boards: nxp: adopt new zephyr:board directive and role

This updates the documentation of all the NXP boards to use
the new `zephyr:board::` directive.

Signed-off-by: Benjamin Cabé <benjamin@zephyrproject.org>

boards/nxp/frdm_k22f/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_k22f:
-
-NXP FRDM-K22F
-##############
+.. zephyr:board:: frdm_k22f
 
 Overview
 ********
@@ -19,10 +16,6 @@ MCUs.
   running an open source bootloader, offers options for serial communication,
   flash programming, and run-control debugging
 
-.. image:: frdm_k22f.jpg
-   :align: center
-   :alt: FRDM-K22F
-
 Hardware
 ********
 
@@ -59,7 +52,7 @@ Supported Features
 
 The frdm_k22f board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`frdm_k64f`, which is the superset board in NXP's Kinetis K series.
+:zephyr:board:`frdm_k64f`, which is the superset board in NXP's Kinetis K series.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the frdm_k64f board may have additional features
 already supported, which can also be re-used on this frdm_k22f board:

boards/nxp/frdm_k64f/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_k64f:
-
-NXP FRDM-K64F
-##############
+.. zephyr:board:: frdm_k64f
 
 Overview
 ********
@@ -19,10 +16,6 @@ K63, and K24 MCUs.
   running an open source bootloader, offers options for serial communication,
   flash programming, and run-control debugging
 
-.. image:: frdm_k64f.jpg
-   :align: center
-   :alt: FRDM-K64F
-
 Hardware
 ********
 

boards/nxp/frdm_k82f/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_k82f:
-
-NXP FRDM-K82F
-##############
+.. zephyr:board:: frdm_k82f
 
 Overview
 ********
@@ -19,10 +16,6 @@ and K82 MCUs.
   running an open source bootloader, offers options for serial communication,
   flash programming, and run-control debugging
 
-.. image:: frdm_k82f.jpg
-   :align: center
-   :alt: FRDM-K82F
-
 Hardware
 ********
 
@@ -60,7 +53,7 @@ Supported Features
 
 The frdm_k82f board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`frdm_k64f`, which is the superset board in NXP's Kinetis K series.
+:zephyr:board:`frdm_k64f`, which is the superset board in NXP's Kinetis K series.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the frdm_k64f board may have additional features
 already supported, which can also be re-used on this frdm_k82f board:

boards/nxp/frdm_ke15z/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_ke15z:
-
-NXP FRDM-KE15Z
-##############
+.. zephyr:board:: frdm_ke15z
 
 Overview
 ********
@@ -12,10 +9,6 @@ with up to 50 channels which makes this board highly flexible
 for touch keys. Offers options for serial
 communication, flash programming, and run-control debugging.
 
-.. figure:: frdm_ke15z.webp
-   :align: center
-   :alt: FRDM-KE15Z
-
 Hardware
 ********
 

boards/nxp/frdm_ke17z/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_ke17z:
-
-NXP FRDM-KE17Z
-##############
+.. zephyr:board:: frdm_ke17z
 
 Overview
 ********
@@ -12,12 +9,6 @@ with up to 50 channels which makes this board highly flexible
 for touch keys. Offers options for serial
 communication, flash programming, and run-control debugging.
 
-.. figure:: frdmke17z.webp
-   :align: center
-   :alt: FRDM-KE17Z
-
-   FRDM-KE17Z (Credit: NXP)
-
 Hardware
 ********
 

boards/nxp/frdm_ke17z512/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_ke17z512:
-
-NXP  FRDM-KE17Z512
-##################
+.. zephyr:board:: frdm_ke17z512
 
 Overview
 ********
@@ -11,12 +8,6 @@ MCU-based platforms. The onboard OpenSDAv2 serial and debug adapter,
 running an open source bootloader, offers options for serial
 communication, flash programming, and run-control debugging.
 
-.. figure:: frdm_ke17z512.webp
-   :align: center
-   :alt: FRDM-KE17Z512
-
-   FRDM-KE17Z512 (Credit: NXP)
-
 Hardware
 ********
 

boards/nxp/frdm_kl25z/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_kl25z:
-
-NXP FRDM-KL25Z
-##############
+.. zephyr:board:: frdm_kl25z
 
 Overview
 ********
@@ -14,11 +11,6 @@ The FRDM-KL25Z features include easy access to MCU I/O, battery-ready,
 low-power operation, a standard-based form factor with expansion board
 options and a built-in debug interface for flash programming and run-control.
 
