Why cpu_freq is larger than actual ? - Android Q&A, Help & Troubleshooting

On my device (In /system/etc) I saw these three files.
The value of cpu_freq is greater than the maximum my CPU is running. (The Kernel Adiutor shows 1401000 Hz)
Does it mean overclocking or not ?
Can anyone explain why?
And what changes are made when an application is in the Game Activity Type in this gamedwhitelist.xml file
Files:
https://my.pcloud.com/publink/show?code=XZAUYT7Zc4C0bQKxvLFCs3Fb5EcGSyOsDIWV

someone ?

Related

Custom speed kernels

I know most kernels we use default to 710mhz max and something like 245 mine.
Would it be possible to change that ourselves in the source and then recompile the kernel and put it on our phones?
That way we could have the phone starting up at say 768max and 19mhz min. I know the kernels also have sleep states that they consider so you could customize that yourself too.
1) Well, the kernels have a default value compiled in, and if you wanted to compile a kernel, you could change those (min/max) values.
2) Or you could reset those values to whatever you like at boot time using the "init" *.rc scripts. This overrides the "compiled-in" values of the kernel by simply writing the clock min/max values into some special files in /sys. This is exactly what the devs do with their ROMs. You can see for yourself in your current ROM with the following command:
Code:
adb shell grep cpu0/cpufreq /*.rc
This approach requires you to unpack, edit, re-pack, and flash the boot image if you are going to do it yourself.
3) Or, you could do the same as the above using user-supplied "local.*rc" scripts, as long as your ROM dev has the correct "hook" in place (e.g. /system/etc/init.local.rc) - look for "import" statements in /init.rc
This approach has the advantage that you don't need to unpack/edit/repack/flash the boot image as in method #2 above, and it produces exactly the same effect.
4) Or, you could just use SetCPU or cpuBoost or even the CM7 menus to do exactly the same thing - internally, they use the exact same techniques which are described above. Conap's cpuBoost now has a "stealth mode" where it does this once at boot time and then gracefully exits.
Because the hardware uses fixed-frequency oscillators + divide/multiply PLLs to generate derived clocks, you can't use any frequency, but rather any one from a fixed list of frequencies. You can find out what that list is by:
Code:
adb shell cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies
bftb0
Quite a few of the newer roms come overclocked out of the box anyway.

[Module] X8Overclock | v004 - Multiple freq | X8 | X10 mini | X10 mini pro | 11-04-11

Rom cookers: if you include this module in your ROM, please make a link to this post in your release post, so your users can know how to work with it and update the module themselves
Intro: (dev post)
Since the X10 kernel is working, we might have a hope that someday we will have our custom kernels. If we can have custom kernels, we can do the overclocking easily.
Until that day, we will still have to overclock with modules. To make overclocking works with our current kernel, as far as I can see, we need to do the following things:
1. Patch cpufreq data to change maximum reported freq (these value will be read by Android for further controls). cpufreq will then call the low-level acpuclock functions to change real cpu freq.
2. Patch acpuclock data + code to change real cpu freq.
Right now I'm working a proof-of-concept module, with finished 1 and half of 2. I will need to patch acpuclock code in the running kernel to make the frequency applicable.
That means, right now, Android reported that I have a 800MHz MSM7227, although it's running at 600MHz, and cpufreq's governor accepts to change to the maximum 800MHz (it's 600MHz for real). We will need to patch acpuclock code to change PLL and apply the correct divisor.
Source on github : https://github.com/doixanh/X8Features
Release history
April 11. v004. Default to 691MHz. Multiple frequencies are available for SetCPU: from 614MHz to 826MHz. You can now change frequencies with SetCPU - much like with custom kernels! You can even SetCPU freq at boot.
April 07. v003. Compatible with SetCPU. Easier for code maintenance.
April 06. v002 for mini pro. x8oc module for x10 mini pro released! Be warned: I didn't have your x10mini pro hardware so I didn't test it throughoutly.
April 06. v002 for mini. x8oc module for x10 mini released! Be warned: I didn't have your x10mini hardware so I didn't test it throughoutly. 710MHz was reported not too stable. A lower freq is more stable.
April 06. v002. Experimental! It maybe very unstable! Undervoltage for all frequencies except the max freq (Reduced voltages for 128MHz, 245MHz, 320MHz, 480MHz). This can potentially save battery. I need test results for saving battery from you guys
April 05. v001. Default to 710MHz.
Requirements:
- Rooted
- Baseband x15
- xRecovery (for automatic installtation)
- Dare!
Installation:
a. Manual installation : it will be better if you can do this way.
