Documentation/admin-guide/perf/imx-ddr.rst - linux - Git at Google

 =====================================================
 Freescale i.MX8 DDR Performance Monitoring Unit (PMU)
 =====================================================

 There are no performance counters inside the DRAM controller, so performance
 signals are brought out to the edge of the controller where a set of 4 x 32 bit
 counters is implemented. This is controlled by the CSV modes programmed in counter
 control register which causes a large number of PERF signals to be generated.

 Selection of the value for each counter is done via the config registers. There
 is one register for each counter. Counter 0 is special in that it always counts
 “time” and when expired causes a lock on itself and the other counters and an
 interrupt is raised. If any other counter overflows, it continues counting, and
 no interrupt is raised.

 The "format" directory describes format of the config (event ID) and config1/2
 (AXI filter setting) fields of the perf_event_attr structure, see /sys/bus/event_source/
 devices/imx8_ddr0/format/. The "events" directory describes the events types
 hardware supported that can be used with perf tool, see /sys/bus/event_source/
 devices/imx8_ddr0/events/. The "caps" directory describes filter features implemented
 in DDR PMU, see /sys/bus/events_source/devices/imx8_ddr0/caps/.

     .. code-block:: bash

         perf stat -a -e imx8_ddr0/cycles/ cmd
         perf stat -a -e imx8_ddr0/read/,imx8_ddr0/write/ cmd

 AXI filtering is only used by CSV modes 0x41 (axid-read) and 0x42 (axid-write)
 to count reading or writing matches filter setting. Filter setting is various
 from different DRAM controller implementations, which is distinguished by quirks
 in the driver. You also can dump info from userspace, "caps" directory show the
 type of AXI filter (filter, enhanced_filter and super_filter). Value 0 for
 un-supported, and value 1 for supported.

 * With DDR_CAP_AXI_ID_FILTER quirk(filter: 1, enhanced_filter: 0, super_filter: 0).
   Filter is defined with two configuration parts:
   --AXI_ID defines AxID matching value.
   --AXI_MASKING defines which bits of AxID are meaningful for the matching.

       - 0: corresponding bit is masked.
       - 1: corresponding bit is not masked, i.e. used to do the matching.

   AXI_ID and AXI_MASKING are mapped on DPCR1 register in performance counter.
   When non-masked bits are matching corresponding AXI_ID bits then counter is
   incremented. Perf counter is incremented if::

         AxID && AXI_MASKING == AXI_ID && AXI_MASKING

   This filter doesn't support filter different AXI ID for axid-read and axid-write
   event at the same time as this filter is shared between counters.

   .. code-block:: bash

       perf stat -a -e imx8_ddr0/axid-read,axi_mask=0xMMMM,axi_id=0xDDDD/ cmd
       perf stat -a -e imx8_ddr0/axid-write,axi_mask=0xMMMM,axi_id=0xDDDD/ cmd

   .. note::

       axi_mask is inverted in userspace(i.e. set bits are bits to mask), and
       it will be reverted in driver automatically. so that the user can just specify
       axi_id to monitor a specific id, rather than having to specify axi_mask.

   .. code-block:: bash

         perf stat -a -e imx8_ddr0/axid-read,axi_id=0x12/ cmd, which will monitor ARID=0x12

 * With DDR_CAP_AXI_ID_FILTER_ENHANCED quirk(filter: 1, enhanced_filter: 1, super_filter: 0).
   This is an extension to the DDR_CAP_AXI_ID_FILTER quirk which permits
   counting the number of bytes (as opposed to the number of bursts) from DDR
   read and write transactions concurrently with another set of data counters.

 * With DDR_CAP_AXI_ID_PORT_CHANNEL_FILTER quirk(filter: 0, enhanced_filter: 0, super_filter: 1).
   There is a limitation in previous AXI filter, it cannot filter different IDs
   at the same time as the filter is shared between counters. This quirk is the
   extension of AXI ID filter. One improvement is that counter 1-3 has their own
   filter, means that it supports concurrently filter various IDs. Another
   improvement is that counter 1-3 supports AXI PORT and CHANNEL selection. Support
   selecting address channel or data channel.

   Filter is defined with 2 configuration registers per counter 1-3.
   --Counter N MASK COMP register - including AXI_ID and AXI_MASKING.
   --Counter N MUX CNTL register - including AXI CHANNEL and AXI PORT.

       - 0: address channel
       - 1: data channel

   PMU in DDR subsystem, only one single port0 exists, so axi_port is reserved
   which should be 0.

   .. code-block:: bash

       perf stat -a -e imx8_ddr0/axid-read,axi_mask=0xMMMM,axi_id=0xDDDD,axi_channel=0xH/ cmd
       perf stat -a -e imx8_ddr0/axid-write,axi_mask=0xMMMM,axi_id=0xDDDD,axi_channel=0xH/ cmd

   .. note::

       axi_channel is inverted in userspace, and it will be reverted in driver
       automatically. So that users do not need specify axi_channel if want to
       monitor data channel from DDR transactions, since data channel is more
       meaningful.
	=====================================================
	Freescale i.MX8 DDR Performance Monitoring Unit (PMU)
	=====================================================

	There are no performance counters inside the DRAM controller, so performance
	signals are brought out to the edge of the controller where a set of 4 x 32 bit
	counters is implemented. This is controlled by the CSV modes programmed in counter
	control register which causes a large number of PERF signals to be generated.

