User:CesarB/cpufreq

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=== Framebuffer driver ===
 
=== Framebuffer driver ===
  
The cpufreq notifier on <code>drivers/video/s3c2410fb.c</code> is responsible for turning off the video before the frequency change and reloading its configuration after the frequency change.
+
The cpufreq notifier on <code>drivers/video/s3c2410fb.c</code> is responsible for dynamically changing the frequency divider used to derive the video clocks.
  
 
=== NAND driver ===
 
=== NAND driver ===

Revision as of 03:53, 3 February 2008

The cpufreq subsystem is a Linux kernel subsystem responsible for managing the CPU frequency. It's commonly used in laptops to reduce power usage when idle.

On the S3C2410, adjusting the CPU frequency changes the clocks for almost all devices on the chip. This means that, to write a cpufreq driver for the S3C2410, you have to also adjust some values on almost all devices.

This project aims to implement the cpufreq driver (which manages the CPU frequency transitions) and a cpufreq notifier for all the affected drivers (to do two things: quiesce the device before the change, and adjust the frequency after the change). Deciding which frequency to use is the responsability of code from somewhere else (either cpufreq governors or userspace).

The most recent version of the code can be found at http://repo.or.cz/w/linux-2.6/s3c2410-cpufreq.git on the s3c2410-cpufreq-om branch.

Contents

To build

NOTE: Do not run on real hardware, unless you really know what you are doing. This code is mostly untested, and changes frequently. It might even not compile.


You need a fully built OpenMoko tree for the cross-compiler and uboot tools.

  1. Checkout the s3c2410-cpufreq-om branch
  2. Copy the defconfig file from branches/src/target/kernel/2.6.24.x/config on the OpenMoko svn as the .config file
  3. Set the PATH to the correct value (check the run.* temporary files bitbake generates to find out the correct value)
  4. Run make ARCH=arm CROSS_COMPILE=arm-angstrom-linux-gnueabi- oldconfig and answer correctly the questions
  5. Run make ARCH=arm CROSS_COMPILE=arm-angstrom-linux-gnueabi- uImage
  6. The last line of the output tells you the correct file which should be flashed on the emulator.

Hints

  • Enable CONFIG_CPU_FREQ_DEBUG and add cpufreq.debug=7 to the kernel command line to enable the relevant debug output. You can also enable it after boot by going to the correct place at /sys/modules and changing the values there.
  • To test on 2.6.22.5, use git format-patch -o dir master-om..s3c2410-cpufreq-om to generate a set of patches, and apply them all on top of the OpenMoko patches 2.6.22.5 kernel, except the framebuffer patch(es) (the 2.6.24.x code for the framebuffer is different from the 2.6.22.5 one).

What's already done

Driver Status
core Working
timer Working
nand Working
serial Working
framebuffer Working

S3C2410A cpufreq driver

This code resides on arch/arm/mach-s3c2410/s3c2410-cpufreq.c and is responsible for actually changing the frequency.

The list of available frequencies and their parameters (HCLK/PCLK dividers) can be found on this file.

Timer 4 driver

Timer 4 is used by the kernel as the periodic tick timer. The cpufreq notifier on arch/arm/plat-s3c24xx/time.c is responsible for adjusting the current and reload values of the timer to match the new frequency.

Serial driver

The cpufreq notifier on drivers/serial/s3c2410.c is responsible for (if possible) pausing both sides of the serial transmission before the frequency change and reloading the baud generator (and unpausing the serial transmission) after the change.

Pausing the transmission is currently only possible with hardware flow control. Since both serial ports on GTA01 use hardware flow control, that's not a problem (unless you are using the serial console).

Framebuffer driver

The cpufreq notifier on drivers/video/s3c2410fb.c is responsible for dynamically changing the frequency divider used to derive the video clocks.

NAND driver

The cpufreq notifier on drivers/mtd/nand/s3c2410.c is responsible for reprogramming the NAND timings after a frequency change.

What's missing

S3C2410A cpufreq driver

The frequency table should be checked for better divisor values (1:1:1 might be appropriate in more situations), and the code should be able to deal with HDIVN1 and different bus modes.

Missing drivers

  • Backlight (uses a PWM timer; not a problem with full brightness)
  • Vibrator (uses a PWM timer)
  • MMC/SD (can be avoided by not plugging it in)
  • I2C (without a notifier and booting at the maximum speed, it can only get slower; there should be no side effects, since there's no minimum bus speed)
  • IIS
  • SPI

GTA02 driver

The GTA02 uses a different (but similar) SoC. Parts of the code have to be changed to be able to work on both. Also, part of the serial notifier code is specific to each kind of SoC.

Frequency restrictions

Some drivers need specific frequencies. Currently there's no way to tell the cpufreq core of that, but at minimum a cpufreq notifier should be used to turn them off if they won't be able to work with that frequency.