- Download appropriate x8oc-vXXX.zip (for X8), or x8oc-vXXX-x10m.zip (for X10 mini), or x8oc-vXXX-x10mp.zip (for x10 mini pro) below, unzip
- Remount /system as rw
- Push x8oc.ko in to /system/lib/modules
- Edit /system/etc/hw_config.sh, add one line at the beginning
Code:
insmod /system/lib/modules/x8oc.ko # x8 overclock
For people who want to set specific freq at boot, write the following instead of the code above:
Code:
# x8 overclock
insmod /system/lib/modules/x8oc.ko
sleep 2
echo xAB > /proc/x8oc
Where AB is your desired code for that frequency. Test the frequency carefully before applying it at boot!
(you can edit hw_config.sh by pulling it to your PC, edit, and push it back)
- Reboot your phone
b. Automatic installation : much like x8gesture, I will have to prepare update.zip for each ROM. I'm pretty busy now, so be patient.
General instruction
- When you install x8oc, SetCPU will not recognized the new max frequency. Don't touch the slide and/or change the governor. If you do that, the new frequency will be lost. You will have to reboot your phone to get the new freq.
- For geeks only: it is possible to change maximum frequency after you install x8oc. With following command, you can replace AB to other values to change max freq:
Code:
echo xAB > /proc/x8oc
20 to change to 614MHz
21 to change to 634MHz
22 to change to 653MHz
23 to change to 672MHz
24 to change to 691MHz
25 to change to 710MHz
26 to change to 730MHz
27 to change to 749MHz
For example, set to 749MHz:
Code:
echo x27 > /proc/x8oc
This feature still works with v004
Somebody asked about the meaning of AB above. If you look at the source you will understand
In short :
- AB is stored in hexadecimal
- Max frequency = AB (in decimal) * 19.2MHz
Example:
AB = 27 means AB = 0x27 = 39 (in decimal)
Real frequency = 39*19.2 = 748.8 MHz
You can put 28, 29, for even higher frequency... but I don't recommend to do that. It was unstable for me.
x10 mini / x10 mini pro users:
Support for x10 mini / x10 mini pro has been added since 06-04-11. However, I don't have your hardware so you must test this module before install it:
- Push x8oc.ko to /system/lib/modules
- Run the following command
Code:
insmod /system/lib/modules/x8oc.ko
If the phone is still working, no crash, no black screen, then it works.
Until you're sure that it works with your hardware, don't install it to hw_config.sh or you will get boot loops and may severely damage your hardware
Disclaimer
This module is dangerous! It may cause severe damage to your hardware. I'm not responsible if this module kills your lovely phone. Use it at your own risk!
Donations are welcome
PLEASE DON'T SPAM IN THIS THREAD WITH UNCONTRIBUTED POSTS.
Can you share the source code of your module?
I was too lazy to build a separated module for OCing Everything is a mess inside my current x8gesture module
I'll try to do something more and then separate OC into a new module.
info about MSM7227 CPU:
http://pdadb.net/index.php?m=cpu&id=a7227&c=qualcomm_msm7227
Holy sh*t. They included bunches of controllers inside this MSM 7227
Max. 800MHz Qualcomm MSM7227 Turbo, Embedded 320MHz DSP (GSM, GPRS/EGPRS Multislot Class 12, EDGE, UMTS Release 6, 7.2 Mbps HSDPA, HSUPA 5.76 Mbps, MBMS baseband), 400MHz modem processor, Adreno 200, OpenGL ES 2.0, OpenGL ES 1.1, OpenVG 1.1, EGL 1.3, Direct3D Mobile, SVGT 1.2, DirectDraw,
Click to expand...
Click to collapse
Is there anyway to enable that turbo mode by moding? It must be locked somewhere, the safe clock is 600mhz, but it might run 800mhz or more stable too, might be battery draining issue, or overvoltage necessity but with scaling that should not be a real issue, if only used to extreme situations, and, for a bit of time.
f.e. Samsung Galaxy Ace has same CPU and it run at 800Mhz
This is a great project and it looks very promissing.
ZTE Blade has same cpu and they had problems overclocking just the main core, but in the end they solved it, I guess you could take a look at their solution as well.
And thanks again for the dualtouch module.
I read many overclocked kernel sources for MSM7227 in difference devices. What they did was to modify acpuclock.c :
1. add new freqs to freq_table
2. add new freqs to clkctl_acpu_speed arrays
3. modify acpuclk_set_div to set PLL for overclocked freqs
Because acpuclock is initialized very early during boot process, cpufreq (initialized much later) will read those available freqs from acpuclock to apply to its governors.
