Difference between revisions of "Overclocking"

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→‎CPU: Fixed mistake, the measurements were run in a threaded environment.
(→‎CPU: Fixed mistake, the measurements were run in a threaded environment.)
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Overclocking is a way to get more performance out of the system by running it at higher clock speeds than the factory default, usually while putting out more heat and using more power (You can also downclock to possibly reduce power consumption and thermals at the cost of performance). It is highly recommended that you avoid overvolting the device, as that has a high risk of damaging the hardware, hence the warning at the beginning of this page. However, just some slight overclocks without the added voltage can not only improve performance, but not carry as much risk (Still: Do at your own risk!). It should be noted however that overclocking can cause instability, so you will need to test and see what values work best with your device (There is a silicon lottery for the Pinephone's hardware).
Overclocking is a way to get more performance out of the system by running it at higher clock speeds than the factory default, usually while putting out more heat and using more power (You can also downclock to possibly reduce power consumption and thermals at the cost of performance). It is highly recommended that you avoid overvolting the device, as that has a high risk of damaging the hardware, hence the warning at the beginning of this page. However, just some slight overclocks without the added voltage can not only improve performance, but not carry as much risk (Still: Do at your own risk!). It should be noted however that overclocking can cause instability, so you will need to test and see what values work best with your device (There is a silicon lottery for the Pinephone's hardware).


= A64 =
= A64-based devices =


{{note|These instructions are targeting the Pinephone to simplify the explanation, however they can be used to also overclock other devices such as the Pinetab if you modify the proper DTB files.}}
{{note|These instructions are targeting the PinePhone to simplify the explanation, however they can be used to also overclock other devices such as the Pinetab if you modify the proper DTB files.}}


== Edit Pinephone DTS ==
== Editing the PinePhone DTS ==


In order to overclock the Pinephone you will have to first convert the DTB file in <code>/boot/dtbs/allwinner/</code> to a DTS file. You will see <code>sun50i-a64-pinephone-1.2.dtb</code>, and also two other files with different pinephone mainboard revisions (1.1 and 1.0). You will want to select the correct file for your pinephone (Only choose 1.1 if you have a braveheart, As all other consumer pinephones use the 1.2 DTS).
In order to overclock the PinePhone you will have to first convert the DTB file in <code>/boot/dtbs/allwinner/</code> to a DTS file. You will see <code>sun50i-a64-pinephone-1.2.dtb</code>, and also two other files with different PinePhone mainboard revisions (1.1 and 1.0). You will want to select the correct file for your PinePhone (Only choose 1.1 if you have a Braveheart, As all other consumer PinePhones use the 1.2 DTS).


Once you've found the file, you can run the following command to convert the DTB to DTS:
Once you've found the file, you can run the following command to convert the DTB to DTS:
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Afterwards you can simply reboot and check with <code>sudo cat /sys/kernel/debug/clk/clk_summary</code> to see if the changes have correctly applied.
Afterwards you can simply reboot and check with <code>sudo cat /sys/kernel/debug/clk/clk_summary</code> to see if the changes have correctly applied.


{{note|In the future it is possible that there will be a driver to adjust clockspeeds of the A64 from userspace without the need to recompile. Currently the only way to overclock is to either compile your own kernel, or modify just the DTB (instructions above).}}
{{note|In the future it is possible that someone may make a driver to adjust clockspeeds of the A64 from userspace (using a config file) without the need to recompile. However, currently the only way to overclock is to either compile your own kernel, or modify just the DTB (instructions above).}}


== GPU ==
== GPU ==
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The <code>assigned-clock-rates</code> line should be set to <code>432000000</code>, this means that the GPU is clocked at 432MHz by default. So if you want 500MHz, set the value to <code>500000000</code>.
The <code>assigned-clock-rates</code> line should be set to <code>432000000</code>, this means that the GPU is clocked at 432MHz by default. So if you want 500MHz, set the value to <code>500000000</code>.


Save the dts file, and recompile the DTB. In order to check if the overclock was successfully applied you can run: <code>sudo cat /sys/kernel/debug/clk/clk_summary</code>.
Save the DTS file, and recompile the DTB. In order to check if the overclock was successfully applied you can run: <code>sudo cat /sys/kernel/debug/clk/clk_summary</code>.


{{note|The file may be slightly different and you may need to enter the values as hexidecimals}}
{{note|The file may be slightly different and you may need to enter the values as hexadecimals}}
{{hint|The GPU appears to run stable overclocked to 560 Mhz, however more testing with a wider group of devices is needed.}}
{{hint|The GPU appears to run stable overclocked to 540 Mhz, however more testing with a wider group of devices is needed.}}
{{hint|Remember to run a benchmark tool (such as glmark2-es2) to help check stability.}}
{{hint|Remember to run a benchmark tool (such as glmark2-es2) to help check stability.}}


== CPU ==
== CPU ==


The stock speed of the A64 is 1.152 GHz. It is not recommended to the overclock the CPU because doing so greatly increases power and thermals and will overheat the device for little to no gain.
The stock speed of the A64 is 1.152 GHz. The A64 can be overclocked significantly, it is highly advisable not to do this unless you can also drop the voltage at the same time.
 
