[KERNEL][TW/LP][16.07.15][SM-T800 & T805] IronKernel V2.X STweaks

  • Auteur de la discussion kyo-ito
  • Date de début
kyo-ito

kyo-ito

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IRON KERNEL


Avertissement : Cette opération comporte des risques. Ni PhonAndroid, ni moi-même ne peut être tenu responsable des éventuels problèmes rencontrés. Pensez à effectuer une sauvegarde avant d'installer ce Kernel

Merci à
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Source
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Code:
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V2.2.5 16.07.15:
- Fixed "slow" charging (Thanks to AndreiLux and UpInTheAir!)
- Incrased sound so it will be a louder by default
- Some other small ramdisk fixes

V2.2 08.07.15:
- Update to latest linux mainstream (3.4.108)
- Updated ramdisk source to OE3
- New source patches from official kernel opensource center (samsung)
- this does only work on the newer bases, as BOE3, the old ones will get a bootloop!

V2.1 16.05.15:
- Fix stweaks problems
- Voltage is still NOT working
- add tripndroid scheduler
- add row scheduler
- add and enable UKSM (ultra kernel samepage merging)
- update ramdisk to latest versions
- f2fs
- update linux to 3.4.107
- more stuff I may forgot

V2.0 10.04.15:
- Full lollipop compatible! (not with kitkat anymore!)
- Support CIFS
- Overclock to 2.0 GHz (other will be back soon)
- Include all features of all previous releases! Such as stweask, overclocked gpu etc.
- Based on latest samsung opensource T800XXU1BOCC
Was a lot of work to port all to Lollipop

V1.4 23.03.15:
- It is simply to much to write everything here.. what I did
- Wolfson Control for the sound on our Tab S
- Added voltage control (doesen't work 100%)
- sched: Add an rq migration call-back to sched_class
- sched: Account for blocked load waking back up …
- sched: Normalize tg load contributions against runnable time
- sched: Refactor update_shares_cpu() -> update_blocked_avgs()
- sched/fair: Set se->vruntime directly in place_entity()
- sched: provide per cpu-cgroup option to notify on migrations
- sched: Make sure to not re-read variables after validation
- sched: Add WAKEUP_PREEMPTION feature flag, on by default
And this goes on for like 2 or 3 pages lol So the changelog is tooooooo long.

V1.3.5 08.03.15:
- Prerelease of V1.3 was on the ironrom
- Script auto-removes all knox containors/apps
- cpufreq: Retain only online cpus in managed_policy->cpus
- cpufreq: make the "scaling_cur_freq" sysfs entry pollable
- cpufreq: Make the "scaling_governor" sysfs node pollable
- cpufreq: Save and restore min and max frequencies
- fix some missing stuff with default governor
- cpufreq: Notify governors when cpus are hot-[un]plugged
- Updated nightmare and zzmoove governors
- net: ipv6: Add a sysctl to make optimistic addresses useful candidates
- fs/proc/task_mmu.c: add user-space support for resetting mm
- net: ipv6: allow choosing optimistic addresses with use_optimistic
- sched/idle: Avoid spurious wakeup IPIs
- cpufreq: Return directly in __cpufreq_get if policy is NULL
- new relation between governors
- ARM: 8226/1: cacheflush: get rid of restarting block

V1.2 01.03.2015:
- Built with latest toolchain (2015.02) by christopher83
- Use frandom from now
- Enable dynamic page writeback with earlysuspend
- Better battery charging control (kernel and stweaks)
- Auto install the right sTweaks version
- Reduce overestimating rq->avg_idle
- Optimize find_busiest_queue()
- Some CPUfreq optimizations
- Dynamic sync control with earlysuspend support
- Lowmemorykiller: implement task's adj rbtree
- Check free memory when tasks switch to background
- Dynamic FSync
- SOO Much more but I don't remember all
- After flashing the kernel, it will be successfull, but then show an error (because of mounting partition) don't worry, just reboot. Just ignore it

V1.1 26.02.2015:
-Temporarly removed Intelli-Plug
-Added voltcontroll for CPU
-Added Stweaks support and Stweaks app (all credits and stuff goes to @googy_anas and @Kryten2k35)
-Hell lot of improvements
-Init.d support and busybox support
-GPU overclock to 733MHz
-CPU overclock to 2.1GHz (sorry, I couldn't get it stable )
-for more what I had done, visit here: Commits IronKernel
-Added fast charge support

Beta V1.0 on 20.02.2015:
Initial release !



