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From: Lina Iyer <lina.iyer@linaro.org>
To: ulf.hansson@linaro.org, khilman@kernel.org, rjw@rjwysocki.net,
 linux-pm@vger.kernel.org, linux-arm-kernel@lists.infradead.org
Cc: geert@linux-m68k.org, k.kozlowski@samsung.com,
 msivasub@codeaurora.org, agross@codeaurora.org,
 sboyd@codeaurora.org, linux-arm-msm@vger.kernel.org,
 lorenzo.pieralisi@arm.com, ahaslam@baylibre.com,
 mtitinger@baylibre.com, Lina Iyer <lina.iyer@linaro.org>
Subject: [RFC v2 08/12] Documentation / cpu_domains: Describe CPU PM domains
 setup and governor
Date: Fri, 12 Feb 2016 13:50:34 -0700
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A generic CPU PM domain functionality is provided by
drivers/base/power/cpu_domains.c. This document describes the generic
usecase of CPU's PM domains, the setup of such domains and a CPU
specific genpd governor.

Signed-off-by: Lina Iyer <lina.iyer@linaro.org>
---
Changes since RFC v1 -
- a patch of its own 
- updated documentation

 Documentation/power/cpu_domains.txt | 79 +++++++++++++++++++++++++++++++++++++
 1 file changed, 79 insertions(+)
 create mode 100644 Documentation/power/cpu_domains.txt

-- 
2.1.4

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diff --git a/Documentation/power/cpu_domains.txt b/Documentation/power/cpu_domains.txt
new file mode 100644
index 0000000..5fdc66d
--- /dev/null
+++ b/Documentation/power/cpu_domains.txt
@@ -0,0 +1,79 @@
+CPU PM domains
+==============
+
+Newer CPUs are grouped in SoCs as clusters. A cluster in addition to the CPUs
+may have caches, VFP and architecture specific power controller that share the
+resources when any of the CPUs are active. When the CPUs are in idle, some of
+these cluster components may also idle. A cluster may also be nested inside
+another cluster that provides common coherency interfaces to share data
+between the clusters. The organization of such clusters and CPU may be
+descibed in DT, since they are SoC specific.
+
+CPUIdle framework enables the CPUs to determine the sleep time and enter low
+power state to save power during periods of idle. CPUs in a cluster may enter
+and exit idle state independently of each other. During the time when all the
+CPUs are in idle state, the cluster may safely put some of the shared
+resources in their idle state. The time between the last CPU to enter idle and
+the first CPU to wake up is the time available for the cluster to enter its
+idle state.
+
+When SoCs power down the CPU during cpuidle, they generally have supplemental
+hardware that can handshake with the CPU with a signal that indicates that the
+CPU has stopped execution. The hardware is also responsible for warm booting
+the CPU on receiving an interrupt. With cluster architecture, common resources
+that are shared by the cluster may also be powered down by an external
+microcontroller or a processor. The microcontroller may be programmed in
+advance to put the hardware blocks in a low power state, when the last active
+CPU sends the idle signal. When the signal is received, the microcontroller
+may trigger the hardware blocks to enter their low power state. When an
+interrupt to wakeup the processor is received, the microcontroller is
+responsible for bringing up the hardware blocks to its active state, before
+waking up the CPU. The timelines for such operations should be in the
+acceptable range for the for CPU idle to get power benefits.
+
+CPU PM Domain Setup
+-------------------
+
+PM domains  are represented in the DT as domain consumers and providers. A
+device may have a domain provider and a domain provider may support multiple
+domain consumers. Domains like clusters, may also be nested inside one
+another. A domain that has no active consumer, may be powered off and any
+resuming consumer would trigger the domain back to active. Parent domains may
+be powered off when the child domains are powered off. The CPU cluster can be
+fashioned as a PM domain. When the CPU devices are powered off, the PM domain
+may be powered off.
+
+Device idle is reference counted by runtime PM. When there is no active need
+for the device, runtime PM invokes callbacks to suspend the parent domain.
+Generic PM domain (genpd) handles the hierarchy of devices, domains and the
+reference counting of objects leading to last man down and first man up in the
+domain. The CPU domains helper functions defines PM domains for each CPU
+cluster and attaches the CPU devices to the respective PM domains.
+
+Platform drivers may use the following API to register their CPU PM domains.
+
+of_setup_cpu_pd() -
+Provides a single step registration of the CPU PM domain and attach CPUs to
+the genpd. Platform drivers may additionally register callbacks for power_on
+and power_off operations for the PM domain.
+
+of_setup_cpu_pd_single() -
+Define PM domain for a single CPU and attach the CPU to its domain.
+
+
+CPU PM Domain governor
+----------------------
+
+CPUs have an unique ability to determine their next wakeup. CPUs may wake up
+for known timer interrupts and unknown interrupts from idle. Prediction
+algorithms and heuristic based algorithms like the Menu governor for cpuidle
+can determine the next wakeup of the CPU. However, determining the wakeup
+across a group of CPUs is a tough problem to solve.
+
+A simplistic approach would be to resort to known wakeups of the CPUs in
+determining the next wakeup of any CPU in the cluster. The CPU PM domain
+governor does just that. By looking into the tick device of the CPUs, the
+governor can determine the sleep time between the last CPU and the first
+scheduled wakeup of any CPU in that domain. This combined with the PM QoS
+requirement for CPU_DMA_LATENCY can be used to determine the deepest possible
+idle state of the CPU domain.