Hi!
The following patches add CPU frequency and volatage scaling
support (Intel SpeedStep, AMD PowerNow, etc.) to kernel 2.5.39.
As was discussed during the 2.5.32 cpufreq thread, the cpufreq patches
have been reworked to use a policy-based approach now. A cpufreq policy
consists of four values:
cpu - the affected CPU nr., or CPUFREQ_ALL_CPUS for all cpus
min - minimum frequency in kHz
max - maximum frequency in kHz
policy - CPUFREQ_POLICY_PERFORMANCE or CPUFREQ_POLICY_POWERSAVE
The interface to userspace is /proc/cpufreq, and the user can "echo" a new
policy into this file using the following syntax:
[cpu:]min_freq:max_freq:policy or
[cpu%]min_pctg%max_pctg%policy
with policy either "powersave" or "performance". The cpu argument is
optional.
In cpufreq drivers for "dumb" hardware which can only be set to a specific
frequency (and not to a frequency range), one value within the policy range
is selected, and the CPU is statically set to this frequency until a new
policy is set. "Virtual" dynamic frequency changing is not yet implemented.
For more information, please take a look at the file Documentation/cpufreq in
patch 4/5.
The patches, as well as backports to 2.4.19 and 2.4.20-pre7 are also
available at http://www.brodo.de/cpufreq/ :
http://www.brodo.de/cpufreq/cpufreq-2.5.39-core-1
http://www.brodo.de/cpufreq/cpufreq-2.5.39-i386-core-1
http://www.brodo.de/cpufreq/cpufreq-2.5.39-i386-drivers-1
http://www.brodo.de/cpufreq/cpufreq-2.5.39-doc-1
http://www.brodo.de/cpufreq/cpufreq-2.5.39-24api-1
Patch 1/5: cpufreq-core
-----------------------
The cpufreq core offers a common interface to the CPU clock
speed features of ARM, PPC and x86 CPUs.
In order for this code to be built, an architecture must define the
CONFIG_CPU_FREQ configuration symbol. The i386 code follows in
parts 2 and 3, the ARM and PPC ports will most likely follow in the
next days or weeks.
Specifically on ARM CPUs, cpufreq_notify_transition is especially
important, since various ARM system on a chip implementations
derive peripheral clocks from the CPU clock (eg, LCD controllers,
SDRAM controllers, etc). The core allows these peripherals to take
action either prior and/or after the actual CPU clock adjustment so
we don't go out of tolerance. Please note that CPUFREQ_TRANSITION_NOTIFIERS
are only called on "dumb" cpufreq hardware. On Transmeta Crusoe processors,
where core frequency changes have no external implications, these can safely
be ignored.
Patch 2/5: cpufreq-i386-core
----------------------------
The main part of this patch is a CPUFreq transition notifier in
arch/i386/kernel/time.c. It updates the i386-specific cpu_khz,
cpu_data[].loops_per_jiffy and fast_gettimeoffset_quotient on
each frequency change.
Additionally, this patch allows "cpu_khz" to be exported (it is needed
for some cpufreq drivers) and adds transmeta-related MSR #defines to
asm-i386/msr.h
Patch 3/5: cpufreq-i386-drivers
-------------------------------
Six i386 CPUFreq drivers are ready to be merged this time. These are:
elanfreq.c: The AMD Elan CPU family offers extensive clock scaling
longhaul.c: VIA Longhaul processor clock + voltage scaling
longrun.c: Transmeta Crusoe Longrun clock + voltage scaling
p4-clockmod.c: clock modulation on P4 Xeon processors
powernow-k6.c: mobile AMD K6-2+ / mobile AMD K6-3+ clock scaling
speedstep.c: clock and voltage scaling on mobile Intel Pentium 3 and 4s,
but (unfortunately) only on ICH2-M or ICH3-M based
chipsets.
Support for mobile AMD K7 processors is still in development.
Patch 4/5: cpufreq-doc
----------------------
an entry to the CREDITS and the MAINTAINERS files, Config.help texts, and
extensive documentation in linux/Documentation/cpufreq
Patch 5/5: cpufreq-core-24api
-----------------------------
Some user-space tools already rely on the "old", one-frequency
/proc/sys/cpu/ interface suggested previously. This add-on patch allows a
CONFIG option which emulates this interface but still uses the policy
interface towards the cpufreq drivers.