-
-.. image:: frdm_kl25z.jpg
-   :align: center
-   :alt: FRDM-KL25Z
-
 Hardware
 ********
 

boards/nxp/frdm_kw41z/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_kw41z:
-
-NXP FRDM-KW41Z
-##############
+.. zephyr:board:: frdm_kw41z
 
 Overview
 ********
@@ -22,10 +19,6 @@ F-antenna which can be bypassed to test via SMA connection, multiple power
 supply options, push/capacitive touch buttons, switches, LEDs and integrated
 sensors.
 
-.. image:: frdm_kw41z.jpg
-   :align: center
-   :alt: FRDM-KW41Z
-
 Hardware
 ********
 

boards/nxp/frdm_mcxa156/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxa156:
-
-NXP FRDM-MCXA156
-################
+.. zephyr:board:: frdm_mcxa156
 
 Overview
 ********
@@ -13,10 +10,6 @@ an on-board MCU-Link debugger. MCX N Series are high-performance, low-power
 microcontrollers with intelligent peripherals and accelerators providing multi-tasking
 capabilities and performance efficiency.
 
-.. image:: frdm_mcxa156.webp
-   :align: center
-   :alt: FRDM-MCXA156
-
 Hardware
 ********
 

boards/nxp/frdm_mcxc242/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxc242:
-
-NXP FRDM-MCXC242
-################
+.. zephyr:board:: frdm_mcxc242
 
 Overview
 ********
@@ -13,11 +10,6 @@ interfaces and on-board MCU-Link debugger.
 The MCXC is a general purpose ultra-low-power MCU family,
 providing additional memory, communications and analog peripheral.
 
-
-.. image:: frdm_mcxc242.webp
-   :align: center
-   :alt: FRDM-MCXC242
-
 Hardware
 ********
 

boards/nxp/frdm_mcxc444/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxc444:
-
-NXP FRDM-MCXC444
-################
+.. zephyr:board:: frdm_mcxc444
 
 Overview
 ********
@@ -13,11 +10,6 @@ interfaces and on-board MCU-Link debugger.
 The MCXC is a general purpose ultra-low-power MCU family,
 providing additional memory, communications and analog peripheral.
 
-
-.. image:: frdm_mcxc444.webp
-   :align: center
-   :alt: FRDM-MCXC444
-
 Hardware
 ********
 

boards/nxp/frdm_mcxn236/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxn236:
-
-NXP FRDM-MCXN236
-################
+.. zephyr:board:: frdm_mcxn236
 
 Overview
 ********
@@ -13,10 +10,6 @@ an on-board MCU-Link debugger. MCX N Series are high-performance, low-power
 microcontrollers with intelligent peripherals and accelerators providing multi-tasking
 capabilities and performance efficiency.
 
-.. image:: frdm_mcxn236.webp
-   :align: center
-   :alt: FRDM-MCXN236
-
 Hardware
 ********
 

boards/nxp/frdm_mcxn947/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxn947:
-
-NXP FRDM-MCXN947
-################
+.. zephyr:board:: frdm_mcxn947
 
 Overview
 ********
@@ -13,10 +10,6 @@ an on-board MCU-Link debugger. MCX N Series are high-performance, low-power
 microcontrollers with intelligent peripherals and accelerators providing multi-tasking
 capabilities and performance efficiency.
 
-.. image:: frdm_mcxn947.webp
-   :align: center
-   :alt: FRDM-MCXN947
-
 Hardware
 ********
 

boards/nxp/frdm_mcxw71/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_mcxw71:
-
-NXP FRDM-MCXW71
-################
+.. zephyr:board:: frdm_mcxw71
 
 Overview
 ********
@@ -19,10 +16,6 @@ LE. The independent radio subsystem, with a dedicated core and memory, offloads
 the main CPU, preserving it for the primary application and allowing firmware
 updates to support future wireless standards.
 
