Hi,
1) I have installed Kyorarom 0.5.2 OC kernel and here are my SetCPU profiles.
Main - Min: 300 Mhz, Max: 800Mhz
On Call - Min: 83, Max: 400, Priority: 100
Time - 11 PM to 6 AM - Min: 83, Max: 200, Priority: 99
Screen Off: Min: 83, Max: 400, Priority: 98.
My problem is, if I use my phone after 11PM, the time profile gets activated.
But when screen is on, I want to use the main profile. How can I do that?
2) Which governor has less stress on CPU? Conservative or Lagfree?
3) When in the main profile, my phone constantly runs at my max setting, (ie) 800 Mhz. It never runs lower than that. Why does it happen?
maverickgenius said:
Hi,
1) I have installed Kyorarom 0.5.2 OC kernel and here are my SetCPU profiles.
Main - Min: 300 Mhz, Max: 800Mhz
On Call - Min: 83, Max: 400, Priority: 100
Time - 11 PM to 6 AM - Min: 83, Max: 200, Priority: 99
Screen Off: Min: 83, Max: 400, Priority: 98.
My problem is, if I use my phone after 11PM, the time profile gets activated.
But when screen is on, I want to use the main profile. How can I do that?
2) Which governor has less stress on CPU? Conservative or Lagfree?
3) When in the main profile, my phone constantly runs at my max setting, (ie) 800 Mhz. It never runs lower than that. Why does it happen?
Click to expand...
Click to collapse
HI,
1) I dont think that's even possible man... would be nice though
2) conservative
3) how do you know that its for constant? and that's normal if you've chosen 'performance' gov'ner.
PersianSphinx said:
HI,
1) I dont think that's even possible man... would be nice though
2) conservative
3) how do you know that its for constant? and that's normal if you've chosen 'performance' gov'ner.
Click to expand...
Click to collapse
1) Okay. I thought that the main profile is something like a "screen on" profile, which would override all others.
3) I checked using CPU Spy. My phone is always at the highest frequency. I am using conservative.
try a different governor / kernel
maverickgenius said:
1) Okay. I thought that the main profile is something like a "screen on" profile, which would override all others.
3) I checked using CPU Spy. My phone is always at the highest frequency. I am using conservative.
Click to expand...
Click to collapse
I'm not sure about the constant 800. even if it is, as long as battery works well, everything is OK
PersianSphinx said:
I'm not sure about the constant 800. even if it is, as long as battery works well, everything is OK
Click to expand...
Click to collapse
Well, even if the battery works fine, running the processor constantly at 800 MHz will decrease its life.
Does your phone too behave the same way as mine?
maverickgenius said:
Well, even if the battery works fine, running the processor constantly at 800 MHz will decrease its life.
Does your phone too behave the same way as mine?
Click to expand...
Click to collapse
lol, how long are you planning to keep this phone? decreasing the life from 10 years to 8 wont bother me at all (I dont actually know the life)
PersianSphinx said:
lol, how long are you planning to keep this phone? decreasing the life from 10 years to 8 wont bother me at all (I dont actually know the life)
Click to expand...
Click to collapse
Agree with you on that point. But you still didn't answer my question
1) Not possible.
2) Conservative.
3) Problem with conservative governor in Kyoyakernel maybe.
Advice : - Always use On Demand.
Find Kryllios ROM instructioin, he have sugeested good settings to get maximum battery life...........
Max 300 - MHz and Min 1200 Mhz...what is this!
Hi, I have a Samsung Galaxy S II I9100G and rooted it with Kernel superatoms v3.0 XXLA1 and installed SetCPU 2.3.0.2 in it.
Now, when I set the max and min slider to 1200 MHz (with Governer hotplug) and goes back to the home screen, after that, when I again open SetCPU, the max slider gets to 300 MHz and the min to 1200 MHz (with Governer powersave).
What is this, man!!! How can the processor run with maximum speed of 300 MHz and the minimum of 1200 MHz ....