	Selection of the value for each counter is done via the config registers. There
	is one register for each counter. Counter 0 is special in that it always counts
	“time” and when expired causes a lock on itself and the other counters and an
	interrupt is raised. If any other counter overflows, it continues counting, and
	no interrupt is raised.

	The "format" directory describes format of the config (event ID) and config1/2
	(AXI filter setting) fields of the perf_event_attr structure, see /sys/bus/event_source/
	devices/imx8_ddr0/format/. The "events" directory describes the events types
	hardware supported that can be used with perf tool, see /sys/bus/event_source/
	devices/imx8_ddr0/events/. The "caps" directory describes filter features implemented
	in DDR PMU, see /sys/bus/events_source/devices/imx8_ddr0/caps/.

	.. code-block:: bash

	perf stat -a -e imx8_ddr0/cycles/ cmd
	perf stat -a -e imx8_ddr0/read/,imx8_ddr0/write/ cmd

	AXI filtering is only used by CSV modes 0x41 (axid-read) and 0x42 (axid-write)
	to count reading or writing matches filter setting. Filter setting is various
	from different DRAM controller implementations, which is distinguished by quirks
	in the driver. You also can dump info from userspace, "caps" directory show the
	type of AXI filter (filter, enhanced_filter and super_filter). Value 0 for
	un-supported, and value 1 for supported.

	* With DDR_CAP_AXI_ID_FILTER quirk(filter: 1, enhanced_filter: 0, super_filter: 0).
	Filter is defined with two configuration parts:
	--AXI_ID defines AxID matching value.
	--AXI_MASKING defines which bits of AxID are meaningful for the matching.

	- 0: corresponding bit is masked.
	- 1: corresponding bit is not masked, i.e. used to do the matching.

	AXI_ID and AXI_MASKING are mapped on DPCR1 register in performance counter.
	When non-masked bits are matching corresponding AXI_ID bits then counter is
	incremented. Perf counter is incremented if::

	AxID && AXI_MASKING == AXI_ID && AXI_MASKING

	This filter doesn't support filter different AXI ID for axid-read and axid-write
	event at the same time as this filter is shared between counters.

	.. code-block:: bash

	perf stat -a -e imx8_ddr0/axid-read,axi_mask=0xMMMM,axi_id=0xDDDD/ cmd
	perf stat -a -e imx8_ddr0/axid-write,axi_mask=0xMMMM,axi_id=0xDDDD/ cmd

	.. note::

	axi_mask is inverted in userspace(i.e. set bits are bits to mask), and
	it will be reverted in driver automatically. so that the user can just specify
	axi_id to monitor a specific id, rather than having to specify axi_mask.

	.. code-block:: bash

	perf stat -a -e imx8_ddr0/axid-read,axi_id=0x12/ cmd, which will monitor ARID=0x12

	* With DDR_CAP_AXI_ID_FILTER_ENHANCED quirk(filter: 1, enhanced_filter: 1, super_filter: 0).
	This is an extension to the DDR_CAP_AXI_ID_FILTER quirk which permits
	counting the number of bytes (as opposed to the number of bursts) from DDR
	read and write transactions concurrently with another set of data counters.

	* With DDR_CAP_AXI_ID_PORT_CHANNEL_FILTER quirk(filter: 0, enhanced_filter: 0, super_filter: 1).
	There is a limitation in previous AXI filter, it cannot filter different IDs
	at the same time as the filter is shared between counters. This quirk is the
	extension of AXI ID filter. One improvement is that counter 1-3 has their own
	filter, means that it supports concurrently filter various IDs. Another
	improvement is that counter 1-3 supports AXI PORT and CHANNEL selection. Support
	selecting address channel or data channel.

	Filter is defined with 2 configuration registers per counter 1-3.
	--Counter N MASK COMP register - including AXI_ID and AXI_MASKING.
	--Counter N MUX CNTL register - including AXI CHANNEL and AXI PORT.

	- 0: address channel
	- 1: data channel

	PMU in DDR subsystem, only one single port0 exists, so axi_port is reserved
	which should be 0.

	.. code-block:: bash

	perf stat -a -e imx8_ddr0/axid-read,axi_mask=0xMMMM,axi_id=0xDDDD,axi_channel=0xH/ cmd
	perf stat -a -e imx8_ddr0/axid-write,axi_mask=0xMMMM,axi_id=0xDDDD,axi_channel=0xH/ cmd

	.. note::

	axi_channel is inverted in userspace, and it will be reverted in driver
	automatically. So that users do not need specify axi_channel if want to
	monitor data channel from DDR transactions, since data channel is more
	meaningful.