.
Core Upbring Count - How many cores you want to bring online when the conditions are right. Mine is set to 1, I'm sure more will increase performance and hurt battery life.
Configuration Overrides - These can set you device to always have a certain amount of cores online, I don't use them (leave at 0.)
Hotplug Conditionals - These perameters are set to control when the cores turn on and off. Below are MY values
Hotplug 1 Core to ONLINE (make 2 cores online) - 600mHz
Hotplug 2 Cores to OFFLINE (make 1 core online) - 500mHz
Hotplug 2 Cores to ONLINE (make 3 cores online) - 700mHz
Hotplug 3 Cores to OFFLINE (make 2 cores online) - 600mHz
Hotplug 3 Cores to ONLINE (make 4 cores online) - 800mHz
Hotplug 4 Cores to OFFLINE (make 3 cores online) - 700mHz
The rest of this section, I left at DEFAULT values, because I did not understand them.

GPU - This section controls the frequencies and voltages of your GPU.
Maximum Frequency - How high you want your GPU to clock to, mine is set to 733mHz.
Minimum Frequency - How low you want your GPU to clock to, mine is set to 108mHz.
Up Threshold - Like the CPU setting, the percentage of utilization you achieve before the GPU scales up. Mine is set to 90%.
Down Differential - When you want your GPU to scale down lower, (Up threshold minus down differential.) Mine is set to 10%, so when the GPU hits 80% utilization on a speed, it drops to a lower frequency.
Utilization Timeout - Basically is the sampling speed of the GPU (how fast you want it to make decisions to change speed.) Mine is set to 25 milliseconds.
Voltages - Test these the same way as the CPU, get a GPU stress testing app, and set a certain frequency. When you see artifacts or glitches on your screen, then the voltages are too low. Below are MY values.
54mHz - 825mV
108mHz - 875mV
160mHz - 950mV
266mHz - 975mV
350mHz - 1050mV
440mHz - 1100mV
533mHz - 1125mV
640mHz - 1150mV
733mHz - 1175mV
800mHz - 1200mV (This clock speed proved to be slightly unstable at 1175mV, though still usable)

I/O section - These values/settings control how your device writes/reads things from the SD card, or internal storage.
I left both of my storage schedulers at ROW but you can change them and play around. I believe that deadline is the best for overall performance, but can be unstable sometimes.
I/O Read Ahead - These control the cache file on the internal/external storage. I have my internal set to 1536kB, and external set to 2048kB, because those values gave me overall good write/read speeds.
Dynamic Fsync - From what I know, this helps keep the data from being corrupted by creating a buffer between data being written and the storage. Correct me if I'm wrong. I kept it enabled.

The entire audio section is pretty self explanatory, and I'm getting tired of typing all of this, so if you need help, PM me or comment.

Again, take this entire post with caution. What works with my device, may make yours unstable. I only provided mine to give you a baseline, my values offer good performance and battery life anyways. Feel free to correct any of my errors by PM or comment, and I will gladly change my post to accommodate for my errors.

bro, how about the setting for power side....?
any setting for that in term of fast charging...?

Need help...

 

[quatro27]

bro, how about the setting for power side....?
any setting for that in term of fast charging...?

Need help...

fast charging depends on the charger itself if your using the original charger of samsung you'll really gonna get slow charge. What I did is I bought a fast charger in Japan docomo brand an hour and half full charge already.

 

[ngacleng]

I just have 17429 in antutu im with wanamlite rom and perseus

Stock rom and perseus: 23038


Sent from my GT-N7100 using Tapatalk 4

 

[avvocato.rossi]

lag

Hi, is there some setting to avoid the lag for wakeup the phone?