Perseus alpha35 (06/04):
Further rewrote the in-kernel audio controls:
Threw out the old detection methods for something more robust.
This particularly enables non-cellular applications such as Skype, Viber, and so on to be detected correctly. A "calling" state now includes any and all use-cases where the audio is outputted via the phone's earpiece. This fixes microphone levels for such apps to correctly use the calling sensitivity value.
Added microphone level for camera use, this state is enabled whenever a camera stream is active. It should give more options into adjusting things to your likings.
By now the sound engine has only little similarities to Boeffla, any bugs and feedback now go directly to me.
Developers only: MHS: Added a new small tool for tracking media use and reporting it to other in-kernel drivers. Capable of detecting video recording, decoding and camera streams for now. See commit for more info.
mDNIe control changes:
Removed several controls in STweaks simply because people misunderstood them or misused them, or they simply had no rational use.
Video detection, now with the help of MHS, is no longer limited to the stock video player. Any video players using hardware decoding will now be able to make use of edge enhancement, HDR and DNR, this includes any web-based players and the YouTube app.
Custom LED controls implemented; Exposed most variable controls for the notification LED via sysfs and STweaks (LED tab). :
Control LED brightness. Currently the OS dictates, depending on brightness detected by the light-sensor, wether to run the LED in a low-power mode or in a high-power mode, you can now set brightness for both.
Blinking control, this is basically the shape of the wave-pattern that the LED blinks in, you have several controls, best described the data-sheet description:


The fade-in time period is TT1 in the graph, while the fade-out period is TT2.
Slope (1/2/3/4) detention time represents DT1,2,3,4 in the graph, it controls how "steep" the four different curves are.
The LED fading checkbox simply switches between having the detention times controlled by the sliders to having them to 0 (Stock blinking behaviour).
The ZRam control is found in the I/O Tab in STweaks. Set it to 0 to turn it off completely, any other value to turn swap on. Changing value takes about ~10-20 seconds depending how loaded the disk is with swap pages so don't piss your pants if it doesn't react immediately.


Perseus alpha34 (22/03):
Updated sound engine. Based on Boeffla (Andip71)sound but custom fork with rewritten system interface and some other code re-factorings.
Should fix all FM Radio issues.
Brings us saturation prevention for the equalizer.
Privacy mode.
Microphone level control
You now have control over the speaker equalizer via sysfs, please visit /sys/class/misc/wolfson-control/ the controls are self-explanatory.
I removed the equalizer pre-sets from STweaks, if you want, set them manually:

Bass-extreme: 12 8 3 -1 1
Bass and Treble: 10 7 0 2 5
Treble: -5 1 0 4 3
Classic: 0 0 0 -3 -5
Pleasant for ears: 4 3 2 3 1
Eargasm: 12 8 4 2 3
Enabled ZRam by default with disk size of 200mB and swappiness of 90%.
Applied a requested patch which allows PCs to be booted off from the phone storage.

Perseus alpha33 (26/02):
Revamped and hopefully final version of mDNIe controls:
The controls work now on two levels: First we have a master sequence that overrides any and all of Samsung's settings; The master sequence is calibrated to sRGB norms on a precision level equalling and even surpassing the iPad3/4 with help of professional equipment (Spectrophotometer) and professional hands. All credit goes to Slimer777 for his incredible job in doing this.

Calibration data:



Simple report: Download
Detailed calibration report: Download
Advanced colour management report: Download

(Please note that the "before" values represent the raw screen output without use of mDNIe, these values don't represent any of the live profiles)

The master sequence works as as the calibrated base; for people not wanting to bother further with any more controls, you simply enable this and you're done. Please keep in mind that every screen is slightly different and variations in manufacturing affect image output; this works as a base calibrated as close as possible to sRGB / Rec. 709 specifications.

Second part is the register hook, it catches effect values and modifies them by applying delta values available as controls in STweaks and in /sys/class/misc/mdnie/hook_control/.

Leaving both these options will give you Samsung's default values, plus the black crush fix.