Plzz...I need help
Hi guys! I just got a Skyrocket and I rooted it and threw Sky ICS on there first day. Still cycling the battery but it's been great yesterday. From 8am-9pm yesterday was what I got, at 9 pm it was completely dead 0%. Not bad for the first time! During that time I GPS'd for 50 minutes, did web browsing, installed some apps, sent and received a lot of text messages, and talked on the phone for about 10-15 minutes. Never put it on the charger the entire day.
Been using SetCPU and here are my settings:
Clock max 1350 MHz
Clock min 192 MHz
Profiles:
Screen OFF
Priority 60
Clock max 432 MHz
Clock min 192 MHz
Battery >=50*C
Priority 55
Clock max 756 MHz
Clock min 192 MHz
Battery <= 20%
Priority 50
Clock max 702MHz
Clock min 192 MHz
Battery <= 50%
Priority 45
Clock max 918MHz
Clock min 192 MHz
Battery <= 80%
Priority 40
Clock max 1188MHz
Clock min 192 MHz
So far everything has been running very smooth. Even when waking it up from sleep it comes right up and is very snappy already. Does anyone else use SetCPU? If so what settings do you use that could help improve my battery even more?
Aside from gps, my battery life is basically completely dependent on screen time. 4hrs a charge. Not much difference running badass 1500/192 or 1000/192, 4hrs give or take 15min.
Sent from my SGH-I727 using Tapatalk 2
What version of SetCPU are you using? I have v3 and there's an exclusivity option....any of these exclusive?
I don't have this option.... "Battery >" not even the equal sign...
does that make any difference?
(I intended to post this in "general:, not q&a)
SUMMARY: I have been slowly decreasing my voltage. Wednesday, three weird things happened on my phone that never happened before (wakelocks, unintended reboot, instant drop in battery indication).
CONCLUSION: I attribute all three things (wakelocks, reboot, instant drop in battery indication) to reaching an unstable voltage.
DESIRED OUTCOMES (Why am I posting this):
1 - I think I understand what happened, but maybe you guys can point out if I'm mistaken.
2 - Maybe someone else will be interested in seeing voltage limits for my phone (-75mV appears to work, -100mV appears to be too low for me... I guess other Infuses may act differently)
3 - It seems to me that maybe excess UV should be considered when investigating causes of wakelocks (there are many other causes of course). This conclusion is based only on this one experience as reported below. I have heard obviously unintended reboot can be associated with too much UV'ing, but I never heard wakelocks could be associated with UVing. Open to comments.
DETAILS:
I’m using stock GB, rooted, Zen’s Infusion A/1600 kernel, with governor conservative 100-1200millivolts.
I have been decreasing my voltage settings by 25 millivolts every other day over the last week.
Wednesday, I got to 100 millivolts below max on all points (except 1600Mhz, which was 50 millivolts down)
Specifically, my levels on Wednesday were:
100 Mhz: 950mv max – 100mv = 850 millivolts
200 Mhz: 950mv max – 100mv= 850 millivolts
400 Mhz: 1050mv max – 100mv = 950 millivolts
800 Mhz: 1200mv max – 100mv = 1100 millivolts
1200 Mhz: 1275mv max – 100mv = 1175 millivolts
1600 Mhz: 1400mv max – 50mv = 1350 millivolts
Before Wednesday, I had performed stability test (using “stability test” program for about 30 minutes... it sweeps the frequencies I think) at 1600Mhz Fmax while 50 millivolts down and another stability test at 1200 Fmax while 75 millivolts down, both for around 20 minutes, no problems there and no other problems with my phone in the last week since I upgraded to GB. When I decreased to 100 millivolts down I only did a 30-second “stress test” from within setcpu at 1200Mhz. No problems there.
All day Wednesday I was running the conservative governor, with Fmin=100 and Fmax = 1200, cfq io scheduler, UV settings as above (all 100 down except 1600Mhz). I have one setcpu profile that puts the phone to 1600Mhz Fmax when I manually launch "Memento Database" program, but I did not launch that program at all on Wednesday, so I never got above 1200Mhz on Wednesday.