-.. image:: frdm_mcxw71.webp
-   :align: center
-   :alt: FRDM-MCXW71
-
 Hardware
 ********
 

boards/nxp/frdm_rw612/doc/index.rst

@@ -1,7 +1,4 @@
-.. _frdm_rw612:
-
-NXP FRDM_RW612
-##############
+.. zephyr:board:: frdm_rw612
 
 Overview
 ********

boards/nxp/imx8mm_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _imx8mm_evk:
-
-NXP i.MX8MM EVK
-###############
+.. zephyr:board:: imx8mm_evk
 
 Overview
 ********

boards/nxp/imx8mn_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _imx8mn_evk:
-
-NXP i.MX8MN EVK (Cortex-A53)
-############################
+.. zephyr:board:: imx8mn_evk
 
 Overview
 ********

boards/nxp/imx8mp_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _imx8mp_evk:
-
-NXP i.MX8MP EVK
-###############
+.. zephyr:board:: imx8mp_evk
 
 Overview
 ********

boards/nxp/imx8mq_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimx8mq_evk:
-
-NXP MIMX8MQ EVK
-###############
+.. zephyr:board:: imx8mq_evk
 
 Overview
 ********
@@ -37,10 +34,6 @@ Zephyr OS is ported to run on the Cortex®-M4 core.
     - JTAG 10-pin connector
     - MicroUSB for UART debug, two COM ports for A53 and M4
 
-.. image:: img/mimx8mq_evk.jpg
-   :align: center
-   :alt: MIMX8MQ EVK
-
 More information about the board can be found at the
 `NXP website`_.
 

boards/nxp/imx93_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _imx93_evk:
-
-NXP i.MX93 EVK
-##############
+.. zephyr:board:: imx93_evk
 
 Overview
 ********

boards/nxp/imx95_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _imx95_evk:
-
-NXP i.MX95 EVK
-##############
+.. zephyr:board:: imx95_evk
 
 Overview
 ********

boards/nxp/lpcxpresso11u68/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso11u68:
-
-NXP LPCXpresso11U68
-###################
+.. zephyr:board:: lpcxpresso11u68
 
 Overview
 ********
@@ -9,10 +6,6 @@ Overview
 The LPCXpresso11u68 development board uses an NXP LPC11U68 MCU based
 on an ARM Cortex-M0+ core.
 
-.. figure:: lpcxpresso11u68.jpg
-   :align: center
-   :alt: LPCXpresso11U68
-
 Hardware
 ********
 

boards/nxp/lpcxpresso51u68/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso51u68:
-
-NXP LPCXPRESSO51U68
-###################
+.. zephyr:board:: lpcxpresso51u68
 
 Overview
 ********
@@ -9,10 +6,6 @@ Overview
 The LPCXpresso51u68 development board uses an NXP LPC51U68 MCU based
 on an ARM CORTEX-M0+ core.
 
-.. figure:: lpcxpresso51u68.jpg
-   :align: center
-   :alt: LPCXpresso51U68
-
 Hardware
 ********
 

boards/nxp/lpcxpresso54114/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso54114:
-
-NXP LPCXPRESSO54114
-###################
+.. zephyr:board:: lpcxpresso54114
 
 Overview
 ********
@@ -13,10 +10,6 @@ microcontrollers. LPCXpresso is an end-to-end solution enabling embedded
 engineers to develop their applications from initial evaluation to final
 production.
 
-.. image:: lpcxpresso54114_m4.jpg
-   :align: center
-   :alt: LPCXPRESSO54114
-
 Hardware
 ********
 

boards/nxp/lpcxpresso55s06/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso55s06:
-
-NXP LPCXpresso55S06
-###################
+.. zephyr:board:: lpcxpresso55s06
 
 Overview
 ********
@@ -13,10 +10,6 @@ with additional expansion ports around the Arduino footprint, along
 with a PMod/host interface port and MikroElektronika Click module
 site.
 
-.. image:: lpcxpress55s06.jpg
-   :align: center
-   :alt: LPCXpresso55S06
-
 Hardware
 ********
 
@@ -45,7 +38,7 @@ Supported Features
 
 The lpcxpresso55s06 board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
+:zephyr:board:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the lpcxpresso55s69 board may have additional features
 already supported, which can also be re-used on this lpcxpresso55s06 board:

boards/nxp/lpcxpresso55s16/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso55s16:
-
-NXP LPCXpresso55S16
-###################
+.. zephyr:board:: lpcxpresso55s16
 
 Overview
 ********
@@ -13,10 +10,6 @@ with additional expansion ports around the Arduino footprint, along
 with a PMod/host interface port and MikroElektronika Click module
 site.
 