* Under-volter peut être cause d'instabilité

* Over-clocker peut être cause de freeze/reboot, d'échauffement & de dommage pour le CPU, GPU ou l'hardware




● Une Galaxy Tab SM-T80X
● Un Custom Recovery (CWM, TWRP, PhilzTouch) -----> PhilZTouch
●Pour le v2.2 + un Firmware BOE3 minimum.


1 Téléchargez le Kernel
2 Copiez le dans la Tab
3 Redémarrez en mode Recovery
4.Faites un Wipe Cache, Dalvik / Art
5 Selectionnez le fichier zip et installez le
6 Redémarrez (Reboot system now)

Si vous avez des problèmes avec sTweaks affichant "loaded", mais que rien ne se passe, utiliser un root explorer, rendez-vous dans system/xbin, copiez Busybox and collez le dans /sbin !



T800





T805

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Governors:
Original Thread:
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crédits

1: OnDemand
2: OndemandX
3: Performance
4: Powersave
5: Conservative
6: Userspace
7: Min Max
8: Interactive
9: InteractiveX
10: Smartass
11: SmartassV2
12: Scary
13: Lagfree
14: Smoothass
15: Brazilianwax
16: SavagedZen
17: Lazy
18: Lionheart
19: LionheartX
20: Intellidemand
21: Hotplug
22: BadAss
23: Wheatley
24: Lulzactive
25: Pegasusq/Pegasusd
26: hotplugx
27: AbissPlug
28: MSM DCVS
29: IntelliActive
30: Adaptive
31: Nightmare
32: ZZmove

1: OnDemand Governor:
This governor has a hair trigger for boosting clockspeed to the maximum speed set by the user. If the CPU load placed by the user abates, the OnDemand governor will slowly step back down through the kernel's frequency steppings until it settles at the lowest possible frequency, or the user executes another task to demand a ramp.

OnDemand has excellent interface fluidity because of its high-frequency bias, but it can also have a relatively negative effect on battery life versus other governors. OnDemand is commonly chosen by smartphone manufacturers because it is well-tested, reliable, and virtually guarantees the smoothest possible performance for the phone. This is so because users are vastly more likely to bitch about performance than they are the few hours of extra battery life another governor could have granted them.

This final fact is important to know before you read about the Interactive governor: OnDemand scales its clockspeed in a work queue context. In other words, once the task that triggered the clockspeed ramp is finished, OnDemand will attempt to move the clockspeed back to minimum. If the user executes another task that triggers OnDemand's ramp, the clockspeed will bounce from minimum to maximum. This can happen especially frequently if the user is multi-tasking. This, too, has negative implications for battery life.


2: OndemandX:
Basically an ondemand with suspend/wake profiles. This governor is supposed to be a battery friendly ondemand. When screen is off, max frequency is capped at 500 mhz. Even though ondemand is the default governor in many kernel and is considered safe/stable, the support for ondemand/ondemandX depends on CPU capability to do fast frequency switching which are very low latency frequency transitions. I have read somewhere that the performance of ondemand/ondemandx were significantly varying for different i/o schedulers. This is not true for most of the other governors. I personally feel ondemand/ondemandx goes best with SIO I/O scheduler.


3: Performance Governor:
This locks the phone's CPU at maximum frequency. While this may sound like an ugly idea, there is growing evidence to suggest that running a phone at its maximum frequency at all times will allow a faster race-to-idle. Race-to-idle is the process by which a phone completes a given task, such as syncing email, and returns the CPU to the extremely efficient low-power state. This still requires extensive testing, and a kernel that properly implements a given CPU's C-states (low power states).


4: Powersave Governor:
The opposite of the Performance governor, the Powersave governor locks the CPU frequency at the lowest frequency set by the user.


5:Conservative Governor:
This biases the phone to prefer the lowest possible clockspeed as often as possible. In other words, a larger and more persistent load must be placed on the CPU before the conservative governor will be prompted to raise the CPU clockspeed. Depending on how the developer has implemented this governor, and the minimum clockspeed chosen by the user, the conservative governor can introduce choppy performance. On the other hand, it can be good for battery life.

The Conservative Governor is also frequently described as a "slow OnDemand," if that helps to give you a more complete picture of its functionality.


6: Userspace Governor:
This governor, exceptionally rare for the world of mobile devices, allows any program executed by the user to set the CPU's operating frequency. This governor is more common amongst servers or desktop PCs where an application (like a power profile app) needs privileges to set the CPU clockspeed.