My battery profile for the day Wednesday is shown in attached graphic.
The label “phone awake with screen off” points to a time period approx 2-4pm when my phone was awake with the screen off. I have never seen this happen on my phone before, and I look at this screen pretty regularly.
I used the phone heavily during my hour-long ride home from work from 5pm to 6pm (no problems). I was surfing the internet, reading the news about the Hurricane in New Orleans (not tweaking my phone). Phone worked absolutely perfectly throughout this hour long heavy usage.
First thing on getting home, I connected to wifi and surfed for about 5 minutes. At about 6:10pm, while surfing with my battery level happened to be 47% (as I deduced later), suddenly appeared the black screen with Samsung logo ... phone booted up to normal home screen. I think that’s what you guys call the “screen of death”?
I assume the phone reboot may be my first indication that I’ve reached my limit for UV’ing?
But here’s what concerned me more than the SOD:
Immediately after rebooting, my battery now showed 8% !
How does it go from 47% to 8% that fast? I have several screens from “battery monitor widget” and from the Android battery screen, and they all confirm the battery dropped from 47% to 8% over this very short time period (less than 5 minutes). I also have audible low-battery warnings on my phone (generated by Tasker, a lass with a pretty British lady voice) at levels of 40%, then 30%, then 20%, then 10%. I didn’t get any of those audible warnings prior to this spurious reboot – seems to confirm either this was a real drop in battery, or else my battery signal feeding all my applications (battery monitor widget, Tasker, GB battery profile) somehow went bezerk.
I have a hard time imagining this could be a real drop in battery ....where would the energy go? The phone did not get hot.
Is it possible somehow the phone’s battery calibration got confused?
Attached is a screenshot of battery drop.
The rapid drop from 70% to 50% was when I was using the phone heavily for an hour... I consider that normal.
The vertical drop from 47% to 8% is what is completely unexplainable to me. Although I have seen in the forum reports of battery gage reading unreliably in certain circumstances.
By the way, I put my UV setting back to -75 Wed night, and phone working fine ever since. No wakelocks or other anomolies.
Questions:
1 – Is this what is known as “screen of death”
2 – Has anyone seen that type of rapid battery level decrease?
3 – What do you think caused it.... calibration problem or actual loss of battery? If calibration problem, it’s kind of weird that the voltage increased smoothly during recharge afterwards?
4 – Do you think the phone-awake-with-screen off occurences earlier in the day are related to my UV'ing? I didn't see them before and I haven't seen them since went back to -75mV, suggesting they are caused by UV'ing. But also note the phone worked fine during my hour long drive home after the wakelocks and before the SOD
5 – Do you agree I have probably reached stability limit and should stick with 75 millivolts down instead of 100 (I have been back on 75 again for awhile...no problems)
Attached below is my battery voltage over the course of the day, annotated with the items discussed above.
If you undervolted, your going to run into problems man. Simple as that. If you do anything to your phone not stock these things can and will happen.
Just take is as a fluke and move on. Everyone's phone uv's differently.
Imo what happened is the processor was making lots of errors and corrupted some part about your batteries actual percentage and was a lot lower than was presented to you.
Phone awake while screen on is a wakelock and quite common. Usually an app holds the phone turned on.
Edit: if uv of 75 fixes the problem. Then that definitely us what you should do. Note, benchmarks don't give stability reports. You would need run them for hours before you get accurate assessment.
Sent from my SGH-I997 using xda premium
1 – SOD is when the screen is black and phone won't unlock. Sometimes the volume buttons work. A long press of the power button will usually reboot the phone.
2 – The rapid power drains I've seen have typically been due to the rild process running amok and maxing the cpu. Typically the phone gets hot when this happens. In a SOD situation, you can typically still connect to the phone via ADB. If you can do this, run "adb shell" and then the following command: "top -m 5 -n 1" (spacing emphasized as all spaces are required).
3 – Dunno, but I'm with Elliot: the thing you changed was UV. Back that out and see if the problem goes way.
