Re: [PATCH RFC 02/12] Documentation: thermal docbook: add glossary

[Eduardo Valentin]

Randy

On Tue, Feb 10, 2015 at 02:50:47PM -0800, Randy Dunlap wrote:
> On 02/09/15 13:34, Eduardo Valentin wrote:
> > This change introduces a section in the Introduction Chapter to
> > list concepts used by the Thermal Framework.
> > 
> > Signed-off-by: Eduardo Valentin <edubezval@xxxxxxxxx>
> > ---
> >  Documentation/DocBook/thermal.tmpl | 129 ++++++++++++++++++++++++++++++++++++-
> >  1 file changed, 128 insertions(+), 1 deletion(-)
> > 
> > diff --git a/Documentation/DocBook/thermal.tmpl b/Documentation/DocBook/thermal.tmpl
> > index f8fb8a2..66efed3 100644
> > --- a/Documentation/DocBook/thermal.tmpl
> > +++ b/Documentation/DocBook/thermal.tmpl
> > @@ -84,5 +84,132 @@
> >  		devices.
> >  		</para>
> >  
> > -  </chapter>
> > +		<sect1 id="glossary">
> > +			<title>Glossary</title>
> > +			<para>The Linux Kernel Thermal Framework  uses a
> > +			specific terminology to represent the entities involved
> > +			in thermal constrained environments. This section
> > +			summaries the terminology as dictionary. These terms are
> 
> 			summarizes
> 
> > +			in use within the present document and in the source
> > +			code of the Linux Kernel Thermal Framework.
> > +			</para>
> > +			<glossary>
> > +				<glossentry>
> > +					<glossterm>Thermal Zone</glossterm>
> > +					<glossdef>
> > +						<para>Thermal zones represent
> > +						what is the current status of a
> > +						thermal constrained zone in the
> > +						hardware. The zone usually is a
> > +						device or component. The status
> > +						of a thermal zone is mainly with
> > +						respect to temperature.
> > +						Currently, the Linux Kernel
> > +						Thermal Framework represents
> > +						temperature in miliCelsius. The
> > +						current abstraction covers for
> > +						non negative temperatures and
> 
> 						non-negative
> 
> > +						constraints.
> > +						</para>
> > +					</glossdef>
> > +				</glossentry>
> > +				<glossentry>
> > +					<glossterm>Thermal Sensors</glossterm>
> > +					<glossdef>
> > +						<para>Thermal sensors provide
> > +						temperature sensing capabilities
> > +						on thermal zones. Typical
> > +						devices are I2C ADC converters
> > +						and bandgaps. These are nodes
> > +						providing temperature data to
> > +						thermal zones. Thermal sensor
> > +						devices may control one or more
> > +						internal sensors.
> > +						</para>
> > +					</glossdef>
> > +				</glossentry>
> > +				<glossentry>
> > +					<glossterm>Trips Points</glossterm>
> 
> 					           Trip Points
> 
> > +					<glossdef>
> > +						<para>The trip node describes a
> > +						point in the temperature domain
> > +						in which the system takes an
> > +						action. This item describes just
> > +						the point, not the action. Trip
> > +						points are represented as
> > +						temperature in miliCelsius. The
> > +						current abstraction covers for
> > +						non negative temperatures.
> 
> 						non-negative
> 
> > +						</para>
> > +					</glossdef>
> > +				</glossentry>
> > +				<glossentry>
> > +					<glossterm>Thermal Governor</glossterm>
> > +					<glossdef>
> > +						<para>Thermal Governors
> > +						represent a policy to manage the
> > +						thermal zone device temperature.
> > +						The governor targets to keep
> > +						temperature in an acceptable
> > +						range which correlates to the
> > +						power budget, while maximizing
> > +						the performance. Governors can
> > +						be implemented in Kernel Space
> > +						or in User Space.
> > +						</para>
> > +					</glossdef>
> > +				</glossentry>
> > +				<glossentry>
> > +					<glossterm>Thermal Cooling Device</glossterm>
> > +					<glossdef>
> > +						<para>Cooling devices provide
> > +						control on power dissipation.
> > +						There are essentially two ways
> > +						to provide control on power
> > +						dissipation. First is by means
> > +						of regulating device
> > +						performance, which is known as
> > +						passive cooling. A typical
> > +						passive cooling is a CPU that
> > +						has dynamic voltage and
> > +						frequency scaling (DVFS), and
> > +						uses lower frequencies as
> > +						cooling states. Second is by
> > +						means of activating devices in
> > +						order to remove the dissipated
> > +						heat, which is known as active
> > +						cooling, e.g. regulating fan
> > +						speeds. In both cases, cooling
> > +						devices shall have a way to
> > +						determine the state of cooling
> > +						in which the device is.
> > +				</para>
> > +					</glossdef>
> > +				</glossentry>
> > +				<glossentry>
> > +					<glossterm>Cooling State</glossterm>
> > +					<glossdef>
> > +						<para>Any cooling device has a
> > +						range of cooling states (i.e.
> > +						different levels of heat
> > +						dissipation). For example a
> > +						fan's cooling states correspond
> > +						to the different fan speeds
> > +						possible. Cooling states are
> > +						referred to by single unsigned
> > +						integers, where larger numbers
> > +						mean greater heat dissipation.
> > +						The precise set of cooling
> > +						states associated with a device
> > +						(as referred to be the
> > +						cooling-min-state and
> > +						cooling-max-state properties)
> > +						should be defined in a
> > +						particular device's binding.
> > +						</para>
> > +					</glossdef>
> > +				</glossentry>
> > +			</glossary>
> > +		</sect1>
> > +	</chapter>
> >  </book>
> > 
> 
> 
> -- 
> ~Randy


Fixing all the above in next version.

Thanks,

Eduardo Valentin

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