7: Min Max
well this governor makes use of only min & maximum frequency based on workload... no intermediate frequencies are used.


8: Interactive Governor:
Much like the OnDemand governor, the Interactive governor dynamically scales CPU clockspeed in response to the workload placed on the CPU by the user. This is where the similarities end. Interactive is significantly more responsive than OnDemand, because it's faster at scaling to maximum frequency.

Unlike OnDemand, which you'll recall scales clockspeed in the context of a work queue, Interactive scales the clockspeed over the course of a timer set arbitrarily by the kernel developer. In other words, if an application demands a ramp to maximum clockspeed (by placing 100% load on the CPU), a user can execute another task before the governor starts reducing CPU frequency. This can eliminate the frequency bouncing discussed in the OnDemand section. Because of this timer, Interactive is also better prepared to utilize intermediate clockspeeds that fall between the minimum and maximum CPU frequencies. This is another pro-battery life benefit of Interactive.

However, because Interactive is permitted to spend more time at maximum frequency than OnDemand (for device performance reasons), the battery-saving benefits discussed above are effectively negated. Long story short, Interactive offers better performance than OnDemand (some say the best performance of any governor) and negligibly different battery life.

Interactive also makes the assumption that a user turning the screen on will shortly be followed by the user interacting with some application on their device. Because of this, screen on triggers a ramp to maximum clockspeed, followed by the timer behavior described above.


9: InteractiveX Governor:
Created by kernel developer "Imoseyon," the InteractiveX governor is based heavily on the Interactive governor, enhanced with tuned timer parameters to better balance battery vs. performance. The InteractiveX governor's defining feature, however, is that it locks the CPU frequency to the user's lowest defined speed when the screen is off.


10: Smartass
Is based on the concept of the interactive governor.
I have always agreed that in theory the way interactive works – by taking over the idle loop – is very attractive. I have never managed to tweak it so it would behave decently in real life. Smartass is a complete rewrite of the code plus more. I think its a success. Performance is on par with the “old” minmax and I think smartass is a bit more responsive. Battery life is hard to quantify precisely but it does spend much more time at the lower frequencies.
Smartass will also cap the max frequency when sleeping to 352Mhz (or if your min frequency is higher than 352 – why?! – it will cap it to your min frequency). Lets take for example the 528/176 kernel, it will sleep at 352/176. No need for sleep profiles any more!"


11: SmartassV2:
Version 2 of the original smartass governor from Erasmux. Another favorite for many a people. The governor aim for an "ideal frequency", and ramp up more aggressively towards this freq and less aggressive after. It uses different ideal frequencies for screen on and screen off, namely awake_ideal_freq and sleep_ideal_freq. This governor scales down CPU very fast (to hit sleep_ideal_freq soon) while screen is off and scales up rapidly to awake_ideal_freq (500 mhz for GS2 by default) when screen is on. There's no upper limit for frequency while screen is off (unlike Smartass). So the entire frequency range is available for the governor to use during screen-on and screen-off state. The motto of this governor is a balance between performance and battery.


12: Scary
A new governor wrote based on conservative with some smartass features, it scales accordingly to conservatives laws. So it will start from the bottom, take a load sample, if it's above the upthreshold, ramp up only one speed at a time, and ramp down one at a time. It will automatically cap the off screen speeds to 245Mhz, and if your min freq is higher than 245mhz, it will reset the min to 120mhz while screen is off and restore it upon screen awakening, and still scale accordingly to conservatives laws. So it spends most of its time at lower frequencies. The goal of this is to get the best battery life with decent performance. It will give the same performance as conservative right now, it will get tweaked over time.


13: Lagfree:
Lagfree is similar to ondemand. Main difference is it's optimization to become more battery friendly. Frequency is gracefully decreased and increased, unlike ondemand which jumps to 100% too often. Lagfree does not skip any frequency step while scaling up or down. Remember that if there's a requirement for sudden burst of power, lagfree can not satisfy that since it has to raise cpu through each higher frequency step from current. Some users report that video playback using lagfree stutters a little.


14: Smoothass:
The same as the Smartass “governor” But MUCH more aggressive & across the board this one has a better battery life that is about a third better than stock KERNEL


15: Brazilianwax:
Similar to smartassV2. More aggressive ramping, so more performance, less battery


16: SavagedZen:
Another smartassV2 based governor. Achieves good balance between performance & battery as compared to brazilianwax.