4 – Awake when screen off is usually related to an app that sets a wakelock and syncs in the background. Use Better Battery Stats to troubleshoot this. If it was UV causing this, I'm not sure why that would be - see #3
5 – FWIW, I never UV below -75... and truth be told I haven't seen a significant savings in battery life with UV, but that's likely because my phone is asleep most of the time...
Thanks for your response Elliot.
I think you interpretted it roughly the same as me except you lean more towards other possible causes of wakelocks unrelated to UV. That is certainly possible and I will keep a close eye on tha (moreso as a reuslt of your comments)
I am moving on with my phone at –75mv and don’t plan any drastic changes as a result of this unless I see more problems, but I also want to treat this as a learning experience. I spent awhile collecting the data and drawing my own conclusions, but wanted to bounce it off the others here for my own long-term learning.
Thanks again.
Thanks Zen, good info as always.
if you UV, i had better luck with higher UV on the top end:
ex: -125 or 150 @ 1600
-100 or 125 @ 1200
-75 or 100 @ etc
Basically, you are limiting power consumption and increasing battery life.
Once you hit the lower limit, your phone will let you know.
If you care to try, and you will have a slower phone:
set cpu max to 800 and then uv -75, -50, -25 stepping down. you will see the difference. it will make calls or mms fine. But you will notice slowdown with web/games/etc
every cpu is different. i've had 2 infuses because my screen broke, i replaced it and the replacement was defective, found another phone for about the price of a replacement screen.
one get's me about -100mv the other was completely stable at -225(maybe more) with stock clocks and -200 overclocked.
one thing that can cause instability is a big voltage differential from low to high especially with on demand governor, it's not only a matter of necessary volts to drive the chip per clock, the rapid fluctuations can cause issues. if you want performance you might want to uv from the top down leaving the lower freqs stock and seeing how much uv it will tolerate at 1600 before you mess with lower clocks, you might get more uv on the upper clocks that way which will reduce heat. if you want battery life then try less or no overclock still going from the top down.
for people that can't reach 1600, or think they can't try to set 1400 and 1600 at the same voltage so the voltage table has a plateau at the top. setting 1200 and 1400 high might smooth the transition to 1600, also try the voltages across the board, there may be a narrow range where the heat and required voltage balance out. i did this with my captivate and got it from 1200 to 1300mhz but 1300 would only work in a narrow 50mv range and 1200 needed to be enabled as well as set to the same voltage. the chip in that phone didn't like overclock at all compared to most infuses but sometimes thats how it goes.
still have wakelocks
if you UV, i had better luck with higher UV on the top end:
Click to expand...
Click to collapse
one thing that can cause instability is a big voltage differential from low to high especially with on demand governor, it's not only a matter of necessary volts to drive the chip per clock, the rapid fluctuations can cause issues.
Click to expand...
Click to collapse
Interesting. Both comments end up suggesting the same strategy to my way of thinking (more UV'ing at top frequencies will create a flatter voltage curve across the range of frequencies). I'll give it some thought when I get back to polishing my uv strategy. Maybe instead of putting all back to -75 I should do something like:
100 Mhz: 950mv max – 75mv = 875 millivolts
200 Mhz: 950mv max – 50= 900 millivolts
400 Mhz: 1050mv max – 75mv = 975 millivolts
800 Mhz: 1200mv max – 100 mv = 1100 millivolts
1200 Mhz: 1275mv max – 75mv = 1200 millivolts
1600 Mhz: 1400mv max – 100mv = 1300 millivolts
...and stick with conservative governor to avoid the big jumps. That way I'd never jump more than 100millivolts (except between 400 and 800 which jumps by 125... but was apparently already a 150mv jump in the stock?). But I'd want to do some testing on the at 1600 to see how it likes the 100mv down, first. Sound reasonable?
========
New subject
An "update" on my phone:
My battery display still shows today that there is quite a lot of time with cpu on and screen off (wakelock) even though now my phone is not undervolted at all today (I removed undervolting to do some testing and haven't put back the uv'ing yet).