-.. image:: lpcxpresso55S16.jpg
-   :align: center
-   :alt: LPCXpresso55S16
-
 Hardware
 ********
 
@@ -50,7 +43,7 @@ Supported Features
 
 The lpcxpresso55s16 board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
+:zephyr:board:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the lpcxpresso55s69 board may have additional features
 already supported, which can also be re-used on this lpcxpresso55s16 board:

boards/nxp/lpcxpresso55s28/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso55s28:
-
-NXP LPCXpresso55S28
-###################
+.. zephyr:board:: lpcxpresso55s28
 
 Overview
 ********
@@ -12,10 +9,6 @@ architecture. The board includes a high-performance onboard debug probe, audio
 subsystem and accelerometer, with several options for adding off-the-shelf
 add-on boards for networking, sensors, displays, and other interfaces.
 
-.. image:: LPC55S28-EVK.jpg
-   :align: center
-   :alt: LPCXpresso55S28
-
 Hardware
 ********
 
@@ -50,7 +43,7 @@ Supported Features
 
 The lpcxpresso55s28 board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
+:zephyr:board:`lpcxpresso55s69` , which is the superset board in NXP's LPC55xx series.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the lpcxpresso55s69 board may have additional features
 already supported, which can also be re-used on this lpcxpresso55s28 board:

boards/nxp/lpcxpresso55s36/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso55s36:
-
-NXP LPCXpresso55S36
-###################
+.. zephyr:board:: lpcxpresso55s36
 
 Overview
 ********
@@ -13,10 +10,6 @@ with additional expansion ports around the Arduino footprint, along
 with a PMod/host interface port and MikroElektronika Click module
 site.
 
-.. image:: lpcxpresso55S36.jpg
-   :align: center
-   :alt: LPCXpresso55S36
-
 Hardware
 ********
 
@@ -52,7 +45,7 @@ family of MCUs.  This board is a focus for NXP's Full Platform Support for
 Zephyr, to better enable the entire LPC55(S)3x family.  NXP prioritizes enabling
 this board with new support for Zephyr features.  The lpcxpresso55s36 board
 configuration supports the hardware features below.  Another similar superset
-board is the :ref:`lpcxpresso55s69`, and that board may have additional features
+board is the :zephyr:board:`lpcxpresso55s69`, and that board may have additional features
 already supported, which can also be re-used on this lpcxpresso55s36 board:
 
 +-----------+------------+-------------------------------------+

boards/nxp/lpcxpresso55s69/doc/index.rst

@@ -1,7 +1,4 @@
-.. _lpcxpresso55s69:
-
-NXP LPCXPRESSO55S69
-###################
+.. zephyr:board:: lpcxpresso55s69
 
 Overview
 ********
@@ -12,10 +9,6 @@ architecture. The board includes a high performance onboard debug probe, audio
 subsystem, and accelerometer, with several options for adding off-the-shelf
 add-on boards for networking, sensors, displays, and other interfaces.
 
-.. image:: lpcxpresso55s69.jpg
-   :align: center
-   :alt: LPCXPRESSO55S69
-
 Hardware
 ********
 

boards/nxp/ls1046ardb/doc/index.rst

@@ -1,7 +1,4 @@
-.. _nxp_ls1046ardb:
-
-NXP LS1046A RDB
-#################################
+.. zephyr:board:: ls1046ardb
 
 Overview
 ********

boards/nxp/mimxrt1010_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1010_evk:
-
-NXP MIMXRT1010-EVK
-##################
+.. zephyr:board:: mimxrt1010_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ series by providing the lowest-cost LQFP package option, combined with the
 high performance and ease-of-use known throughout the entire i.MX RT series.
 This device is fully supported by NXP’s MCUXpresso Software and Tools.
 
-.. image:: mimxrt1010_evk.jpg
-   :align: center
-   :alt: MIMXRT1010-EVK
-
 Hardware
 ********
 
@@ -69,7 +62,7 @@ Supported Features
 
 The mimxrt1010_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1010_evk board:

boards/nxp/mimxrt1015_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1015_evk:
-
-NXP MIMXRT1015-EVK
-##################
+.. zephyr:board:: mimxrt1015_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ high-performance feature set in low-cost LQFP packages, further simplifying
 board design and layout for customers. The i.MX RT1015 runs on the Arm®
 Cortex®-M7 core at 500 MHz.
 