17: Lazy:
This governor from Ezekeel is basically an ondemand with an additional parameter min_time_state to specify the minimum time CPU stays on a frequency before scaling up/down. The Idea here is to eliminate any instabilities caused by fast frequency switching by ondemand. Lazy governor polls more often than ondemand, but changes frequency only after completing min_time_state on a step overriding sampling interval. Lazy also has a screenoff_maxfreq parameter which when enabled will cause the governor to always select the maximum frequency while the screen is off.


18: Lionheart:
Lionheart is a conservative-based governor which is based on samsung's update3 source.
The tunables (such as the thresholds and sampling rate) were changed so the governor behaves more like the performance one, at the cost of battery as the scaling is very aggressive.


19: LionheartX
LionheartX is based on Lionheart but has a few changes on the tunables and features a suspend profile based on Smartass governor.


20: Intellidemand:
Intellidemand aka Intelligent Ondemand from Faux is yet another governor that's based on ondemand. Unlike what some users believe, this governor is not the replacement for OC Daemon (Having different governors for sleep and awake). The original intellidemand behaves differently according to GPU usage. When GPU is really busy (gaming, maps, benchmarking, etc) intellidemand behaves like ondemand. When GPU is 'idling' (or moderately busy), intellidemand limits max frequency to a step depending on frequencies available in your device/kernel for saving battery. This is called browsing mode. We can see some 'traces' of interactive governor here. Frequency scale-up decision is made based on idling time of CPU. Lower idling time (<20%) causes CPU to scale-up from current frequency. Frequency scale-down happens at steps=5% of max frequency. (This parameter is tunable only in conservative, among the popular governors)
To sum up, this is an intelligent ondemand that enters browsing mode to limit max frequency when GPU is idling, and (exits browsing mode) behaves like ondemand when GPU is busy; to deliver performance for gaming and such. Intellidemand does not jump to highest frequency when screen is off.


21: Hotplug Governor:
The Hotplug governor performs very similarly to the OnDemand governor, with the added benefit of being more precise about how it steps down through the kernel's frequency table as the governor measures the user's CPU load. However, the Hotplug governor's defining feature is its ability to turn unused CPU cores off during periods of low CPU utilization. This is known as "hotplugging."

22: BadAss Governor:
Badass removes all of this "fast peaking" to the max frequency. On a typical system the cpu won't go above 918Mhz and therefore stay cool and will use less power. To trigger a frequency increase, the system must run a bit @ 918Mhz with high load, then the frequency is bumped to 1188Mhz. If that is still not enough the governor gives you full throttle. (this transition should not take longer than 1-2 seconds, depending on the load your system is experiencing)
Badass will also take the gpu load into consideration. If the gpu is moderately busy it will bypass the above check and clock the cpu with 1188Mhz. If the gpu is crushed under load, badass will lift the restrictions to the cpu.

23: Wheatley:
Building on the classic 'ondemand' governor is implemented Wheatley governor. The governor has two additional parameters:

target_residency - The minimum average residency in µs which is considered acceptable for a proper efficient usage of the C4 state. Default is 10000 = 10ms.

allowed_misses - The number sampling intervals in a row the average residency is allowed to be lower than target_residency before the governor reduces the frequency. This ensures that the governor is not too aggressive in scaling down the frequency and reduces it just because some background process was temporarily causing a larger number of wakeups. The default is 5.
Wheatley works as planned and does not hinder the proper C4 usage for task where the C4 can be used properly .
For internet browsing the time spend in C4 has increased by 10% points and the average residency has increased by about 1ms. I guess these differences are mostly due to the different browsing behaviour (I spend the last time more multi-tabbing). But at least we can say that Wheatley does not interfere with the proper use of the C4 state during 'light' tasks. For music playback with screen off the time spend in C4 is practically unchanged, however the average residency is reduced from around 30ms to around 18ms, but this is still more than acceptable.

So the results show that Wheatley works as intended and ensures that the C4 state is used whenever the task allows a proper efficient usage of the C4 state. For more demanding tasks which cause a large number of wakeups and prevent the efficient usage of the C4 state, the governor resorts to the next best power saving mechanism and scales down the frequency. So with the new highly-flexible Wheatley governor one can have the best of both worlds.

Obviously, this governor is only available on multi-core devices.

