[libcamera-devel,v5,11/19] Documentation: IPU3 IPA Design guide
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Message ID 20211026112340.110169-12-jeanmichel.hautbois@ideasonboard.com
State Accepted
Commit 372698ece3492771bececb6fd5f7dd9f74469518
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Series
  • Document IPU3 IPA
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Commit Message

Jean-Michel Hautbois Oct. 26, 2021, 11:23 a.m. UTC
From: Kieran Bingham <kieran.bingham@ideasonboard.com>

The IPU3 IPA implements the basic 3A using the ImgU ISP.

Provide an overview document to describe its operations, and provide a
block diagram to help visualise how the components are put together to
assist any new developers exploring the code.

Signed-off-by: Kieran Bingham <kieran.bingham@ideasonboard.com>
Reviewed-by: Umang Jain <umang.jain@ideasonboard.com>
Reviewed-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
Reviewed-by: Jean-Michel Hautbois <jeanmichel.hautbois@ideasonboard.com>
---

v2:
 - /accelerator cluster/processing block/ (and refactor)
 - /Pipeline/pipeline/
 - /Camera Sensor/camera sensor/
 - /CPU accessible/CPU-accessible/
 - Remove updated control parameters from IPASessionConfiguration
 - Expand pre-frame preparation to match post-frame with the event
   descriptions.
 - Add Sensor Controls brief
 - Move to src/ipa/ipu3/
 - Lower indentation of the block diagrams (keep under 80chars)
 - reference mapBuffers() call for passing buffers in
 - reference unmapBuffers() after stop()
---
 src/ipa/ipu3/ipu3-ipa-design-guide.rst | 155 +++++++++++++++++++++++++
 1 file changed, 155 insertions(+)
 create mode 100644 src/ipa/ipu3/ipu3-ipa-design-guide.rst