In our case, because we cannot modify acpuclock in the kernel before it's initialized, our module will be loaded much later than both acpuclock and cpufreq. Therefore, my approach is to modify (inline patch) both acpuclock and cpufreq in memory, while the kernel is running.
So far, as mentioned in OP, I modified cpufreq and acpuclock data (as in 1. and 2.), so that Android thinks that max freq is set at 800MHz. We will have to do some inline memory patches to acpuclock function to change PLL for freqs more than 600MHz during runtime. More precisely, we need to patch acpuclk_set_div function.
I did a quick study about ARM instruction set, looked for branch (and branch with links) instructions. I managed to redirect calls to acpuclk_set_div to my own function in module, so that acpuclock_set_rate calls to my function, instead of the original one. However, it seems that the param received by my function is always NULL.
Looking for reasons and solutions. Any suggestions?
@racht: no, we thank you for your hard work in your Hackdroid ROMs.
It seems that I made a mistake. acpuclk_set_div was not separated as a function. Instead, the compiler included it in the caller function (acpuclk_set_rate). This will be a big big big problem for us to hijack the call.....
Hope everything works out! 200mhz is a big jump
Can u share your sources?
Maby i can help you
Sent from my U20i using XDA Premium App
I will need to rewrite the module, because everything is placed in my x8gesture I will do it soon.
The initial commit is pushed to github at : https://github.com/doixanh/X8Overclock
All contributions are welcome.
as an example of omap3
http://code.google.com/p/milestone-overclock/
This project consists of a kernel module for OMAP3 phones with Android to unlock any processor frequency/voltage combination and a companion graphical app to ease the configuration. The phone must be rooted so that the kernel module can be loaded.
The module has an interface in /proc/overclock/* that allows enabling and disabling of overclock in runtime without rebooting. No flashing of custom roms or kernels is needed, since that is not even possible with the Milestone, Droid X and others.
andrej456 said:
as an example of omap3
http://code.google.com/p/milestone-overclock/
This project consists of a kernel module for OMAP3 phones with Android to unlock any processor frequency/voltage combination and a companion graphical app to ease the configuration. The phone must be rooted so that the kernel module can be loaded.
The module has an interface in /proc/overclock/* that allows enabling and disabling of overclock in runtime without rebooting. No flashing of custom roms or kernels is needed, since that is not even possible with the Milestone, Droid X and others.
Click to expand...
Click to collapse
Thats good idea but edit is needed because X8 does not have 1,2 processor
EDIT: With 800 processor thats so close x10 1000 processor,cant imagine how fast x8 will be
as-mario said:
Thats good idea but edit is needed because X8 does not have 1,2 processor
EDIT: With 800 processor thats so close x10 1000 processor,cant imagine how fast x8 will be
Click to expand...
Click to collapse
to not fit in the x8, but the wiki to be useful
if we take this as an example you can write a module
sorry for my english
It seems that my approach is like milestone-overclock. Their CPU is different, but we can know that we're having a good direction.
Good news: I managed to hijack calls to acpuclk_set_rate (the function contains acpuclk_set_div). This way, we can write our own set_rate and set_div function.
Destination is not too far away
YES, YES and YES! It's running at 684MHz! Will upload a screenshot soon!
This below screenshot is taken at 710MHz with only CPU test
It seems that our CPU is not stable above 748MHz.

[KERNEL] Bricked-Kernel Grouper/Tilapia

Welcome to the most customizable N7 kernel on xda
Bricked-Kernel Nexus 7 (grouper)
Replaced NVIDIA's strange hotplug manager with my own: tegra_mpdecision​
Features:
Based upon Googles tegra3 source
Fixed section mismatches
Various other fixes (look @ github)
Compiled with gcc4.7.2 toolchain (linaro 09.12)
Replaced NVIDIAs hotplug manager with tegra_mpdecision (better battery life + performance)
Extensive sysfs interface for mpdecision with all the tuneables you want
Highly modified ondemand governor for tegra3 & mpdecision (this is the only recommended governor atm)
Fixed usage of 51Mhz clock
GPU OC (416/484/520Mhz)
Truly variant free CPU OC for all devices (51 - 1600Mhz)
Fixed max cpufreq resets throughout the kernel
All cores now use the max frequency (before: only in singlecore, otherwise -100Mhz)
Undervolting (faux123)
Default clocks: 102min & 1300max (+100Mhz overclocked) & 475 Maxscroff
earlysuspend/lateresume for ondemand including special screen off settings to save power
Aroma Installer by amarullz
cmdline interface for cpu min/max/maxscroff/gpuoc/scheduler/governor
---Just flash the kernel with your desired settings, no more need for oc apps. Reflash if you want to change sth. It's that easy!