The register hook, while used on Samsung's profiles, is not capable to alter effects which are not integrated in that screen profile's value sequence, the "Movie" profile for example lacks some effects present in the "Dynamic" profile. The same is valid when having different scenarios, the "Camera" scenario will use different effects in its base than the "UI" scenario. To fully explore all possible effects, use the Master profile as it integrates all effect values known.
Each control has a master kill-switch which enables or disables the effect. This varies by profile and scenario, so you have control to only "toggle" the switch, whatever its state may be in.
Digital noise reduction - Reduces and flattens out grain. Advanced controls are found in the hook_control folder with the dnr_ prefix.
High dynamic range - A HDR effect which brings out details in dark and extremely bright scenes.
Digital edge enhancement - An edge enhancement effect. What we previously called "sharpening". Divided in controls for radius, amount and threshold. Read the Wikipedia page for more information. More advanced controls found in the sysfs under the de_ prefix.
For the above three effects, scenario consideration is taken into account. You can enable/disable them depending when you want it to be applied. Please be aware only the stock applications trigger the scenarios. I will try to enable at least the video scenario depending on when the hardware decoder is active in the future so that they are enabled also in third-party video players.
Chroma saturation control - Same as in previous version but with fixed labels.
Colour temperature control - By default this is disabled on all profiles, however, if your screen has a tint to it, this is the first control you should try to fix as it alters temperature on all channels.
The SCR controls are colour channel filters working on the Red, Green, Blue, Yellow, Cyan, Magenta, White, and Black channels.
Imagine the controls as manipulating the corners of the RGB cube:



(Credit to Wikipedia for the graphic)

By controlling the RGB coordinates of each corner/channel we can mould the cube into a different shape. At the same time the cube is projected onto a hexagon; the perimeter / angle of the hexagon represents the colour hue, the radius of the hexagon from the middle represents chroma. We can use the chroma saturation controls to "push in" each corner of the cube, while moulding the corner's directions with the RGB controls. The RGB coordinates can be transformed into the HSL space space if needed, however I didn't include this function yet as I don't feel the need for it.

STweaks has controls for the RGBYCMW channels, the K (Black) channel I left out because it makes no sense in altering it, but can be found in the sysfs folder.
Several controls have a "factory setting" switch, this are the burned in-hardware values for some controls, they overwrite the controls themselves.
Additionally to the controls exposed to STweaks, there are several other effects and modifiers exposed in the sysfs interfaces. This also includes the gamma curve controls for levels 0-255 in steps of 16.

There are also some additional unidentified configurables which I wasn't able to properly give a name to or had no effects: Dithering, ABC (Seems to give a gamma brightness boost), SCC, UC, and MCM (Colour temperature) configurables whose exact effect isn't documented.

Perseus alpha32 (29/01):
Charging control implemented. This is my own version.

Charging currents:
Charging currents are dictated by input and charging current limits. The input current is the current flowing into the device through the USB port at 5V. The charging current is the current delivered to the battery at usually 4.35V. The device can have a higher charging current than input current because of the voltage differential, usually a 15% discrepancy. You can also have much higher input currents than charging currents, this can be useful when you are using the device in situations like gaming and charging your battery at the same time, provided your charger actually can provide the power.
There are 3 USB charger type categories: DCP / Dedicated Charging Ports which also includes AC chargers, but also special USB plugs; SDP / Standard Downstream Ports which usually includes almost all data enabled USB ports, and CDP / Charging Downstream Ports which includes also data enabled USB ports but which are designed to provide more power, usually on newer laptops where the USB port has a lightning logo next to it. More info here. - Technical explanation here.

Charging logic:
Stable margin removal option. The charger chip is capable of detecting unstable charging sources; it dynamically reduces the input current in 100mA steps until it detects a stable voltage input [We don't have the charger chip datasheet, so the technical explanation is a bit blurry here on how it decides that it's unstable]. It further reduces it by 100mA as a safety margin, you can disable this now.
Complete disabling of unstable power detection. This simply ignores unstable power sources and leaves the input current limit at its set up value. This will fix charging problems people have been reporting. However, please use it at your own risk, the S3 chargers which have had these symptoms clearly have some issue in their hardware so you might actually kill them with this option enabled as there is no protection from the phone's side anymore.