I'm heading over to the market to download Better Battery Stats per Zen's suggestion.
Thanks
electricpete1 said:
Interesting. Both comments end up suggesting the same strategy to my way of thinking (more UV'ing at top frequencies will create a flatter voltage curve across the range of frequencies). I'll give it some thought when I get back to polishing my uv strategy. Maybe instead of putting all back to -75 I should do something like:
100 Mhz: 950mv max – 75mv = 875 millivolts
200 Mhz: 950mv max – 50= 900 millivolts
400 Mhz: 1050mv max – 75mv = 975 millivolts
800 Mhz: 1200mv max – 100 mv = 1100 millivolts
1200 Mhz: 1275mv max – 75mv = 1200 millivolts
1600 Mhz: 1400mv max – 100mv = 1300 millivolts
...and stick with conservative governor to avoid the big jumps. That way I'd never jump more than 100millivolts (except between 400 and 800 which jumps by 125... but was apparently already a 150mv jump in the stock?). But I'd want to do some testing on the at 1600 to see how it likes the 100mv down, first. Sound reasonable?
========
New subject
An "update" on my phone:
My battery display still shows today that there is quite a lot of time with cpu on and screen off (wakelock) even though now my phone is not undervolted at all today (I removed undervolting to do some testing and haven't put back the uv'ing yet).
I'm heading over to the market to download Better Battery Stats per Zen's suggestion.
Thanks
Click to expand...
Click to collapse
in my experience that will probably work well. but if the phone is at it's limits with the 1600mhz clock then you might have a specific voltage that it prefers so it's possible it doesn't work into what i was describing. try it, i can't say uv is safe but i haven't broken a phone yet by driving the voltage too low. it just tends to crash and will be fine on the next boot after you clear the settings in my experience so far.
Thanks. I went ahead and made the above changes in voltage. Then I manually rebooted (to allow voltage changes to take effect), went into setcpu to set my max frequency to 1600.
Successful stress test from within setcpu ~ 50 seconds.
Then went to the application named "Stability Test", selected "scaling" (which is supposed to vary the frequency) and has been successfully running the test for 14 minutes (11 successful cpu runs and 75 successful RAM runs). It has been on 1600Mhz the whole time according to the Stability Test display. The battery temperature increased from 37 to 42 pretty quickly then slowed, looks to be stable at 43C now.
Elliot warned above that it takes stability tests hours to find problems and Stability Test documentation mentions something about 5 hours on one frequency to find a problem. But if it's only running at one frequency as it appears from the display (stuck on 1600), I think even after running it for 5 hours I might not be confident that it will ferret out all the problems that might arise while switching frequencies (and I'm not sure I want to leave it running for 5 hours if it's stuck on 1600). I'm not sure exactly what is the purpose of "scaling" mode is, if it doesn't change frequency.
At any rate, I''m going to terminate the test and give it the real-life test now.
I will leave my governor at 100-1600 conservative governor for a few days to help shake out any glitches hiding inside there.
Will let you know if anything goes wonky.
Later on when I'm confident in results, I plan on setting up profiles for 100-400, 100-800, 100-1200, 100-1600 depending on the situation, but will stick with conservative in all cases.
Thanks again.
I wanted to provide an update of testing I have done with UV on my phone. Nothing conclusive for me yet, just a lot of data.
I’ll discuss 5 different UV settings labeled below as 0, A, B, C, D (going from most UV to least UV).
About notation - I think it is helpful to list UV settings in the full format I use (rather than just how many volts down) for two reasons:
1 – The reference voltages vary depending on kernel. So it could be misleading to report what the reduction in voltage is without reporting the reference. At 1200Mhz, Zen’s Infusion A/B uses 1275millivolts while Entropy’s DD uses 1300millivolts (voltages match at other frequencies). I’m not sure what the voltages are in stock kernel.
2 – Listing the final voltages allows you to see how much jump in voltage there is from one frequency to the next (large jump could possibly increase instability)... this aspect is not as obvious if we just list how many volts below the reference.