FSync Control by Ezekeel
export t3 variant to debugfs by faux123 (adb shell cat /sys/kernel/debug/t3_variant)
lowered panel min brightness to 8
ZRAM
enabled NFSv3&4
Check the compare links for the rest ​
Where is tha Changelog???
There will be no more changelogs.
Instead the download pages were outfitted with compare links to github for each download.​
How to install?
Flash through recovery. #done.​
Where to complain about errors/bugs?
Please use the Issuetracker for bugs/errors/feature wishes!
Issuetracker @ https://code.google.com/p/bricked/issues/entry
[email protected]
IRC Chat: Freenode IRC #bricked​
Download:
No Guarantees! If it kills your grandmother or your device, I am NOT responsible! If you understand this:
(If you download, please hit Thanks below my post! Thank you!)
>>> DOWNLOAD <<<​
Donor List:​
> Hall of fame <
With special thanks to all N7 piggy bank donors!
Thank you very much!​
Source:
​
Benchmark:
Knowledge base:
What is tegra_mpdecision?
100% kernel based multi core decision! (should cpu1/2/3 be online or not, do we need the low-power/ninja core now?)
This replaces the stock nvidia hotplug solution.
Check /sys/kernel/tegra_mpdecision/conf/ for the configuration.
startdelay = time until mpdecision starts doing it's magic (20000)
delay = time between checks (130)
pause = if something else plugs in the cpu, fall asleep for 10000ms (10 secs)
scroff_single_core = Force low-power mode if screen is off (1)
enabled = enable(1) or disable(0) mpdecision. This does not affect scroff_single_core!
min_cpus = min cpus to be online, cannot be < 1. Default: 1
max_cpus = max cpus to be online, cannot be > 4. (if you set it to 2 and min_cpus to 1 you will basically have a dualcore) Default: 4
idle_freq = a value against that will be checked if a core +/- is requested. (475000)
lpcpu_up_hsyteresis = minimum number of requests that have to be send in order to switch to low-power mode (4)
lpcpu_down_hsyteresis = minimum number of requests that have to be send in order to switch to g-mode (quadcore-mode). Overridden by a requested freq that is higher than the max supported lp-mode frequency. (2)
If cpu0 is below that value and a core up of another cpu is requested, nothing will happen.
If any other cpu is above that value and a core down of that cpu is requested, nothing will happen. (otherwise it would now put down that cpu even though it is still working, which isn't what we want)
Hot plug thresholds (aka now it gets 'complicated')
This small formula calculates which value will be used: (number_of_cpus_online - 1) * 2
The result of this formula will be the nwns_threshold where a new cpu is hotplugged.
The result of this formula + 1 will be the nwns_threshold where a cpu is unplugged.
nwns_threshold_x = runqueue threshold, if this is reached cpuX will be hot/unplugged
twts_threshold_x = time threshold, this amount of time must have passed for the related action to be taken (hot/unplug)
Example:
One cpu is online.
(1 - 1) * 2 = 0 ergo:
nwns_threshold_0 = cpu1 will be hotplugged at this value
((1 - 1) * 2) + 1 = 1
nwns_threshold_1 = cpu0 will be unplugged at this value
This will regulate when we switch to lp-mode, effectively replacing the quadcore g-mode core with the ninja lp-mode core.
Two cpus are online.
(2 - 1) * 2 = 2 ergo:
nwns_threshold_2 = cpu2 will be hotplugged at this value
((2 - 1) * 2) + 1 = 3
nwns_threshold_3 = cpu1 will be unplugged at this value
etc...
(all times are in ms)
If you want to see the mpdecision magic happening:
Code:
adb shell
cat /proc/kmsg | grep 'MPDEC'
mpdecision's input event boost, aka project butter
This will boost your min cpu speed if you touch the screen or press a button and gives you full control.
In those events the min cpu freq will be risen to a predefined value (look below) on every online cpu. This boosts overall reaction times and smoothness a lot. (works similar to the qcom mpdecision binary)
Configuration files:
[email protected]:/sys/kernel/tegra_mpdecision/conf # ls
boost_enabled
boost_freqs
boost_time
All of them work like the usual sysfs files, except one special case:
boost_freqs will list all frequencies from cpu 0 to cpu x. Cpu 3 and any following cpu will share one frequency.
To change those frequencies echo the cpu number + the frequency in khz. To change the boost freq of cpu3 (and 4,5,6,7,8, etc) the echo would look as follows:
Code:
echo "3 1026000" > /sys/kernel/tegra_mpdecision/conf/boost_freqs
for cpu0:
Code:
echo "0 1026000" > /sys/kernel/tegra_mpdecision/conf/boost_freqs
Defaults:
Code:
cat /sys/kernel/tegra_mpdecision/conf/boost_freqs
910000
910000
760000
620000
Recommended governor?