24: Lulzactive:
Lulzactive:
This new find from Tegrak is based on Interactive & Smartass governors and is one of the favorites.
Old Version: When workload is greater than or equal to 60%, the governor scales up CPU to next higher step. When workload is less than 60%, governor scales down CPU to next lower step. When screen is off, frequency is locked to global scaling minimum frequency.
New Version: Three more user configurable parameters: inc_cpu_load, pump_up_step, pump_down_step. Unlike older version, this one gives more control for the user. We can set the threshold at which governor decides to scale up/down. We can also set number of frequency steps to be skipped while polling up and down.
When workload greater than or equal to inc_cpu_load, governor scales CPU pump_up_step steps up. When workload is less than inc_cpu_load, governor scales CPU down pump_down_step steps down.
Example:
Consider
inc_cpu_load=70
pump_up_step=2
pump_down_step=1
If current frequency=200, Every up_sampling_time Us if cpu load >= 70%, cpu is scaled up 2 steps - to 800.
If current frequency =1200, Every down_sampling_time Us if cpu load < 70%, cpu is scaled down 1 step - to 1000.

25: Pegasusq/Pegasusd

The Pegasus-q / d is a multi-core based on the Ondemand governor and governor with integrated hot-plugging.
Ongoing processes in the queue, we know that multiple processes can run simultaneously on. These processes are active in an array, which is a field called "Run Queue" queue that is ongoing, with their priority values ​​arranged (priority will be used by the task scheduler, which then decides which process to run next).

To ensure that each process has its fair share of resources, each running for a certain period and will eventually stop and then again placed in the queue until it is your turn again. If a program is terminated, so that others can run the program with the highest priority in the current queue is executed.

26: hotplugx

It 'a Hotplug modified and optimized for the suspension in off-screen

27: AbissPlug

It 'a Governor derived hotplug, it works the same way, but with the changes in savings for a better battery.

28: MSM DCVS

a very efficient and wide range of Dynamic Clock and
Voltage Scaling (DCVS) which addresses usage models from
active standby to mid and high level processing requirements.
A Krait CPU can smoothly scale from low power, low
leakage mode to blazingly fast performance.

Believe it's a governor that is mfg'd by qualcomm to utilize new on chip features.

MSM is the prefix for the SOC (MSM8960) and DCVS is Dynamic Clock and Voltage Scaling. Makes sense, MSM-DCVS

29: IntelliActive

Based off Google's Interactive governor with the following enhancements:

1. self-boost capability from input drivers (no need for PowerHAL assist)
2. two phase scheduling (idle/busy phases to prevent from jumping directly to max freq
3. Checks for offline cpus and short circuits some unnecessary checks to improve code execution paths

30: Adaptive

This driver adds a dynamic cpufreq policy governor
designed for latency-sensitive workloads and also for demanding
performance.
This governor attempts to reduce the latency of clock
increases so that the system is more responsive to
interactive workloads in loweset steady-state but to
to reduce power consumption in middle operation level level up
will be done in step by step to prohibit system from going to
max operation level.

31: Nightmare

A PegasusQ modified, less aggressive and more stable. A good compromise between performance and battery.
In addition to the SoD is a prevention because it usually does not hotplug.

32: ZZmove

ZZmove Governor optimized for low power consumption with the screen off, with particular attention to the limitation of consumption applications in the background with the screen off, such as listening to music. It has three settings: battery saver, balanced and performance. In addition to a performance boost, there is also the governor zzmove optimized.

I/O Scheduler:
Thread:
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The Scheduler is an algorithm that, given a set of requests for access to a resource, establishing a temporal order for the execution of such requests, favoring those that meet certain criteria in order to optimize access to that resource.
The difference between the various scheduler is the focus on certain criteria rather than on others.
The choice of a given scheduler does not produce visible changes so as to the choice of the governor, but still provides some improvements.
As usual schedulers are personally tested to find one that best suits your needs.

Deadline
It aims to provide a deadline, a deadline for all requests in order to avoid undesirable phenomena such as the "starvation" or the eternal waiting for some requests that occurs when one or more background processes are left indefinitely in the queue the ready, because there is always at least one of the highest priority ready process.

V (r)
The next request is performed according to the distance from the last request. In the network running good opinions about this scheduler.

No-op
Push all requests in a single queue simply by their arrival order, grouping together those contiguous.

SIO
E 'the scheduler simpler, does not make any type of sort, is intended only for the purpose of obtaining a low-latency, ie to reduce the amount of time that elapses between the instant at which the request is generated and that in which the request is satisfied.

CFQ
Order requests of different processes in queues for each queue type and assigns a specific interval of time whose duration depends on the priorities assigned to processes. Can be considered the Ondemand the scheduler, the scheduler is in fact more balanced, doing its job in an honest manner.