-.. image:: mimxrt1015_evk.jpg
-   :align: center
-   :alt: MIMXRT1015-EVK
-
 Hardware
 ********
 
@@ -69,7 +62,7 @@ Supported Features
 
 The mimxrt1015_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1015_evk board:

boards/nxp/mimxrt1020_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1020_evk:
-
-NXP MIMXRT1020-EVK
-##################
+.. zephyr:board:: mimxrt1020_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ high-performance feature set in low-cost LQFP packages, further simplifying
 board design and layout for customers. The i.MX RT1020 runs on the Arm®
 Cortex®-M7 core at 500 MHz.
 
-.. image:: mimxrt1020_evk.jpg
-   :align: center
-   :alt: MIMXRT1020-EVK
-
 Hardware
 ********
 
@@ -81,7 +74,7 @@ Supported Features
 
 The mimxrt1020_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1020_evk board:

boards/nxp/mimxrt1024_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1024_evk:
-
-NXP MIMXRT1024-EVK
-##################
+.. zephyr:board:: mimxrt1024_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ high-performance feature set in low-cost LQFP packages, further simplifying
 board design and layout for customers. The i.MX RT1024 runs on the Arm®
 Cortex®-M7 core at 500 MHz.
 
-.. image:: mimxrt1024_evk.jpg
-   :align: center
-   :alt: MIMXRT1024-EVK
-
 Hardware
 ********
 
@@ -82,7 +75,7 @@ Supported Features
 
 The mimxrt1024_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1024_evk board:

boards/nxp/mimxrt1040_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1040_evk:
-
-NXP MIMXRT1040-EVK
-##################
+.. zephyr:board:: mimxrt1040_evk
 
 Overview
 ********
@@ -12,10 +9,6 @@ extended temperature range up to 125° C. The i.MX RT1040 MCU has a compact
 2-layer PCB design. The i.MX RT1040 MCUs run on the Arm® Cortex®-M7 core at
 600 MHz.
 
-.. image:: mimxrt1040_evk.jpg
-   :align: center
-   :alt: MIMXRT1040-EVK
-
 Hardware
 ********
 
@@ -91,7 +84,7 @@ Supported Features
 
 The mimxrt1040_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1040_evk board:

boards/nxp/mimxrt1050_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1050_evk:
-
-NXP MIMXRT1050-EVK
-##################
+.. zephyr:board:: mimxrt1050_evk
 
 Overview
 ********
@@ -17,10 +14,6 @@ and camera sensors. As with other i.MX processors, i.MX RT1050 also has rich
 audio and video features, including LCD display, basic 2D graphics, camera
 interface, SPDIF, and I2S audio interface.
 
-.. image:: mimxrt1050_evk.jpg
-   :align: center
-   :alt: MIMXRT1050-EVK
-
 Hardware
 ********
 
@@ -104,7 +97,7 @@ Supported Features
 
 The mimxrt1050_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1050_evk board:

boards/nxp/mimxrt1060_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1060_evk:
-
-NXP MIMXRT1060-EVK
-##################
+.. zephyr:board:: mimxrt1060_evk
 
 Overview
 ********
@@ -15,9 +12,6 @@ ideal for real-time applications such as High-Speed GPIO, CAN FD, and
 synchronous parallel NAND/NOR/PSRAM controller. The i.MX RT1060 runs on the
 Arm® Cortex-M7® core up to 600 MHz.
 
-.. image:: mimxrt1060_evk.jpg
-   :align: center
-   :alt: MIMXRT1060-EVK
 
 Hardware
 ********
@@ -103,7 +97,7 @@ Supported Features
 
 The mimxrt1060_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1060_evk board:

boards/nxp/mimxrt1062_fmurt6/doc/index.rst

@@ -1,7 +1,4 @@
-.. _fmurt6:
-
-NXP FMURT6
-##################
+.. zephyr:board:: mimxrt1062_fmurt6
 
 Overview
 ********
@@ -15,10 +12,6 @@ ideal for real-time applications such as High-Speed GPIO, CAN FD, and
 synchronous parallel NAND/NOR/PSRAM controller. The i.MX RT1062 runs on the
 Arm® Cortex-M7® core up to 600 MHz.
 