Ondemand.​Why do I have no WLAN?
This kernel is too big for our boot.img with WLAN included into the kernel, so it is built as a module. That means it needs to be inserted into the kernel upon boot up, which needs to be automated for maximum comfort = userinit (init.d) support.
The zip adds init.d support to your ramdisk, if that fails for some reason the wlan module cannot be inserted.
if
Code:
adb shell lsmod
doesn't show this:
Code:
tun 14060 0 - Live 0x00000000
cifs 239646 0 - Live 0x00000000
bcmdhd 433083 0 - Live 0x00000000
Then init.d support is probably missing.
You can test it by going to /system/etc/init.d/ and executing 00wlan.
Code:
adb shell
su
. /system/etc/init.d/00wlan
Wait a few seconds and try to enable wifi and repeat the above lsmod command (should now show bcmdhd as live, you can execute 01cifs and 02tun too).
If WLAN now works, init.d support is missing.
You need to have busybox installed in order to be able to get init.d support going, this shouldn't be a problem for most people, since it is usually installed when rooting your phone anyway (and who does unlock but not root their phone? :/)
It does not matter if busybox is installed in /system/bin or /system/xbin, my script will detect the location upon flashing and patch the ramdisk accordingly.
If no busybox is found, the script will add init.d support to your ramdisk with the default location: /system/xbin/busybox. All you need to do is install busybox there and reboot your phone.
​
show-p1984 said:
Knowledge base:
(under construction)
tegra_mpdecision manual:
coming soon(tm)
Click to expand...
Click to collapse
looks great is this kernal compatible with cm10 based roms such as paranoid android
Flypants101010 said:
looks great is this kernal compatible with cm10 based roms such as paranoid android
Click to expand...
Click to collapse
Yes, ofc
Running cm10 nightlies myself.
show-p1984 said:
Yes, ofc
Running cm10 nightlies myself.
Click to expand...
Click to collapse
All AOSP roms work with Bricked
* Hello World *
What tweaks did you make to on-demand, if you don't mind me asking? The only thing I've noticed is that frequency switching seems to happen faster & more often.
Feel like flashing something tonight!
Sent from my Nexus 7 using xda premium
I tried flashing this a few times and it fails with each try.
Dabaum said:
What tweaks did you make to on-demand, if you don't mind me asking? The only thing I've noticed is that frequency switching seems to happen faster & more often.
Click to expand...
Click to collapse
I mostly adapted it to work with the lpcore while the screen is on and also with special power saving setting while the screen is off.
The 2 phase frequency was changed to accomplish that.
It also applies a powersave bias while screen is off.
Additionally I changed the settings to allow faster scaling with less load. (70% > freq incr)
Source is currently being uploaded, but since I kept the history intact it is taking ages. You can look it up there in more detail once the source is up
airmaxx23 said:
I tried flashing this a few times and it fails with each try.
Click to expand...
Click to collapse
With what message?
I guess because your recovery does not identify your device as 'grouper'.
show-p1984 said:
With what message?
I guess because your recovery does not identify your device as 'grouper'.
Click to expand...
Click to collapse
It just says failed, I've had no problems flashing anything else and I'm flashing mutilple times a day usually.
airmaxx23 said:
It just says failed, I've had no problems flashing anything else and I'm flashing mutilple times a day usually.
Click to expand...
Click to collapse
It most certainly does not say "failed" and nothing else. Look harder.
Using twrp recovery me and my beta testee had no problems at all.
show-p1984 said:
It most certainly does not say "failed" and nothing else. Look harder.
Using twrp recovery me and my beta testee had no problems at all.
Click to expand...
Click to collapse
It says "unable to open zip file. Error flashing zip."
show-p1984 said:
Yes, ofc
Running cm10 nightlies myself.
Click to expand...
Click to collapse
And just to be clear, with non-CM based ones as well? I'm running the 'Glazed' ROM....
airmaxx23 said:
It just says failed, I've had no problems flashing anything else and I'm flashing mutilple times a day usually.
Click to expand...
Click to collapse
Nothing wrong with the zipfile, maybe corrupted download? did you do md5 hash check before flash?
It's either your custom recovery or a corrupted download, period.
ps. Happy Flashing.
airmaxx23 said:
It says "unable to open zip file. Error flashing zip."
Click to expand...
Click to collapse
corrupt download? checked md5/sha1?
corrupt phone upload? checked md5/sha1?
friedsonjm said:
And just to be clear, with non-CM based ones as well? I'm running the 'Glazed' ROM....
Click to expand...