If the CPU is undervolted and overclocked at the same time, it is possible to reach similar thermals and power consumption to the stock configuration but with better performance.
 
{| class=wikitable
|+ Power consumption at different voltages and frequencies
! Configuration
! Frequency
! Voltage
! Power (Screen 50%)
|-
! Stock
| 1.152GHz || 1.30v || ~4.35w
|-
! Stock + Undervolt
| 1.152GHz || 1.18v || ~3.65w
|-
! Overclock + Undervolt
| 1.344Ghz || 1.28v || ~4.60w
|}
The table above contains measurements created in postmarketOS (SWMO/SXMO - postmarketOS 21.12 SP1) with the screen on (set to 50% brightness) under a threaded load.
 
{| class=wikitable
|+ AXP803 PMIC voltage steps on DCDC2.
! Voltage range
! Step size
|-
! 0.50V-1.20V
| 10mV
|-
! 1.22V-1.30V
| 20mV
|-
|}
The table above shows the valid voltages provided by the AXP803 PMIC on DCDC2 (used to power the cores). For example, setting the voltage to 0.60V is valid, but setting it to 1.23V is not. When overclocking, ensure that you only use valid voltages at each operation point (otherwise it will simply be dropped and ignored). You can use (after installing) cpupower to display all valid frequencies after boot.
 
{{note|The user ''somefoo'' was able to undervolt the PinePhone at each frequency operation point by at least -100mv. The A64 set to 1.152Ghz runs at 1.18v instead of the standard 1.3v, dropping the power usage by ~0.7w under full single threaded load! The silicon lottery will dictate how well you can undervolt.}}
{{hint|The exact voltages and frequencies that you can achieve will depend on your device. Make sure to run stress tests (such as ''stress-ng'') to ensure stability.}}


== DRAM ==
== DRAM ==


{{warning|1=It is not recommended to exceed 667 MHz clockspeed on the DRAM. 624MHz is likely the upper limit.}}
{{warning|1=It is not recommended to exceed 667 MHz clockspeed on the DRAM. 648MHz is likely the upper limit.}}
{{hint|Make sure to set your DRAM to a multiple of 24.}}
{{hint|Make sure to set your DRAM to a multiple of 24.}}


When overclocking the GPU, it is a good idea to also overclock the DRAM, as the main bottleneck of the A64 SOC is the memory. The A64's maximum ram clockspeed falls just short of 667MHz. This may be unstable on your device however.  
When overclocking the GPU, it is a good idea to also overclock the DRAM, as the main bottleneck of the A64 SOC is the memory. The A64's maximum ram clockspeed falls just short of 667MHz. This may be unstable on your device however.  


Around 600 MHz (PC-1200) should work fine, however some people have reported instability at lower clockspeeds. Arch Linux Arm uses a default clockspeed of 552MHz, with uboot builds available to easily switch out for a higher (624) or lower (492) DRAM clockspeed.
Around 600 MHz (PC-1200) should work fine, however some people have reported instability at lower clockspeeds. Arch Linux Arm uses a default clockspeed of 552MHz, with U-Boot builds available to easily switch out for a higher (624) or lower (492) DRAM clockspeed.


It is possible that by reverse engineering the DRAM driver from allwinner that auto tuning can be accomplished to get the best performance.
It is possible that by reverse engineering the DRAM driver from Allwinner that auto tuning can be accomplished to get the best performance.


Setting the DRAM clock is accomplished by modifying pinephone_defconfig in uboot (https://gitlab.com/pine64-org/u-boot/-/blob/crust/configs/pinephone_defconfig)
Setting the DRAM clock is accomplished by modifying pinephone_defconfig in U-Boot (https://gitlab.com/pine64-org/u-boot/-/blob/crust/configs/pinephone_defconfig)


You can find simple instructions on doing so here: [[Uboot]]
You can find simple instructions on doing so here: [[Uboot]]
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Overclocking cedrus is achieved by modifying the kernel source code: https://elixir.bootlin.com/linux/latest/source/drivers/staging/media/sunxi/cedrus/cedrus.c#L507
Overclocking cedrus is achieved by modifying the kernel source code: https://elixir.bootlin.com/linux/latest/source/drivers/staging/media/sunxi/cedrus/cedrus.c#L507


{{note|I'm (33yn2) not particularly sure if this makes any difference, or if it might infact have a negative impact. Probably not worth messing with.}}
{{note|User ''33yn2'' is not particularly sure if this makes any difference, or if it might in fact have a negative impact. Probably not worth messing with.}}


= Rockchip RK3399 based boards =
= RK3399-based devices =
The RK3399 clocks are found in [https://github.com/torvalds/linux/blob/master/arch/arm64/boot/dts/rockchip/rk3399-opp.dtsi arch/arm64/boot/dts/rockchip/rk3399-opp.dtsi]
The RK3399 clocks are found in [https://github.com/torvalds/linux/blob/master/arch/arm64/boot/dts/rockchip/rk3399-opp.dtsi arch/arm64/boot/dts/rockchip/rk3399-opp.dtsi]