Setting set 0
100 Mhz: 950mv max – 100mv = 850 millivolts
200 Mhz: 950mv max – 100mv= 850 millivolts
400 Mhz: 1050mv max – 100mv = 950 millivolts
800 Mhz: 1200mv max – 100mv = 1100 millivolts
1200 Mhz: 1275mv max – 100mv = 1175 millivolts
1600 Mhz: 1400mv max – 50mv = 1350 millivolts
Duration: Tested less than one day.
Results: Reported in original thread: caused unwanted reboot while surfing. After that the battery indicator jumped.
Setting set A.
100 Mhz: 950mv max – 75mv = 875 millivolts
200 Mhz: 950mv max – 50= 900 millivolts
400 Mhz: 1050mv max – 75mv = 975 millivolts
800 Mhz: 1200mv max – 100 mv = 1100 millivolts
1200 Mhz: 1275mv max – 75mv = 1200 millivolts
1600 Mhz: 1400mv max – 100mv = 1300 millivolts
Duration: Tested 3 days heavy use
Results:
* “Rainbow Screen After Trap Game” – I tried the game “Trap” which was recommended in a thread somewhere as being a good test to find stability problems using UV. Sure enough upon exiting the game once, my screen turned to rainbow colors. I rebooted to restore screen to normal (same UV). I played the game for 15 minutes exiting a few more times, no more problems.
* “Widgets Lost” - Once after reboot I lost all my widgets (Tasker, Color Notes, Elixir). They did not come back even when I went to stock voltages and rebooted. Had to manually restore each of my widgets.
* “Discolor Upon Screen On” - Once in awhile when turning on screen, some colors are initially wrong (mostly I notice the white labels of my icons are yellow or pink). It goes away very quickly - either after I touch the screen or after scroll around a little. After that everything is normal.
* “Flash Upon Screen On” - Once in awhile when turning on the screen, I see a white flash for a fraction of a second (sort of like with an old TV tube when you turn it on or off). After that everything is normal.
These last two symptoms (“Discolor Upon Screen On” and “Flash Upon Screen On”) occurred probably once per day over the course of the three days relatively heavy usage.
Setting set B
100 Mhz: 950mv max – 25mv = 925 millivolts
200 Mhz: 950mv max – 25= 925 millivolts
400 Mhz: 1050mv max – 25mv = 1025 millivolts
800 Mhz: 1200mv max – 75 mv = 1125 millivolts
1200 Mhz: 1275mv max – 50mv = 1225 millivolts
1600 Mhz: 1400mv max – 75mv = 1325 millivolts
Duration tested: 3 days heavy use
Results:
* “Discolor Upon Screen On” – Same as above. 2 or 3 times over three days heavy use
* “Flash Upon Screen On” – Same as above. Once over three days.
setting set C
100 Mhz: 950mv max – 15mv = 935 millivolts
200 Mhz: 950mv max – 15= 935 millivolts
400 Mhz: 1050mv max – 15mv = 1035 millivolts
800 Mhz: 1200mv max – 50 mv = 1150 millivolts
1200 Mhz: 1275mv max – 25mv = 1250 millivolts
1600 Mhz: 1400mv max – 50mv = 1350 millivolts
Duration Tested: 3 days heavy use
Results:
* “Discolor Upon Screen On” – Same as above. 2 or 3 times
(Did not have the Flash upon screen on)
setting set D = 0 undervolt – use Zen’s default settings.
Duration: about 2 weeks experience with GB in this configuration
“Discolor Upon Screen On” – Never saw it
* “Flash upon screen on” – Never saw it, but did see a similar flash just once in my phone application when I removed phone from ear to look at keypad.
** EDITED TO ADD - Today after posting this, I noticed the flash upon screen on" while using no UV, 100-1200Mhz. Maybe I just wasn't looking for it before.
Other Testing Using Specific Applications:
I did a lot of testing with these programs on settings A, B, C and saw no anomalies. For settings A, B, and C, did the following:
SetCPU “Stress Test” for approximately one minute
“Stability Test” Applicaiton– “Scaling Stability Test” subtest for approx 20 minutes (battery gets up to about 115F).