Please note that the other patches do not rely on this patch and work fine
without this patch applied, but only with the /proc/cpufreq interface.
Comments welcome; however please ensure that the cpufreq development
list at cpufreq@http://www.linux.org.uk receives a copy of all comments.
Dominik
Hi!
> The interface to userspace is /proc/cpufreq, and the user can "echo" a new
> policy into this file using the following syntax:
> [cpu:]min_freq:max_freq:policy or
> [cpu%]min_pctg%max_pctg%policy
Should we have both in kernel?
How does it interact with ACPI? Ie. I do echo "100%100%foo", but ACPI thermal
managment decides to slow down?
> Patch 3/5: cpufreq-i386-drivers
> -------------------------------
> Six i386 CPUFreq drivers are ready to be merged this time. These are:
> elanfreq.c: The AMD Elan CPU family offers extensive clock scaling
> longhaul.c: VIA Longhaul processor clock + voltage scaling
> longrun.c: Transmeta Crusoe Longrun clock + voltage scaling
> p4-clockmod.c: clock modulation on P4 Xeon processors
> powernow-k6.c: mobile AMD K6-2+ / mobile AMD K6-3+ clock scaling
> speedstep.c: clock and voltage scaling on mobile Intel Pentium 3 and 4s,
> but (unfortunately) only on ICH2-M or ICH3-M based
> chipsets.
>
> Support for mobile AMD K7 processors is still in development.
What about mobile celerons?
Pavel
--
Philips Velo 1: 1"x4"x8", 300gram, 60, 12MB, 40bogomips, linux, mutt,
details at http://atrey.karlin.mff.cuni.cz/~pavel/velo/index.html.
> From: Pavel Machek [mailto:[email protected]]
> How does it interact with ACPI? Ie. I do echo "100%100%foo",
> but ACPI thermal
> managment decides to slow down?
How do you think it should be handled?
Will the ACPI thermal driver be able to use a standard cpufreq interface to
request that the CPU drop to a lower mhz/voltage?
Things get interesting on a system that implements ACPI 2.0-style processor
performance controls, instead of proprietary methods. Then you could have
ACPI thermal telling cpufreq to slow down, which in turn tells the ACPI
processor driver. IMHO this is the way it should work. There is a connection
right now between the ACPI thermal and processor driver, but that is just
there because cpufreq didn't exist. This dependency should be severed, and
cpufreq should go in the middle.
This was discussed on cpufreq a few months ago and I think Dominik even
whipped up some code, but it may have bit-rotted...
> > Support for mobile AMD K7 processors is still in development.
>
> What about mobile celerons?
Mobile Celerons do not support voltage scaling.
Regards -- Andy
Hi!
> > > Support for mobile AMD K7 processors is still in development.
> >
> > What about mobile celerons?
>
> Mobile Celerons do not support voltage scaling.
But they can do frequency changes, right? And frequency is what
cpufreq is about, AFAICS. [I do not think k6 supports voltage scaling,
either. And ARM machines can't do voltage scaling, too.]
Pavel
--
Casualities in World Trade Center: ~3k dead inside the building,
cryptography in U.S.A. and free speech in Czech Republic.
> From: Pavel Machek [mailto:[email protected]]
> > Mobile Celerons do not support voltage scaling.
> But they can do frequency changes, right? And frequency is what
> cpufreq is about, AFAICS. [I do not think k6 supports voltage scaling,
> either. And ARM machines can't do voltage scaling, too.]
Well, you can throttle them, but AFAIK that's it.
Why do you think they are cheaper? They don't got no special sauce!
:)
-- Andy
On Mon, 2002-09-30 at 03:38, Pavel Machek wrote:
> How does it interact with ACPI? Ie. I do echo "100%100%foo", but ACPI thermal
> managment decides to slow down?
In an ACPI world you probably want ACPI to do the kernel requests to set
the policy not diddle it by hand. "native power control" or whatever
ACPI calls 'not using ACPI' 8)
> > Support for mobile AMD K7 processors is still in development.
>
> What about mobile celerons?
Intel support is poor. Intel have been *extremely* difficult about
speedstep, no documentation, no help, no good explanation of why they
are being a pain either. That there is any speedstep support is thanks
to a lot of work by the cpufreq folks.
Alan