You need to have adb or the sdk, boot your phone into bootloader, connect your phone with you PC, in command prompt, type fastboot flash boot boot.img, assuming the boot.img is in the same folder of your fastboot-windows.exe.
Nice, when lte comes out I'll give if a whirl, already recovered from getting stuck once so if it happens again I'll know my way out
Sent from my Galaxy Nexus using XDA Premium App
It's out for an hour already
I must have missed it. Downloading now
Download the .zip, go to recovery and flash it. Or use fastboot like the user above me described.
I must be missing it I can only find the boot image for lte not the zip
Sent from my Galaxy Nexus using XDA Premium App
I don't know if I'm doing something wrong here. I install this just like I install a rom right? The zip package installed and then I rebooted and got stuck on the Google screen. I did a battery pull and went back to recovery to reinstall mikes rom over the top to change back to stock kernel.
Sent from my Galaxy Nexus using XDA Premium App
I used the boot.img you posted few pages back
Try to install via fastboot, if it works then it's something on the flashing script.
Maybe I just have a weak chip, but mine doesn't seem to like 1.4GHz. It stutters and lags (thermal throttling?)
Everything goes back to normal at 1.2GHz though. Maybe in the next version you should set the boot frequency to 1.2GHz, and those who want to OC can manually set it to 1.4.
Mine too does not work properly with the 1.4Ghz. How can I change it back to 1.2? THANKS.
I find the device getting quite warm with this kernel.. but it has always gotten warm for me when doing intensive tasks anyway.. so I'm not 100% sure if the kernel made it hotter than usual.. but it is noticeable.
I used the boot.img you posted few pages back
Try to install via fastboot, if it works then it's something on the flashing script.
Maybe Paul's boot.img is different than this one, I'm using stock images.
Mate keep in mind that lte probably use different zImage. So we need to wait for lte kernel source.
Sent from my HTC Sensation Z710e using Tapatalk
Any chance of making a version that I can test on Paul's ROM? Or can I do it myself with a bit of guidance? I have come from the world of HTC Desire where obviously things were a bit more developed so I didn't think about flashing a different kernel via Boot.img before. Sorry
Latency - Download - Upload
cubic:
1st run: 15ms - 10,75Mbps - 7,82Mbps
2nd run: 14ms - 10,84Mbps - 8,06Mbps
reno:
1st run: 13ms - 15,51Mbps - 6,73Mbps
2nd run: 13ms - 14,73Mbps - 8,51Mbps
bic:
1st run: 12ms - 10,38Mbps - 8,61Mbps
2nd run: 13ms - 10,78Mbps - 8,62Mbps
westwood:
1st run: 11ms - 17,65Mbps - 8,30Mbps
2nd run: 13ms - 13,28Mbps - 8,29Mbps
highspeed:
1st run: 13ms - 10,76Mbps - 7,94Mbps
2nd run: 16ms - 14,42Mbps - 8,52Mbps
hybla:
1st run: 14ms - 11,19Mbps - 7,44Mbps
2nd run: 14ms - 13,47Mbps - 7,56Mbps
htcp:
1st run: 14ms - 13,24Mbps - 7,03Mbps
2nd run: 15ms - 10,85Mbps - 8,00Mbps
vegas:
1st run: 14ms - 8,49Mbps - 6,62Mbps
2nd run: 14ms - 12,00Mbps - 7,07Mbps
veno:
1st run: 13ms - 9,58Mbps - 8,13Mbps
2nd run: 13ms - 8,50Mbps - 7,64Mbps
scalable:
1st run: 18ms - 12,01Mbps - 8,73Mbps
2nd run: 14ms - 13,96Mbps - 8,23Mbps
lp:
1st run: 14ms - 14,90Mbps - 8,68Mbps
2nd run: 14ms - 13,44Mbps - 8,72Mbps
yeah:
1st run: 14ms - 13,37Mbps - 8,28Mbps
2nd run: 17ms - 13,89Mbps - 8,14Mbps
illinois:
1st run: 13ms - 12,93Mbps - 8,24Mbps
2nd run: 16ms - 13,97Mbps - 6,46Mbps
Just woken up and feel like my head is going to explode already this last 5 pages is crazy
I got these from that thread:
so it makes much sense, to make the min_sample_time as low as possible (?), but how low? what's the most appropriate sample time for battery and performance?
for the timer_rate, franco suggested 30k to consider the CPUs latency. What has it to do with the cpu's latency?
he also said min_sample_time doesn't have to be in multiple of timer_rate.
in my case, all my timers are in 20k, which works fine as of now. But i must be missing some things, because I just saw somebody post these values, and no detailed explanation for having them.
So to make the short hand easier, we kept it in that order and just said: 20000/50/40000/20000 became 20k/50/40k/20k became 2/5/4/2. Make sense?above_hispeed_delay: 20000
go_hispeed_load: 50
min_sample_time: 40000
timer_rate: 20000
-above_hispeed_delay: Once speed is set to hispeed_freq, wait for this long before bumping speed higher in response to continued high load.
-go_hispeed_load: The CPU load at which to ramp to the intermediate "hi speed".
-min_sample_time: The minimum amount of time to spend at a frequency before we can ramp down.
-timer_rate: Sample rate for reevaluating cpu load when the system is not idle.
So Google's default is 10/5/6/2. Lower numbers are all better for performance except min_sample_time (there higher is faster). So our goal is to find a sweet spot.-above_hispeed_delay: higher = better battery, lower = better performance. (100k is default)
-go_hispeed_load:.......higher = better battery, lower = better performance. (50 is default)
-min_sample_time:......lower = better battery, higher = better performance. (60k is default)
-timer_rate:.................higher = better battery, lower = better performance. (20k is default)
Device: Galaxy Nexus
Max Frequency: 1305 MHz
Min Frequency: 384 MHz
Governor: interactive
Governor Tunables: a_h_d 15000 / g_h_l 95 / h_f 729600 Hz / m_s_t 45000 / t_r 15000 / i_b_f 1036800 Hz / t_l 85 / t_s 80000 / b_d 1000000
IO Scheduler: row
IO Scheduler Tunables: h_r_q 100 / r_r_q 75 / h_s_q 5 / r_s_q 4 / r_w_q 4 / l_r_q 3 / l_s_q 2 / r_i 15 / r_i_f 25
Read Ahead Buffer: 512; NR Requests: 512
TCP Congestion Avoidance Algorithm: westwood
Screen Off Max Frequency: 537 MHz
Color Multipliers: 230 235 340
RGB Gamma: -4 0 5
Trinity Contrast: -22; OMAP4 Gamma: 4; CAB: Disabled
Sent from franco.Kernel updater app:
https://play.google.com/store/apps/details?id=com.franco.kernel
mpu_voltages:
1804mhz: 1425 mV
1728mhz: 1375 mV
1612mhz: 1325 mV
1536mhz: 1275 mV
1420mhz: 1225 mV
1305mhz: 1175 mV
1228mhz: 1125 mV
1036mhz: 1075 mV
729mhz: 925 mV
537mhz: 825 mV
384mhz: 775 mV
192mhz: 725 mV
iva_voltages:
430mhz: 1125 mV
332mhz: 1025 mV
266mhz: 925 mV
133mhz: 825 mV
core_voltages:
512mhz: 1050 mV
384mhz: 975 mV
153mhz: 800 mV