The actual input current limit can be read out in /sys/devices/platform/samsung-battery/power_supply/battery/current_max, so you can see the real limit there, it's the closest thing we have to the actual charging current on stock values since there is no hardware to read out the live currents.

Voltage control:
Hard voltage control: 4.20, 4.35V, and 4.40V charging voltages are available. This is included for anybody running on third-party batteries, whom most of them have a 3.7V battery chemistry as opposed to the 3.8V on the stock battery. These batteries should be charged at 4.2V instead of 4.35V.
Soft voltage control: As opposed to the hard voltage control which is the voltage which the charger chip provides to the battery while charging, the soft-voltage is the battery voltage itself. 3.7V batteries have a top-off voltage of 4.2V and 3.8V again 4.35V. The default limit on the stock battery is 4.30V before the charger logic stops and considers the battery as full. This is also merely provided for 3rd party batteries which should be charged at lower voltages. If you overcharge your battery beyond these what are safe considered voltages, such as raising the default 4.30 top-off voltage to the design 4.35V or even higher, you are running into the risk of damaging the battery or even causing it to melt-down. Use at your own discretion.
mDNIe sharpness and RGB/YCM chroma saturation control in STweaks:

I started implementing sharpness control in STweaks and went a bit over-board instead of a simple checkbox; You now have controls over the mDNIe registers as a delta offset value compared to the stock register values. I'm applying the offset to all mDNIe profiles and scenarios which have the specific post-processing effect active in that specific scenario. Meaning, that you start with the default profile; Dynamic / Standard / Natural / Movie and have the delta offset applied on top of that.
Sharpness delta. This is what brought most of the quality difference in hardcore's original tweaks. You can now fine-tune it to your own taste, and also take into regard that it produces a different effect for each screen profile while having the same delta - the base values between the profiles are different.
DE control - I don't know what this actually does and I couldn't discern much difference between the values, but it used to be disabled in hardcore's tweaks.
Chroma saturation control: This is composed of 2 values for each RGB/YCM channel. See the Munsell color system for a visual representation of the values controlled here. The chroma curve control describes the curve weight based on chroma intensity, the chroma gain is the chromatic gain that is being applied on the respective channel. Chromatic saturation weight is again another multiplier for all channels combined. I have not managed to properly identify the chroma grey threshold and its effects.

Basically this is like an RGB control on steroids, and enables you to tune your screen to your own liking and calibrate it as you wish. Please note that not all scenarios in the profiles have chroma saturation effects, the Movie profile for example has no effect applied to the UI so chromatic control has no effect on it.

I also want to state that the above are my deductions and theories on the descriptions of these controls, I'm not familiar enough on colour theory to be able to confidently say that these descriptions are correct, and the controls are a work-in-progress for now. Experts are welcome to contribute here.
Front buffer early suspend delay option for those who have issues with the CRT animation.
Did some refactoring on the Mali drivers and fixed a bug which may have caused less capable undervolting than the stock implementation.

Perseus alpha31 (09/01):
Removed my own security fixes and replaced them with the official Samsung one. I guess it can now be disclosed: exynos-mem was only one of multiple entry-points for the memory exploit. We discovered the s5p-smem exploit ourselves back in December but kept it quiet, I fixed that one back in version 29.2 without mentioning. Nobody was secure from a smart exploiter up until then, SuperCurios or Chainfire's software fixes are also just patching a single hole in what is a Swiss cheese. Kernels >v31 and beyond stock LLA are now the only truly protected ones.
Samsung's fix for the sudden death syndrome (SDS) included. It is caused by eMMC failure on phones with VTU00M 16GB internal memory chips with revision 0xF1. You can check your phone with the "eMMC Brickbug Check" in the Play Store (Ignore the message if it says you're not affected, the type and revision is what matters). The patch is a firmware soft-patch that is applied on every boot and MMC resume, it is not a permanent fix. You will need to stay forever on kernels which include the patch, this also includes updated recoveries and their embedded kernels.
Some other minor MMC changes extracted from Update 7 sources.