More optimised voltages and clocks can be found in [https://github.com/torvalds/linux/blob/master/arch/arm64/boot/dts/rockchip/rk3399-op1-opp.dtsi arch/arm64/boot/dts/rockchip/rk3399-op1-opp.dtsi]
More optimised voltages and clocks can be found in [https://github.com/torvalds/linux/blob/master/arch/arm64/boot/dts/rockchip/rk3399-op1-opp.dtsi arch/arm64/boot/dts/rockchip/rk3399-op1-opp.dtsi]
These include a slight overclock and undervolt, they are intended for the OP1 CPU found in many chromebooks but have worked fine in all recorded cases on regular RK3399s in other devices.
These include a slight overclock and undervolt, they are intended for the OP1 CPU found in many Chromebooks but have worked fine in all recorded cases on regular RK3399 SoCs in other devices.


==GPU==
==GPU==
Any clock speeds can be added for the GPU in <code>gpu_opp_table</code>
Any clock speeds can be added for the GPU in <code>gpu_opp_table</code>


The highest safe voltage for the GPU is 1.2V as specified in the RK3399 schematic from Rockchip.
The highest recommended voltage for the GPU is 1.2V as specified in the RK3399 schematic from Rockchip.


Segfault has found that the RK3399 in his Pinebook Pro can reach 950MHz on the GPU while being stable.
Segfault has found that the RK3399 in his Pinebook Pro can reach 950MHz on the GPU while being stable.


The stock speed for the GPU is 800Mhz.
The stock speed for the GPU is 800Mhz.
Note that the GPU in the RK3399 is already bottlenecked by the memory bandwidth available to it, so overclocking generally yields no improvements.


==CPU==
==CPU==
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These clock speeds can be added to <code>cluster0_opp</code> for the small cores and <code>cluster1_opp</code> for the big cores respectively.
These clock speeds can be added to <code>cluster0_opp</code> for the small cores and <code>cluster1_opp</code> for the big cores respectively.


There is a hard limit of 1.8GHz on the little cores and 2.2GHz on the big cores.
The maximum limit is 1.8GHz on the little cores and 2.2GHz on the big cores.
 
The highest safe voltage for the little cores is 1.2V and for the big cores is 1.25V.


Segfault has found that the RK3399 in his Pinebook Pro can reach 1.6GHz on the little cores and 2.08GHz on the big ones.
The highest recommended voltage for the little cores is 1.2V and for the big cores is 1.25V.


The stock speed for the little cores is 1.4GHz and on the big cores it is 1.8GHz, however the OP1 speeds default to 1.5GHz and 2.0GHz instead.
Segfault has found that the RK3399 in his Pinebook Pro can reach 1.7GHz on the little cores and 2.08GHz on the big ones.


The stock speed for the little cores is 1.4GHz and on the big cores it is 1.8GHz, the OP1 speeds default to 1.5GHz and 2.0GHz instead.


= ROCK64 =
= ROCK64 =
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Check the achieved clock speed with <code>sudo cat /sys/kernel/debug/clk/clk_summary | grep armclk</code>. Does not seem to overclock at stock voltages at all, defaults to 408 MHz if it fails to set a clock rate. Stock voltage is 1.30V, just shy of the 1.35V maximum outlined in [https://www.rockchip.fr/RK3328%20datasheet%20V1.1.pdf the datasheet]. Overvolting to 1.325V just left the device in an unbootable state for CounterPillow, would not recommend.
Check the achieved clock speed with <code>sudo cat /sys/kernel/debug/clk/clk_summary | grep armclk</code>. Does not seem to overclock at stock voltages at all, defaults to 408 MHz if it fails to set a clock rate. Stock voltage is 1.30V, just shy of the 1.35V maximum outlined in [https://www.rockchip.fr/RK3328%20datasheet%20V1.1.pdf the datasheet]. Overvolting to 1.325V just left the device in an unbootable state for CounterPillow, would not recommend.


GPU needs investigating, but is seemingly tied to the bus speed.
GPU needs investigating, but current mainline device tree does not try to clock up the GPU at all.


[[Category:SOPine]] [[Category:Pine A64]] [[Category:Pine H64]] [[Category:A64-LTS]] [[Category:PineBook]] [[Category:PinePhone]] [[Category:PineTab]] [[Category:Rock64]] [[Category:PineBook Pro]] [[Category:ROCKPro64]] [[Category:Allwinner A64]] [[Category:Allwinner H6]] [[Category:Rockchip RK3399]]
[[Category:SOPine]] [[Category:Pine A64]] [[Category:Pine H64]] [[Category:A64-LTS]] [[Category:PineBook]] [[Category:PinePhone]] [[Category:PineTab]] [[Category:Rock64]] [[Category:PineBook Pro]] [[Category:ROCKPro64]] [[Category:Allwinner A64]] [[Category:Allwinner H6]] [[Category:Rockchip RK3399]]
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