BFQ
It 's based on CFQ but, instead of the intervals of time, assigns a part of the bandwidth of the disc to each process running in a proportional manner.

Anticipatory
Order requests based on criteria predictive, that puts the demands paused for a short period of time in anticipation that more of this to come to aggregate them.

ADAPTIVE ANTICIPATORY SCHEDULER
For the anticipatory scheduler, we scale up the anticipation timeout (antic expire) using the latency scaling factor over time. When the virtual disk latencies are low a small scaling of the timeout is sucient to prevent deceptive idleness, whereas when the latencies are high a larger scaling of the timeout value may be required to achieve the same. Note that such dynamic setting of the timeout value ensures that we attain a good trade-o between throughput (lost due to idling) and deceptive idleness mitigation. Setting a high value for the scaling factor (increasing idling time) only happens when the disk service latencies themselves are higher. This may not necessarily cause a signicant loss in throughput, because submitting a request from another process instead of idling is not going to improve throughput if the virtual disk itself does not get any faster than it is at the current period. A higher anticipation timeout might also be capable of absorbing process scheduling eects inside the VM. The results for the adaptive anticipatory scheduler are shown in Figure 2. The read time with our modied implementation (third bar in the dierent scheduler combinations) shows that it is possible to mitigate the eects of deceptive idleness by adapting the timeout. An interesting related observation is that the level to which the improve- ment is possible varies for dierent Domain-0 schedulers; noop - 39%, anticipatory - 67% and cfq - 36%. This again points to the fact that the I/O scheduler used in Domain-0 is important for the VM's ability in enforcing I/O scheduling guarantees. Dierent Domain-0 I/O schedulers likely have a dierent service latency footprint inside the VMs, contributing to dierent levels of improvement.

ROW
Row stands for READ Over WRITE which is the main requests dispatch policy of this algorithm. The ROW IO scheduler was developed with the mobile devices needs in mind. In mobile devices we favor user experience upon everything else, thus we want to give READ IO requests as much priority as possible. In mobile devices we won't have as much parallel threads as on desktops. Usually it's a single thread or at most 2 simultaneous working threads for read & write. Favoring READ requests over WRITEs decreases the READ latency greatly.

The main idea of the ROW scheduling policy is: If there are READ requests in pipe - dispatch them but don't starve the WRITE requests too much. Bellow you'll find a small comparison of ROW to existing schedulers. The test that was run for these measurements is parallel read and write.

FIOPS
Flash-based solid-state drives (SSDs) have the potential to eliminate the I/O bottlenecks in data-intensive applications However the large performance discrepancy between Flash reads and writes introduces challenges for fair resource usage. Further, existing fair queuing and quanta-based I/O schedulers poorly manage the I/O anticipation for Flash I/O fairness and efficiency. Some also suppress the I/O parallelism which causes substantial performance degradation on Flash. This paper develops FIOPS, a new Flash I/O scheduler that attains fairness and high efficiency at the same time. FIOPS employs a fair I/O time-slice management with mechanisms for read preference, parallelism, and fairness-oriented I/O anticipation. Evaluation demonstrates that FIOS achieves substantially better fairness and efficiency compared to the Linux CFQ scheduler, the SFQ(D) fair queuing scheduler, and the Argon quanta-based scheduler on several Flash-based storage devices (including a CompactFlash card in a low-power wimpy node). In particular, FIOPS reduces the worst-case slowdown bya factor of 2.3 or more when the read-only SPECweb workload runs together with the write-intensive TPC.

Vos retours sont les bienvenus​
 
M

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  • #2
Re: [KERNEL][TW][01.03.15][SM-T800][SM-T805] IronKernel V1.2 STweaks

salut et merci :wink:
 
kyo-ito

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  • #3
Re: [KERNEL][TW][01.03.15][SM-T800][SM-T805] IronKernel V1.2 STweaks

Fred a dit:
salut et merci :wink:
Salut :hello:

De rien :smile:
 
kyo-ito

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  • #4
Re: [KERNEL][TW/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

Updater
 
kraoc

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  • #5
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

Je viens de coller ce kernel sur ma TabS et j'ai un popup de sécurité qui s'affiche:

Notification de sécurité

Des actions non autorisées ont été détectées.
Redémarrer votre appareil pour annuler les modifications non autorisées.

Avec pour choix possible: Annuler / Redémarrer.

Pour le moment j'ai fait annuler...

C'est quoi ce message svp ???