“Stability Test” Applicaiton – “CPU+GPU Stability Test” subtest for approx 10 minutes (actually did this only in B, C, didn't try it in A)
I played the game "Trap" (that caused the problem in setting A) for 15-20 minutes in B, C, exiting and reentering a few times. Didn't see any problems.
Interestingly, when I run Quadrant it sometimes flakes out (returns to Quadrant start screen without any result) and somtimes run to conclusion. But this happens even on stock voltages, and I think I remember it's a problem with Quadrant that others have seen, so I’m inclined to think it is not an indicaion of instability I should worry about.
Analysis:
It looks like B is the most UV I can apply without significant problems appearing during 3-day test. But I still had some minor anomalies I notice occasionally when turning screen on (brief flash and brief discoloration),.but they occur to certain extent even at less UV (C) and at zero UV (D)
All of the above real-life testing in A, B, C was done with max frequency of 1200 (because I wanted to rule out 1600 as a problem).
I used 1600 only during the specific stability test appliations.. that ran fine and also in the D configuration that ran fine. So the problems (if they are problems) come from UV, not from using 1600Mhz.
Questions:
Do you think discoloration upon turning on the screen or flash upon turning on is cause for concern? The symptom itself is not an inconvenience but I’m wondering if it’s warning me about something else going on...(***)
I don’t really have a feel for what change in battery life occurs with these different settings. Seems very difficult to quantify. Any thoughts?
By the way, I'm using ULCB3 stock rooted GB. Using Zen's Infusion-A kernel. cpu control using setcpu: Mostly 100-1200Mhz cpu frequency, conservative cpu governor with the Up/Down threshholds tweaked to 95/45, noop io scheduler.
I installed this configuration about a month ago using qkster's Heimdall one-click.Never had any problems other than those mentioned above which may or may not be problems.
*** I have to confess, I wiped Davlick cache and wiped the other cache at that time, but never did the "factory data wipe" because I had data on my phone that wasn't backed up. I'm not sure if those particular instructions required factory data wipe or not but I remember it was mentioned as good practice. It occurs to me maybe these subtle brief strange symptoms upon turning on the screen are remnants from incomplete wipe?
I went back to stock and still had the occasional occurence of discolored screen upon waking from deep sleep.
It seems harmless, goes away if cycle the screen.
So I re-established UV. I have had my phone at the following settings since 9/17/12. No problems for me other than that occasional discoloration or flashing upon waking for sleep and one other problem where the phone would occasionally ring and I could see the call but not hear the caller (they could hear me). I eventually traced that to tweaking my governor settings... will post that in another thread.
100 Mhz: 950mv max – 50mv = 900 millivolts
200 Mhz: 950mv max – 25= 925 millivolts
400 Mhz: 1050mv max – 50mv = 1000 millivolts
800 Mhz: 1200mv max – 75 mv = 1125 millivolts
1200 Mhz: 1275mv max – 50mv = 1225 millivolts
1600 Mhz: 1400mv max – 75mv = 1325 millivolts
electricpete1 said:
I went back to stock and still had the occasional occurence of discolored screen upon waking from deep sleep.
It seems harmless, goes away if cycle the screen.
So I re-established UV. I have had my phone at the following settings since 9/17/12. No problems for me:
100 Mhz: 950mv max – 50mv = 900 millivolts
200 Mhz: 950mv max – 25= 925 millivolts
400 Mhz: 1050mv max – 50mv = 1000 millivolts
800 Mhz: 1200mv max – 75 mv = 1125 millivolts
1200 Mhz: 1275mv max – 50mv = 1225 millivolts
1600 Mhz: 1400mv max – 75mv = 1325 millivolts
Click to expand...
Click to collapse
1. discolored screen: zen told me about these. I've not seen it..no known harm effects though.
2. I've pushed the 1600 to -125mV; 1200 to -100mV without issues.