-.. image:: mimxrt1062_fmurt6.jpg
-   :align: center
-   :alt: MIMXRT1062_FMURT6
-
 Hardware
 ********
 
@@ -77,7 +70,7 @@ Supported Features
 
 The mimxrt1062_fmurt6 board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
+:zephyr:board:`mimxrt1064_evk` , which is the superset board in NXP's i.MX RT10xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1064_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1060_evk board:

boards/nxp/mimxrt1064_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1064_evk:
-
-NXP MIMXRT1064-EVK
-##################
+.. zephyr:board:: mimxrt1064_evk
 
 Overview
 ********
@@ -14,10 +11,6 @@ ideal for real-time applications such as High-Speed GPIO, CAN FD, and
 synchronous parallel NAND/NOR/PSRAM controller. The i.MX RT1064 runs on the
 Arm® Cortex-M7® core up to 600 MHz.
 
-.. image:: mimxrt1064_evk.jpg
-   :align: center
-   :alt: MIMXRT1064-EVK
-
 Hardware
 ********
 

boards/nxp/mimxrt1160_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1160_evk:
-
-NXP MIMXRT1160-EVK
-##################
+.. zephyr:board:: mimxrt1160_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ Cortex-M4 at 240 MHz. The i.MX RT1160 MCU offers support over a wide
 temperature range and is qualified for consumer, industrial and automotive
 markets.
 
-.. image:: mimxrt1160_evk.jpg
-   :align: center
-   :alt: MIMXRT1160-EVK
-
 Hardware
 ********
 
@@ -100,7 +93,7 @@ Supported Features
 
 The mimxrt1160_evk board configuration supports the hardware features listed
 below.  For additional features not yet supported, please also refer to the
-:ref:`mimxrt1170_evk` , which is the superset board in NXP's i.MX RT11xx family.
+:zephyr:board:`mimxrt1170_evk` , which is the superset board in NXP's i.MX RT11xx family.
 NXP prioritizes enabling the superset board with NXP's Full Platform Support for
 Zephyr.  Therefore, the mimxrt1170_evk board may have additional features
 already supported, which can also be re-used on this mimxrt1160_evk board:

boards/nxp/mimxrt1170_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1170_evk:
-
-NXP MIMXRT1170-EVK/EVKB
-#######################
+.. zephyr:board:: mimxrt1170_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ at 400 MHz. The i.MX RT1170 MCU offers support over a wide temperature range
 and is qualified for consumer, industrial and automotive markets. Zephyr
 supports the initial revision of this EVK, as well as rev EVKB.
 
-.. image:: mimxrt1170_evk.jpg
-   :align: center
-   :alt: MIMXRT1170-EVK
-
 Hardware
 ********
 

boards/nxp/mimxrt1180_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt1180_evk:
-
-NXP MIMXRT1180-EVK
-##################
+.. zephyr:board:: mimxrt1180_evk
 
 Overview
 ********
@@ -11,10 +8,6 @@ Cortex-M7 at 792 MHz. The i.MX RT1180 MCU offers support over a wide
 temperature range and is qualified for consumer, industrial and automotive
 markets.
 
-.. image:: mimxrt1180_evk.webp
-   :align: center
-   :alt: MIMXRT1180-EVK
-
 Hardware
 ********
 

boards/nxp/mimxrt595_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt595_evk:
-
-NXP MIMXRT595-EVK
-##################
+.. zephyr:board:: mimxrt595_evk
 
 Overview
 ********
@@ -16,9 +13,6 @@ i.MX RT500 MCUs provides up to 5MB of on-chip SRAM and several high-bandwidth in
 to access off-chip flash, including an Octal/Quad SPI interface with an on-the-fly
 decryption engine.
 