PS: j'ai récupéré l'apk de Stweaks sur XDA
S'il vous plaît, Connexion ou S'inscrire pour voir le contenu ou les urls !
(
S'il vous plaît, Connexion ou S'inscrire pour voir le contenu ou les urls !
)
 
kyo-ito

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  • #6
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kraoc a dit:
Je viens de coller ce kernel sur ma TabS et j'ai un popup de sécurité qui s'affiche:

Notification de sécurité

Des actions non autorisées ont été détectées.
Redémarrer votre appareil pour annuler les modifications non autorisées.

Avec pour choix possible: Annuler / Redémarrer.

Pour le moment j'ai fait annuler...

C'est quoi ce message svp ???
Bonjour,

C'est un avertissement de Sécurité de Knox !
Tu as modifié le Kernel !

PS: j'ai récupéré l'apk de Stweaks sur XDA
S'il vous plaît, Connexion ou S'inscrire pour voir le contenu ou les urls !
(
S'il vous plaît, Connexion ou S'inscrire pour voir le contenu ou les urls !
)
Pour STweaks c'est OK !
 
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  • #7
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

mais j'ai gelé Knox...
je fait quoi alors ? annuler tout le temps ou il y a quelque chose de mieux à faire :) ?

En fait il faut geler (ou désintaller) SecurityLogAgent...
(j'avais geler les apps knox mais pas celle-là)
 
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  • #8
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kraoc a dit:
mais j'ai gelé Knox...
je fait quoi alors ? annuler tout le temps ou il y a quelque chose de mieux à faire :) ?

En fait il faut geler (ou désintaller) SecurityLogAgent...
(j'avais geler les apps knox mais pas celle-là)

Fichiers à Freezer :

com.sec.enterprise.knox.attestation
com.sec.knox.eventsmanager
KLMS Agent
KNOX
Knox Notification Manager
KNOX Store
 
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  • #9
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kyo-ito a dit:
kraoc a dit:
mais j'ai gelé Knox...
je fait quoi alors ? annuler tout le temps ou il y a quelque chose de mieux à faire :) ?

En fait il faut geler (ou désintaller) SecurityLogAgent...
(j'avais geler les apps knox mais pas celle-là)

Fichiers à Freezer :

com.sec.enterprise.knox.attestation
com.sec.knox.eventsmanager
KLMS Agent
KNOX
Knox Notification Manager
KNOX Store

Il me manquait plus que SecurityLogAgent...
[barre]Tu es sur quelle rom (moi T800XXU1BOCC XEF)... étrange cette affaire...[/barre]
oui bon IronRom je viens de le lire après coups... donc ça doit être déjà supprimé :)
 
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  • #10
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kraoc a dit:
kyo-ito a dit:
kraoc a dit:
mais j'ai gelé Knox...
je fait quoi alors ? annuler tout le temps ou il y a quelque chose de mieux à faire :) ?

En fait il faut geler (ou désintaller) SecurityLogAgent...
(j'avais geler les apps knox mais pas celle-là)

Fichiers à Freezer :

com.sec.enterprise.knox.attestation
com.sec.knox.eventsmanager
KLMS Agent
KNOX
Knox Notification Manager
KNOX Store

Il me manquait plus que SecurityLogAgent...
[barre]Tu es sur quelle rom (moi T800XXU1BOCC XEF)... étrange cette affaire...[/barre]
oui bon IronRom je viens de le lire après coups... donc ça doit être déjà supprimé :)

com.samsung.android.securitylogagent
N'est pas dans ma Rom !

Je suis passé par T805XXU1BOCC VD2, puis IronRom !
 
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  • #11
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kyo-ito a dit:
com.samsung.android.securitylogagent
N'est pas dans ma Rom !

Je suis passé par T805XXU1BOCC VD2, puis IronRom !

tu as la 805 j'ai la 800 :)
 
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  • #12
Re: [KERNEL][TW/KK/LP][10.04.15][SM-T800][SM-T805] IronKernel V2.0 STweaks

kraoc a dit:
kyo-ito a dit:
com.samsung.android.securitylogagent
N'est pas dans ma Rom !

Je suis passé par T805XXU1BOCC VD2, puis IronRom !

tu as la 805 j'ai la 800 :)

Je le sais :smile:

J'expliquais mon cheminement :smile:
 
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  • #13
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

Hello... J'ai Stweaks qui semble ne pas retenir mes réglages...
J'avais mis en ROM stock puis IromRom 2.0, puis IronKernel 2.0 puis 2.1.
J'ai empiler IronRom 2.2 et Stweaks à chaque valeur modifiée me met un '$' à la place de la valeur qui devrait être prise en compte.