Perseus alpha30 (06/01):
Internal and memory voltage control. This is the first and only working implementation out there. Memory interface voltage is exactly what it the name implies, the voltage on the chip-to-chip interface from the SoC to the memory chip. Internal voltage is the whole SoC voltage excluding CPU, GPU, and the MIF. This includes all auxiliary function blocks such as the ISP/Image signal processor, camera interfaces, I/O interfaces, display controller and the MFC/Multi function codec hardware video de-/en-coder.

- Internal voltage respectively memory voltage table is found in /sys/devices/cpu/busfreq/ as int_volt_table or mif_volt_table
- The frequencies are defined as OPP's (Operating performance points), internal frequency and memory frequency (And voltages) together as a pair form an OPP. If you want to change the voltages through the sysfs files, keep in mind how you change them. MIF voltages are stored independently with each OPP step. INT voltages are stored in respect of their frequency key.

- Default OPP steps are: 440220, 293220, 293176, 176176, 147147, 110110. The first three numbers represent the memory frequency, the other three the internal base frequency. For example 293220 means the memory interface is at 293MHz (586MHz DDR) and the internal frequency is 220MHz.

- The voltages in STweaks are sorted out through some magic and are frequency unique, I recommend using that for controlling them.
Busfreq logic control added into STweaks, this includes all the already available configurables in the stock kernel with added explanations and I supplemented it with a sampling rate parameter.
Sensorhub driver and firmware updated.
Touchscreen driver and firmware updated.
Replaced pegasusq's runqueue detection logic with a new more superiror and precise in-scheduler collection logic, I found that the real runqueues are much less than what was previously reported. This should help a lot with hotplugging.
Enabled AFTR by default since we are now running very often in single-core mode. Keep in mind this mode is WFI Idle + LPA + AFTR.
Fixed a kernel bug which was eating up randomness entropy. This is related to that whole seeder business - please don't use any of those fixes. I also disabled virtual addresss randomization and at the same time disabled entropy generation from the block layer, which should avoid I/O overheads.
I raised the LPA CPU idle target residency, and fixed a bug in the ABB control for voltages for 900 and 1000MHz. I suspect these two to be causes of the sudden reboots for Note 2 users, and may fix them.

Perseus alpha29 (18/12):
I'm doing a quick release because of the security fix, not very feature rich.
Fixes the exynos-mem security hole. This is my own fix and will not break camera. Read about it here. You don't need to use Chainfire's or Supercurio's fixes, in fact, you shouldn't use them because of the camera.
Increased max brightness by 50 candela. (Thanks nebkat)
Added GPU utilization control to sysfs and STweaks.
Changed default GPU thresholds to more relaxed values (75/17)
Added block device read-ahead control to STweaks. Additionally set the default read-ahead for internal memory to 256kB and 1mB for SD cards.

29.1: - Reverted the Wifi drivers back.

Perseus alpha28 (13/12):
28.1: I reverted the striked out changes due to exFat. I changed my mind due to demand. I apologize for the chaos.
Introduced ROWv4, ZEN as new I/O schedulers;

FIOPS is the new default scheduler, it's a CFQ like fairness scheduler optimized for solid state storage. ROW should be the actual better performer here as it has superior logic, but I didn't set it as default because of some lags when installing applications. ZEN is just a mix of SIO and Deadline and nothing special. BFQ seems to underperform. I recommend the first two over everything else, and added the latter two just for comparison's sake.
Added dynamic Fsync control (Faux123). It disables Fsync only when the screen is on. Enabled by default (Fsync off).
Changed some logic on when the adaptive scaling voltages are applied in the kernel init sequence. This fixes GPU voltages not being applied at boot and also fixes the wrong default voltages being displayed in STweaks.
STweaks tab for I/O with scheduler selection for each device block and also dynamic Fsync.
New script side feature in the uci.sh framework: When inserting an override.profile file into the profile folder (/data/.perseus), the entries in the override profile will supersede the ones in your default profile. You can use to make CWM zips to turn off set at boot flags or to share targeted settings with others. The override is applied once at boot after which the profile deletes itself.