Patch
diff mbox series

diff --git a/src/ipa/ipu3/ipu3-ipa-design-guide.rst b/src/ipa/ipu3/ipu3-ipa-design-guide.rst
new file mode 100644
index 00000000..89c71108
--- /dev/null
+++ b/src/ipa/ipu3/ipu3-ipa-design-guide.rst
@@ -0,0 +1,155 @@ 
+IPU3 IPA Architecture Design and Overview
+=========================================
+
+The IPU3 IPA is built as a modular and extensible framework with an
+upper layer to manage the interactions with the pipeline handler, and
+the image processing algorithms split to compartmentalise the processing
+required for each processing block, making use of the fixed-function
+accelerators provided by the ImgU ISP.
+
+The core IPU3 class is responsible for initialisation and construction
+of the algorithm components, processing controls set by the requests
+from applications, and managing events from the pipeline handler.
+
+::
+
+      ┌───────────────────────────────────────────┐
+      │      IPU3 Pipeline Handler                │
+      │   ┌────────┐    ┌────────┐    ┌────────┐  │
+      │   │        │    │        │    │        │  │
+      │   │ Sensor ├───►│  CIO2  ├───►│  ImgU  ├──►
+      │   │        │    │        │    │        │  │
+      │   └────────┘    └────────┘    └─▲────┬─┘  │    P: Parameter Buffer
+      │                                 │P   │    │    S: Statistics Buffer
+      │                                 │    │S   │
+      └─┬───┬───┬──────┬────┬────┬────┬─┴────▼─┬──┘    1: init()
+        │   │   │      │ ▲  │ ▲  │ ▲  │ ▲      │       2: configure()
+        │1  │2  │3     │4│  │4│  │4│  │4│      │5      3: mapBuffers(), start()
+        ▼   ▼   ▼      ▼ │  ▼ │  ▼ │  ▼ │      ▼       4: processEvent()
+      ┌──────────────────┴────┴────┴────┴─────────┐    5: stop(), unmapBuffers()
+      │ IPU3 IPA                                  │
+      │                 ┌───────────────────────┐ │
+      │ ┌───────────┐   │ Algorithms            │ │
+      │ │IPAContext │   │          ┌─────────┐  │ │
+      │ │ ┌───────┐ │   │          │ ...     │  │ │
+      │ │ │       │ │   │        ┌─┴───────┐ │  │ │
+      │ │ │  SC   │ │   │        │ Tonemap ├─┘  │ │
+      │ │ │       │ ◄───►      ┌─┴───────┐ │    │ │
+      │ │ ├───────┤ │   │      │ AWB     ├─┘    │ │
+      │ │ │       │ │   │    ┌─┴───────┐ │      │ │
+      │ │ │  FC   │ │   │    │ AGC     ├─┘      │ │
+      │ │ │       │ │   │    │         │        │ │
+      │ │ └───────┘ │   │    └─────────┘        │ │
+      │ └───────────┘   └───────────────────────┘ │
+      └───────────────────────────────────────────┘
+        SC: IPASessionConfiguration
+        FC: IPAFrameContext(s)
+
+The IPA instance is constructed and initialised at the point a Camera is
+created by the IPU3 pipeline handler. The initialisation call provides
+details about which camera sensor is being used, and the controls that
+it has available, along with their default values and ranges.
+
+Buffers
+~~~~~~~
+
+The IPA will have Parameter and Statistics buffers shared with it from
+the IPU3 Pipeline handler. These buffers will be passed to the IPA using
+the ``mapBuffers()`` call before the ``start()`` operation occurs.
+
+The IPA will map the buffers into CPU-accessible memory, associated with
+a buffer ID, and further events for sending or receiving parameter and
+statistics buffers will reference the ID to avoid expensive memory
+mapping operations, or the passing of file handles during streaming.
+
+After the ``stop()`` operation occurs, these buffers will be unmapped
+when requested by the pipeline handler using the ``unmapBuffers()`` call
+and no further access to the buffers is permitted.
+
+Context
+~~~~~~~
+
+Algorithm calls will always have the ``IPAContext`` available to them.
+This context comprises of two parts:
+
+-  IPA Session Configuration
+-  IPA Frame Context
+
+The session configuration structure ``IPASessionConfiguration``
+represents constant parameters determined before streaming commenced
+during ``configure()``.
+
+The IPA Frame Context provides the storage for algorithms for a single
+frame operation.
+
+The ``IPAFrameContext`` structure may be extended to an array, list, or
+queue to store historical state for each frame, allowing algorithms to
+obtain and reference results of calculations which are deeply pipelined.
+This may only be done if an algorithm needs to know the context that was
+applied at the frame the statistics were produced for, rather than the
+previous or current frame.
+
+Presently there is a single ``IPAFrameContext`` without historical data,
+and the context is maintained and updated through successive processing
+operations.
+
+Operating
+~~~~~~~~~
+
+There are three main interactions with the algorithms for the IPU3 IPA
+to operate when running:
+
+-  configure()
+-  processEvent(``EventFillParams``)
+-  processEvent(``EventStatReady``)
+
+The configuration phase allows the pipeline-handler to inform the IPA of
+the current stream configurations, which is then passed into each
+algorithm to provide an opportunity to identify and track state of the
+hardware, such as image size or ImgU pipeline configurations.
+
+Pre-frame preparation
+~~~~~~~~~~~~~~~~~~~~~
+
+When configured, the IPA is notified by the pipeline handler of the
+Camera ``start()`` event, after which incoming requests will be queued
+for processing, requiring a parameter buffer (``ipu3_uapi_params``) to
+be populated for the ImgU. This is given to the IPA through the
+``EventFillParams`` event, and then passed directly to each algorithm
+through the ``prepare()`` call allowing the ISP configuration to be
+updated for the needs of each component that the algorithm is
+responsible for.
+
+The algorithm should set the use flag (``ipu3_uapi_flags``) for any
+structure that it modifies, and it should take care to ensure that any
+structure set by a use flag is fully initialised to suitable values.
+
+The parameter buffer is returned to the pipeline handler through the
+``ActionParamFilled`` event, and from there queued to the ImgU along
+with a raw frame captured with the CIO2.
+
+Post-frame completion
+~~~~~~~~~~~~~~~~~~~~~
+
+When the capture of an image is completed, and successfully processed
+through the ImgU, the generated statistics buffer
+(``ipu3_uapi_stats_3a``) is given to the IPA through the
+``EventStatReady`` event. This provides the IPA with an opportunity to
+examine the results of the ISP and run the calculations required by each
+algorithm on the new data. The algorithms may require context from the
+operations of other algorithms, for example, the AWB might choose to use
+a scene brightness determined by the AGC. It is important that the
+algorithms are ordered to ensure that required results are determined
+before they are needed.
+
+The ordering of the algorithm processing is determined by their
+placement in the ``IPU3::algorithms_`` ordered list.
+
+Sensor Controls
+~~~~~~~~~~~~~~~
+
+The AutoExposure and AutoGain (AGC) algorithm differs slightly from the
+others as it requires operating directly on the sensor, as opposed to
+through the ImgU ISP. To support this, there is a dedicated action
+`ActionSetSensorControls` to allow the IPA to request controls to be set
+on the camera sensor through the pipeline handler.