Click to collapse
As long as it is AOSP you should be fine.
But just try it and report back, then we are all a bit more enlightened
(Sorry, I can't possibly test all the ROMs out there ^^)
T-junk said:
Nothing wrong with the zipfile, maybe corrupted download? did you do md5 hash check before flash?
It's either your custom recovery or a corrupted download, period.
ps. Happy Flashing.
Click to expand...
Click to collapse
If I try downloading it directly to my tablet the resulting file is only 17.51K in size, downloading it with a computer takes care of the problem.
airmaxx23 said:
It says "unable to open zip file. Error flashing zip."
Click to expand...
Click to collapse
I get the same.
Sent from my Nexus 7 using xda premium
airmaxx23 said:
If I try downloading it directly to my tablet the resulting file is only 17.51K in size, downloading it with a computer takes care of the problem.
Click to expand...
Click to collapse
StrangerWeather said:
I get the same.
Click to expand...
Click to collapse
I guess same problem for you StangerWeather.
Try downloading on your pc, I will look into that webserver issue tomorrow. (or maybe it's a chrome issue? who knows ^^)

[MediaCenter] RPi-Media Center Beta

Welcome everyone to my RPi Media Center. This project is aimed at RPi 2 & RPi 3. Just a couple of things before we get started:​
This project aims to explain how to set up a complete multimedia center (mediacenter), a game station and a download server. All in one. Any use aimed at hacking / stealing content with copyrights / third parties without express consent is prohibited. This project is based on a set of free software that can be easily found on the internet. This project has no lucrative purpose, its sole purpose is to teach and educate people the configuration and use of the different programs. This project was originally maintained by AikonCWD and has since stopped updating the project, so i am taking it on board to get it back up and running smoothly again. Obviously there will and are hick-ups/bugs. Thus for the mean time i will keep the project in Beta until we have a fully functional release.
For DCMA reasons Kodi will be supplied with NO EXTRA ADD-ONS. Please do not ask about them Look HERE if you are such inclined to do so. We do not condone such behavior.
Features:
-Multi-Media Center: Kodi 17.4 Krypton
-Game Center: RetroPie 4.0
-Game Streaming: Moonlight 2.2.1
-Download Center(s): Transmission & PyLoad
-Workstation: XFCE, FireFox & Chromium
-Tools: a bunch of extra tools
Needed Components:
-RPi 2 or PRi3
-MicroSD SDHC card (6gb or more recommended)
-MicroUSB Charger(5Volt and 3Amp)
-Protective enclosure for the RPi
-HDMI Cable
Recommended Extras:
-Power supply cable with the ON/OFF click button switch
-Heat sinks and fan to help keep the RPi Cooler
-Wireless Keyboard and Mouse Combo
-Xbox360 Controller (USB)
Pre-Configured for ease of use:
-Everything is pre-configured for a plug and play functionality. You shouldn't have to set anything up unless you have updated the files.
-Everything is in English, Originally translated from Spanish. (Please note i can support more languages if its needed in the future)
-Protocols SSH and SMB (Samba) are enabled (Username: root / Password: aikoncwd)
-Transmission setup for maximum torrent speeds (IT IS HIGHLY RECCOMENDED TO SET THIS UP WITH YOUR OWN Username and Password! Info on how to do that can be FOUND HERE)
-Access via Zeroconf enabled (For remote control via SmartPhone)
Whats Been Disabled for Performance Reasons:
-AirPlay
-Time Addon
-RSS news reader disabled
-Library Sharing Via UPnP
Okay Lets get started with the Installation, its pretty straight forward i have shrunk the .img as low as i can for the mean time. After Beta is done i will make more of an effort to shrink the file further.
Installation:
1. Download the preconfigured BETA-RPiMediaCenter.img image
2. Record the image on your microSD card :
-Windows : Use Win32DisKImager
-Linux :
Code:
sudo pv BETA-RPiMediaCenter.img | sudo dd of=disk2s1 bs=4M && sync
-MAC : Use the Apple-PiBakery program , thanks to jagarciavi
3. Insert your microSD with the .IMG that we loaded on to the SD-Card In the previous step
4. Plug in the power
5. The Raspberry will light up (Red/Green LED's on the mainboard) and the start up splash will show.
7. RPi Media Center will start automatically at boot every time.
8. (Optional) Verify that the partition occupies 100% of your microSD with the command:
Code:
df -h
MD5 CHECK-SUM:
Code:
921d4d195a795ddef00cf221160836f6
*Verify on windows with this TOOL
After Install
It is recommended that you set-up a static IP for your Media Center. It makes things a whole lot easier if you're using Moonlight and Transmission.