Perseus alpha27 (02/12):
Sources updated with various updates from N8000u1 base. Included are following important changes;
Wacom drivers, Sensorhub firmwares, touchscreen updated.
Updated wireless drivers.
Adds a delay to SD Card host controller power-down, which I assume is to prevent some corruption. There is a specific change to Toshiba 19nm manufactured SD Cards, these are mostly the latest SanDisk 64GB cards. Together this may fix issues users have had.
Updates the camera interface, Video4Linux and Jpeg2x drivers and this fixes compatibility with 4.1.2 ROMs. Backwards compatibility is retained.
Other updates which are more transparent to the end-user.
Removed the sharpness modifications due to demand.
LTE devices only: Disabled CPU frequency clock while connected to a cable.
New PegasusQ logic:

- We now have additional conditionals on the hotplug logic which checks the total load across all cores and is able to bias towards a specified core count if the load is low. This is useful because previously we could have had frequency spikes and lots of low-load threads triggering a hotplug-up while in reality it wasn't needed. The core count is more biased on keeping 2 cores online in most cases now unless really needed.

- The way freq_step is handled has changed. We now take the remainder of load space above the up threshold and dissect it into three slices each having different frequency increase step sizes. The first two slices are each of up threshold differential size, lop-sided towards the lower end of the load scale. We specify the slice size and freq_step delta in regard to the original freq_step.

- A new fast-down scaling logic; if frequency is beyond a certain threshold, we take a heightened up_threshold value solely on the down scaling logic to scale down more aggressively from the higher frequencies.
Audio enhancements (Gokhan Moral's port of Voodoo sound) re-enabled. Call-detection is currently broken (Effects are applied during call while they shouldn't be), but this fixes the effects not being applied otherwise. (Thanks to sjkoon for finally debugging that)
STweaks. This is my custom implementation of the kernel side, based on Gokhan Moral's initial implementation.

- CPU overclocking and voltages interface.
- Configurables for all CPU governor settings.
- GPU overclocking and voltage interface.
- Interface for audio enhancements.

Just an explanation in regard how uci.sh (Script framework on which STweaks is built) works: The settings displayed in STweaks are the defaults with which the kernel boots the first time and are saved as a profile. The saved profile settings are applied before anything else on boot, including init.d. The values displayed in STweaks do not correspond to live kernel values, but the values saved in the profile. As such if there is another app or script setting something after STweaks, it will not represent those changes. Please be aware of that. I included labels with the default values for almost all values, they are dynamically generated.

*Note: Currently the labeled default GPU voltages do not correspond the real default ones as the ASV voltages get applied after I'm reading them out for the interface on early boot. I'll fix this later on.

19/11 - Perseus alpha26.1:
Disabled net_os_rxfilter_add_remove userspace/ROM filter management in the Wifi driver to prevent the operating system of enabling unwanted pass-through multicast and broadcast filters while in standby.

14/11 - Perseus alpha26:
Updated MTP drivers back to the newest version. Fixes some inconsistencies which some people had.
Further increased MMC command timeout from Linux default 300ms to 3s in trying to finally squash errors and "unexpectedly removed SD card" after resume.
Ported Gokhan Moral's mDNIe interface and also added colour tone modes on top of the scenarios. System interfaces are found in /sys/class/misc/mdnie . Input syntax is the same as the output syntax, or, single register-value pairs as a single line in the output format, except 0xFF which is a terminator value.
Increased default sampling rate down to 30ms from 50ms for a bit more fluidity.
Updated Sensorhub drivers from latest sources.
Updated Wacom and E-pen drivers from latest sources.
LTE devices only: Updated some power management functions on the MDM modem from latest sources; this will drastically decrease the amount of wakelocks on mobile data and improve battery life.