  • The datasheet says the USB device gets unstable if the frequency is below a minimum value
  • When using the IIS device, changing the frequency might not be a good idea, since it can cause audio glitches. It also probably needs a minimum frequency depending on the output audio frequency and sample size.
  • The LCD device might also need a minimum frequency.
  • The serial baudrate generator might not have a good enough divider value for some baud rates and some clock frequencies (for instance, 115200 at 12000 kHz)

See also

Personal tools

The cpufreq subsystem is a Linux kernel subsystem responsible for managing the CPU frequency. It's commonly used in laptops to reduce power usage when idle.

On the S3C2410, adjusting the CPU frequency changes the clocks for almost all devices on the chip. This means that, to write a cpufreq driver for the S3C2410, you have to also adjust some values on almost all devices.

This project aims to implement the cpufreq driver (which manages the CPU frequency transitions) and a cpufreq notifier for all the affected drivers (to do two things: quiesce the device before the change, and adjust the frequency after the change). Deciding which frequency to use is the responsability of code from somewhere else (either cpufreq governors or userspace).

The most recent version of the code can be found at http://repo.or.cz/w/linux-2.6/s3c2410-cpufreq.git on the s3c2410-cpufreq-om branch.

To build

NOTE: Do not run on real hardware, unless you really know what you are doing. This code is mostly untested, and changes frequently. It might even not compile.


You need a fully built OpenMoko tree for the cross-compiler and uboot tools.

  1. Checkout the s3c2410-cpufreq-om branch
  2. Copy the defconfig file from branches/src/target/kernel/2.6.24.x/config on the OpenMoko svn as the .config file
  3. Set the PATH to the correct value (check the run.* temporary files bitbake generates to find out the correct value)
  4. Run make ARCH=arm CROSS_COMPILE=arm-angstrom-linux-gnueabi- oldconfig and answer correctly the questions
  5. Run make ARCH=arm CROSS_COMPILE=arm-angstrom-linux-gnueabi- uImage
  6. The last line of the output tells you the correct file which should be flashed on the emulator.

Hints

  • Enable CONFIG_CPU_FREQ_DEBUG and add cpufreq.debug=7 to the kernel command line to enable the relevant debug output. You can also enable it after boot by going to the correct place at /sys/modules and changing the values there.
  • To test on 2.6.22.5, use git format-patch -o dir master-om..s3c2410-cpufreq-om to generate a set of patches, and apply them all on top of the OpenMoko patches 2.6.22.5 kernel, except the framebuffer patch(es) (the 2.6.24.x code for the framebuffer is different from the 2.6.22.5 one).

What's already done

Driver Status
core Working
timer Working
nand Working
serial Working
framebuffer Broken

S3C2410A cpufreq driver

This code resides on arch/arm/mach-s3c2410/s3c2410-cpufreq.c and is responsible for actually changing the frequency.

The list of available frequencies and their parameters (HCLK/PCLK dividers) can be found on this file.

Timer 4 driver

Timer 4 is used by the kernel as the periodic tick timer. The cpufreq notifier on arch/arm/plat-s3c24xx/time.c is responsible for adjusting the current and reload values of the timer to match the new frequency.

Serial driver

The cpufreq notifier on drivers/serial/s3c2410.c is responsible for (if possible) pausing both sides of the serial transmission before the frequency change and reloading the baud generator (and unpausing the serial transmission) after the change.

Pausing the transmission is currently only possible with hardware flow control. Since both serial ports on GTA01 use hardware flow control, that's not a problem (unless you are using the serial console).

Framebuffer driver

The cpufreq notifier on drivers/video/s3c2410fb.c is responsible for turning off the video before the frequency change and reloading its configuration after the frequency change.

NAND driver

The cpufreq notifier on drivers/mtd/nand/s3c2410.c is responsible for reprogramming the NAND timings after a frequency change.

What's missing

S3C2410A cpufreq driver

The frequency table should be checked for better divisor values (1:1:1 might be appropriate in more situations), and the code should be able to deal with HDIVN1 and different bus modes.

Missing drivers

  • Backlight (uses a PWM timer; not a problem with full brightness)
  • Vibrator (uses a PWM timer)
  • MMC/SD (can be avoided by not plugging it in)
  • I2C (without a notifier and booting at the maximum speed, it can only get slower; there should be no side effects, since there's no minimum bus speed)
  • IIS
  • SPI

GTA02 driver

The GTA02 uses a different (but similar) SoC. Parts of the code have to be changed to be able to work on both. Also, part of the serial notifier code is specific to each kind of SoC.

Frequency restrictions

Some drivers need specific frequencies. Currently there's no way to tell the cpufreq core of that, but at minimum a cpufreq notifier should be used to turn them off if they won't be able to work with that frequency.

  • The datasheet says the USB device gets unstable if the frequency is below a minimum value
  • When using the IIS device, changing the frequency might not be a good idea, since it can cause audio glitches. It also probably needs a minimum frequency depending on the output audio frequency and sample size.
  • The LCD device might also need a minimum frequency.
  • The serial baudrate generator might not have a good enough divider value for some baud rates and some clock frequencies (for instance, 115200 at 12000 kHz)

See also