Which can be done by:
Opening Terminal and Typing
Code:
nano /etc/dhcpcd.conf
Then removing # From each of these lines:
Code:
interface eth0
static ip_address=192.168.1.100/24
static routers=192.168.1.1
static domain_name_servers=8.8.8.8
And then setting up as to how you need it to. Its different for everyone.
Extras Install Guide:
Configure PyLoad (optional)
PyLoad is a program that allows you to transform your Raspberry into a direct download server . The PyLoad daemon is installed and configured, but it is disabled by default since not all users need to use it. If you want to enable and use PyLoad ... keep reading:
First of all we are going to configure the daemon so that it is auto-executed when turning on the Raspberry . Edit the cron auto-boot file with the command:
Code:
crontab -e
We are located at the bottom, locate the line @reboot pyLoadCore -daemonand remove the comment from the beginning, it should look like this: @reboot pyLoadCore --daemon( you have to put the 2 dashes in front of the word daemon ). Save the changes by pressing the keys: CTRL+ X, then Yand finallyIntro
You will have to restart your Raspberry to have the pyLoad daemon running, remember that Kodi turns on automatically, you must close it to return to the console.
We access PyLoad through a web browser using port 8000 , for example: http://192.168.1.100:8000
The default user is root and password root . In the top menu you can manage the user and change the password (recommended), just below you will find the configuration where you can edit the configuration, captchas plugins etc ... and add any premium account you have from the different hosts.
Overclocking (optional) DO SO AT YOUR OWN RISK!
I recommend enabling a bit of overclock , you'll get more fluency when moving through the Kodi menus and you'll noticeably boost performance when playing emulators. Your CPU will be able to perform faster calculations and access to ram memory or microSD disk will have lower response times.
Strongly recommend use some method of ventilation / cooling in order to avoid reaching 85C , since the RPI lower speed if it reaches that temperature
If you want you can run a benchmark (diagnostic) to test your overclock level, execute the following command:
Code:
curl [url]https://raw.githubusercontent.com/aikoncwd/rpi-benchmark/master/rpi-benchmark.sh[/url] | sudo bash
Raspberry Pi 3: Overclock settings
Edit your file nano /boot/config.txtand paste the following code, you can adjust the values ​​to have more or less overclock:
Code:
force_turbo=0 #Enable cpu-overclock over 1300MHz (default 0)
avoid_pwm_pll=1 #Enable no-relative freq between cpu and gpu cores (default 0)
arm_freq=1300 #Frequency of ARM processor core in MHz (default 1200)
core_freq=550 #Frequency of GPU processor core in MHz (default 400)
over_voltage=6 #ARM/GPU voltage adjust, values over 6 voids warranty (default 0)
sdram_freq=575 #Frequency of SDRAM in MHz (default 450)
sdram_schmoo=0x02000020 #Set SDRAM schmoo to get more than 500MHz freq (default unset)
over_voltage_sdram_p=6 #SDRAM phy voltage adjust (default 0)
over_voltage_sdram_i=4 #SDRAM I/O voltage adjust (default 0)
over_voltage_sdram_c=4 #SDRAM controller voltage adjust (default 0)
gpu_mem=256 #GPU memory in MB. Memory split between ARM and GPU (default 64?)
gpu_freq=550 #Sets core_freq h264_freq isp_freq v3d_freq together (default 300)
v3d_freq=500 #Frequency of 3D block in MHz (default ?)
h264_freq=350 #Frequency of hardware video block in MHz (default ?)
dtparam=sd_overclock=75 #Clock in MHz to use for MMC micrSD (default 50)
dtparam=audio=on #Enables the onboard ALSA audio (always use this ON)
dtparam=spi=on #Enables the SPI interfaces (default OFF)
temp_limit=80 #Overheat protection. Disable overclock if SoC reaches this temp
initial_turbo=60 #Enables turbo mode from boot for the given value in seconds
hdmi_drive=2 #Normal HDMI mode. Sound will be sent if supported and enabled (default 2)
hdmi_ignore_cec_init=1 #Avoids bringing TV out of standby and channel switch when booting (default 0)
hdmi_ignore_cec=0 #Pretends CEC is not supported. No CEC functions will be supported (default 0)
hdmi_force_hotplug=1 #Pretends HDMI hotplug signal is asserted (default 0)
start_x=1 #Enable software decoding (MPEG-2, VC-1, VP6, VP8, Theora, etc. default 0)
overscan_scale=1 #Video Output will respect the overscan settings (default 1)
disable_overscan=0 #Disable overscan configuration. Set 1 if you see black lines on TV (default 0)
disable_splash=1 #Avoids the rainbow splash screen on boot (default 0)
avoid_warnings=1 #Disable warnings (Red=over-temperature ; Rainbow=under-voltage). (default 0)
gpu_mem_256=128
gpu_mem_512=256
gpu_mem_1024=256
Read the commands well, you may want to modify some to customize your image.