J'ai tenté de virer Stweaks, puis de remettre le kernel stock, puis d'empiler IronKernel 2.0 puis 2.1 puis d'empiler IronRom 2.2 et j'ai toujours le même comportement.

De quoi cela peut-il venir ?
 
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  • #14
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

kraoc a dit:
Hello... J'ai Stweaks qui semble ne pas retenir mes réglages...
J'avais mis en ROM stock puis IromRom 2.0, puis IronKernel 2.0 puis 2.1.
J'ai empiler IronRom 2.2 et Stweaks à chaque valeur modifiée me met un '$' à la place de la valeur qui devrait être prise en compte.

J'ai tenté de virer Stweaks, puis de remettre le kernel stock, puis d'empiler IronKernel 2.0 puis 2.1 puis d'empiler IronRom 2.2 et j'ai toujours le même comportement.

De quoi cela peut-il venir ?
Re,

Je me suis peut être mal exprimé tout à l'heure :mrgreen: :?: :!:
Essaies de voir du côté du thread d'XDA :!:
 
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  • #15
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

Greu! Toutes mes confuses :)
 
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  • #16
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

Double poste volontaire.

Mise à jour vers la version v.2.2.
Mise à jour en version v2.2.5.
 
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  • #17
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

kyo-ito a dit:
kraoc a dit:
Hello... J'ai Stweaks qui semble ne pas retenir mes réglages...
J'avais mis en ROM stock puis IromRom 2.0, puis IronKernel 2.0 puis 2.1.
J'ai empiler IronRom 2.2 et Stweaks à chaque valeur modifiée me met un '$' à la place de la valeur qui devrait être prise en compte.

J'ai tenté de virer Stweaks, puis de remettre le kernel stock, puis d'empiler IronKernel 2.0 puis 2.1 puis d'empiler IronRom 2.2 et j'ai toujours le même comportement.

De quoi cela peut-il venir ?
Re,

Je me suis peut être mal exprimé tout à l'heure :mrgreen: :?: :!:
Essaies de voir du côté du thread d'XDA :!:

Salut

Meme probleme , sur XDA c'est un zip mais le recovery TWRP me dit : failed ??

@+
 
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  • #18
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

papous80 a dit:
Salut

Meme probleme , sur XDA c'est un zip mais le recovery TWRP me dit : failed ??

@+
Salut,

Tu parles du Flashage du Kernel :?: :!:
 
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  • #19
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

kyo-ito a dit:
papous80 a dit:
Salut

Meme probleme , sur XDA c'est un zip mais le recovery TWRP me dit : failed ??

@+
Salut,

Tu parles du Flashage du Kernel :?: :!:

Re
Non du STweaks de XDA car celui du Store ne mémorise pas les réglages.
 
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  • #20
Re: [KERNEL][TW/LP][16.05.15][SM-T800 & T805] IronKernel V2.X STweaks

papous80 a dit:
kyo-ito a dit:
papous80 a dit:
Salut

Meme probleme , sur XDA c'est un zip mais le recovery TWRP me dit : failed ??

@+
Salut,

Tu parles du Flashage du Kernel :?: :!:

Re
Non du STweaks de XDA car celui du Store ne mémorise pas les réglages.

As tu activé Busybox :?: :!:
 
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  • #21
oui Busybox présent dans xbin et sbin
 
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  • #22
papous80 a dit:
oui Busybox présent dans xbin et sbin
Tu tournes sous BOE3 :!:
Si oui :!:
Vides le cache, supprimes les données, désactives Hulk Stweaks :!:
Installes la version 2.2.5 avec Wipe caches et Dalvik/Art :!:
Réactives Hullk, attends une bonne minute avant de faire des modifs :!:
 
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  • #23
kyo-ito a dit:
papous80 a dit:
oui Busybox présent dans xbin et sbin
Tu tournes sous BOE3 :!:
Si oui :!:
Vides le cache, supprimes les données, désactives Hulk Stweaks :!:
Installes la version 2.2.5 avec Wipe caches et Dalvik/Art :!:
Réactives Hullk, attends une bonne minute avant de faire des modifs :!:


Re
Merci , résolu
 
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  • #24
Avec plaisir smiley

PS: Renseignes ta signature :
Appareil, Rom
Stp,
Merci
 
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