24 octobre 2012 - Alpha 25-3 :
- current_freq shows the current frequency. This is if somebody likes to make a monitoring app or something.
- time_in_state shows the time spent in µS on each frequency step. Echo 0 to it (by default disabled) to disable it, 1 to enable monitoring, and any other numerical value to reset the timekeeping back to 0.

23 octobre 2012 - Alpha 25 :
-Raised and fixed USB, MISC charging rate to 900mA.
-Enabled OTG car dock, smart dock and music dock charging. Alternatively this can be triggered if you short pins 4 and 5 of the USB connector with a 40.2kΩ, 64.9kΩ or 619kΩ resistor.
MTP fixed on OSX devices.
-Fixed ROM power savings feature, this was originally broken because of the addition of overclocking, and the same interface that Samsung uses for limiting CPU speed in power savings mode also limits the max frequency to factory defaults. This is now fixed and powersavings mode will throttle to 1000MHz.
-Fixed mis-configuration of the default audio settings to improve sound quality, sorry about that.
-Ripped out the old GPU scaling mechanisms and scaling logic and replaced it by something new.

The old mechanism was getting overly complicated and was a remnant of the Galaxy S2 where we merely had 2 frequency steps originally; this was fine then, but isn't anymore today. The threshold fuçkery was confusing to a lot of people and people generally misconfigured their settings with inane values.

The new scaling logic follows a more CPU governor-like approach: Scaling up logic is basically the same as before: the GPU will scale up to the next frequency step when the load reaches a certain threshold. Up-scaling takes place step by step. The up-scaling threshold is now global and a single value applies for all frequency steps.

Scaling down in the new logic resembles more like the ondemand method; The scaling down takes place when the load goes under a certain threshold. This threshold is dictated by the up-threshold minus a down-differential. By default they are 90 and 10. Triggering this condition we scale down into a dynamic frequency target capable of accommodating and dictated by the load level. In plain words, we can scale from max frequency immediately down to the lowest one. This will improve power consumption.
-Ripped out the old GPU control interfaces and rewrote it with something new to accommodate the new logic. Your old scripts won't work anymore.

We now have 10 frequency steps to the user's disposition; defaults are: 54 108 160 266 350 440 533 640 733 800.


15 octobre 2012 - Alpha 24-4 :

-Removed Touch Boost in exchange for the Flexrate mechanisms. See below in changelog for more information.
-Ported LCDFreq to the Note 2. See below in changelog for more information. The flickering is sadly still there on the Note 2.
-Fixed undervolting below 850mV, previous undervolting below that value would be disregarded and 850mV would be applied in reality, even if it showed up the entered value.
-Improved boot time by about 22 seconds: Fixed a major bug in the sensor hub firmware update logic, in the stock kernel and currently published sources the sensorhub firmware is being flashed over the current one on every boot, regardless if the payload firmware is the same as the current one. The update is about 130kB but it is done over the incredibly slow i2c bus, so this slowed down boot considerably. The reason was mis-labeling of the kernel firwmare version in the driver and failure to check if firmware was actually newer.


11 octobre 2012 - Alpha 24-3 :

-Sharpness fix for the display included. Courtesy of hardcore.


09 octobre 2012 - Alpha 24 :

-Galaxy Note 2 source and kernel merge. Various platform fixes included from patching up from update5.
-Fixed Mali GPU interface bugs relating to staycount, and lowered undervolt-soft limit down to 600mV.
-Feature recap for new Note 2 users:
- Overclocking up to 1.8GHz and undervolting support through SetCPU. Note 2 users have a better quality CPU than Galaxy S3 users, so mind the default high voltages on those frequencies.
- GPU overclocking and undervolting support.
- A great amount of changes to improve battery life.
- Features which are in strikethrough in the changelog below do not work/are not ported on the Note 2, yet.

Version 7100 (GN2 classique)
Perseus.alpha35-N7100-CWM.zip pour recovery
Perseus.alpha35-N7100.tar pour odin

Version 7105 (GN2 4G)
Perseus.alpha35-N7105-CWM.zip pour recovery
Perseus.alpha35-N7105.tar pour odin