Raspberry Pi 2: Overclock settings
Edit your file nano /boot/config.txtand paste the following code, you can adjust the values ​​to have more or less overclock:
gpu_mem=256
gpu_mem_256=128
gpu_mem_512=256
gpu_mem_1024=256
arm_freq=1100
core_freq=550
sdram_freq=483
over_voltage=6
over_voltage_sdram=2
temp_limit=70
force_turbo=0
initial_turbo=60
hdmi_drive=2
hdmi_ignore_cec=0
hdmi_ignore_cec_init=1
hdmi_ignore_hotplug=0
hdmi_force_hotplug=1
#disable_overscan=0
#overscan_scale=1
#overscan_left=49
#overscan_right=49
#overscan_top=29
#overscan_bottom=25
max_usb_current=1
dtparam=audio=on
dtparam=spi=on
You will find a script called bcmstat that allows you to accurately measure the hardware status of your Raspberry, you can see at what speed your CPU is going and at what temperature it is, for this it executes:
/root/bcmstat.sh
MoonLight
*Coming Soon*
DOWNLOAD​HERE
Download Option#2
​
Credits:
AikonCWD for his amazing original work
@Valkiry for continuing the development
BUGS
-Desktop/Emulationstation and wifi addons are currently not working.
Just use These commands for what you need when it goes to the terminal:
Desktop Environment:
Code:
startx
RetroPie:
Code:
emulationstation
Wifi
Code:
./RetroPie-Setup/retropie_packages.sh 829 gui
Bluetooth
Code:
./RetroPie-Setup/retropie_packages.sh 803 gui
I will fix these at a later date But for the mean time let me know how you go
Raspberry Pi Mediacenter
Hi. The previous version from AikonsCWD impressed. I was looking for ways to update KODI on Krypton, found your topic. Thanks for the update, but the scripts do not work, the command line falls out. Are there plans to upgrade from beta? I was looking for a way to cross Raspbyan XFCE and KODI, but really nothing happened. Do not tell me how to update or build your image? Thank you.
P.S. English is not my favorite language.
AlexFBG said:
Hi. The previous version from AikonsCWD impressed. I was looking for ways to update KODI on Krypton, found your topic. Thanks for the update, but the scripts do not work, the command line falls out. Are there plans to upgrade from beta? I was looking for a way to cross Raspbyan XFCE and KODI, but really nothing happened. Do not tell me how to update or build your image? Thank you.
P.S. English is not my favorite language.
Click to expand...
Click to collapse
Thanks for your feedback, I'm looking at updating it this year but I'm not sure when that will occur. The scripts don't work as stated. If you exit out of kodi you will be met with the command line which is where you run said commands to get them to work. Kodi is updating to 18 later this year so I might update the project to support 18 and the scripts till then this runs as intended.
Hello and thanks for the effort!
Although the image is working fine in my RP2+, I tried it into an RPB3+ and looks the OS is not booting.
Any idea what's happening? I tried default values and also overclock values, neither is making bootstrapping the OS.
kikobeats said:
Hello and thanks for the effort!
Although the image is working fine in my RP2+, I tried it into an RPB3+ and looks the OS is not booting.
Any idea what's happening? I tried default values and also overclock values, neither is making bootstrapping the OS.
Click to expand...
Click to collapse
It's not for 3b+.
Only RPi2/3/3B

problem with manually hotplugging cpuX in rooted android device

Hi every one
I have a Lenovo vibe p1a42 which is rooted properly along with the SuperSU.
I'm going to write a custom userspace governor, using cpufreq and hotplug facility but I have some problem with online and some other entries in sysfs.
I have 8 cores and it is possible to change the corresponding entries in sysfs. I can successfully selecting the userspace governor by:
Code:
adb shell
su
echo userspace > /sys/devices/system/cpu/cpuX/cpufreq/scaling_governor
I do the last line for each core and then I set the valid frequency by writing to corresponding scaling_setspeed files.
I know it is possible to dynamically on/off each core by writing 1/0 to the corresponding /sys/devices/system/cpu/cpuX/online entry.
However, I cannot change the status of some processor to online by:
Code:
echo "1" > /sys/devices/system/cpu/cpuX/online
two cores of eight are always off and it seems that it cann't be controlled, manually, in this manner.
I know there is some kind of hotplug manager in android devices which activate appropriate core numbers according to the load.
How can I get ride of such hotplug manager and get full access to all cores due to the maximum performance?

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