-.. image:: mimxrt595_evk.jpg
-   :align: center
-   :alt: MIMXRT595-EVK
 
 Hardware
 ********
@@ -62,7 +56,7 @@ family of MCUs.  This board is a focus for NXP's Full Platform Support for
 Zephyr, to better enable the entire RT5xx family.  NXP prioritizes enabling
 this board with new support for Zephyr features.  The mimxrt595_evk board
 configuration supports the hardware features below.  Another very similar
-board is the :ref:`mimxrt685_evk`, and that board may have additional features
+board is the :zephyr:board:`mimxrt685_evk`, and that board may have additional features
 already supported, which can also be re-used on this mimxrt595_evk board:
 
 +-----------+------------+-------------------------------------+

boards/nxp/mimxrt685_evk/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mimxrt685_evk:
-
-NXP MIMXRT685-EVK
-##################
+.. zephyr:board:: mimxrt685_evk
 
 Overview
 ********
@@ -17,10 +14,6 @@ The i.MX RT600 family provides up to 4.5MB of on-chip SRAM and several
 high-bandwidth interfaces to access off-chip flash, including an Octal/Quad SPI
 interface with an on-the-fly decryption engine.
 
-.. image:: mimxrt685_evk.jpg
-   :align: center
-   :alt: MIMXRT685-EVK
-
 Hardware
 ********
 
@@ -59,7 +52,7 @@ family of MCUs.  This board is a focus for NXP's Full Platform Support for
 Zephyr, to better enable the entire RT6xx family.  NXP prioritizes enabling
 this board with new support for Zephyr features.  The mimxrt685_evk board
 configuration supports the hardware features below.  Another very similar
-board is the :ref:`mimxrt595_evk`, and that board may have additional features
+board is the :zephyr:board:`mimxrt595_evk`, and that board may have additional features
 already supported, which can also be re-used on this mimxrt685_evk board:
 
 +-----------+------------+-------------------------------------+

boards/nxp/mr_canhubk3/doc/index.rst

@@ -1,7 +1,4 @@
-.. _mr_canhubk3:
-
-NXP MR-CANHUBK3
-###############
+.. zephyr:board:: mr_canhubk3
 
 Overview
 ********
@@ -11,10 +8,6 @@ as autonomous mobile robots (AMR) and automated guided vehicles (AGV). It
 features an `NXP S32K344`_ general-purpose automotive microcontroller based on
 an Arm Cortex-M7 core (Lock-Step).
 
-.. image:: img/mr_canhubk3_top.jpg
-     :align: center
-     :alt: NXP MR-CANHUBK3 (TOP)
-
 Hardware
 ********
 

boards/nxp/rd_rw612_bga/doc/index.rst

@@ -1,7 +1,4 @@
-.. _rd_rw612_bga:
-
-NXP RD-RW612-BGA
-################
+.. zephyr:board:: rd_rw612_bga
 
 Overview
 ********

boards/nxp/rddrone_fmuk66/doc/index.rst

@@ -1,7 +1,4 @@
-.. _rddrone_fmuk66:
-
-NXP RDDRONE-FMUK66
-##################
+.. zephyr:board:: rddrone_fmuk66
 
 Overview
 ********
@@ -11,10 +8,6 @@ connectors and a Kinetis K66 on board.
 
 - Comes with a J-Link Edu Mini for programming and UART console.
 
-.. image:: rddrone_fmuk66.jpg
-   :align: center
-   :alt: RDDRONE-FMUK66
-
 Hardware
 ********
 

boards/nxp/s32z2xxdc2/doc/index.rst

@@ -1,7 +1,4 @@
-.. _s32z2xxdc2:
-
-NXP X-S32Z27X-DC (DC2)
-######################
+.. zephyr:board:: s32z2xxdc2
 
 Overview
 ********

boards/nxp/twr_ke18f/doc/index.rst

@@ -1,7 +1,4 @@
-.. _twr_ke18f:
-
-NXP TWR-KE18F
-#############
+.. zephyr:board:: twr_ke18f
 
 Overview
 ********
@@ -11,12 +8,6 @@ MCU-based platforms. The onboard OpenSDAv2 serial and debug adapter,
 running an open source bootloader, offers options for serial
 communication, flash programming, and run-control debugging.
 
-.. figure:: TWR-KE18F-DEVICE.jpg
-   :align: center
-   :alt: TWR-KE18F
-
-   TWR-KE18F (Credit: NXP)
-
 Hardware
 ********
 

boards/nxp/twr_kv58f220m/doc/index.rst

@@ -1,7 +1,4 @@
-.. _twr_kv58f220m:
-
-NXP TWR-KV58F220M
-#################
+.. zephyr:board:: twr_kv58f220m
 
 Overview
 ********
@@ -11,12 +8,6 @@ MCU-based platforms. The onboard OpenSDAv2 serial and debug adapter,
 running an open source bootloader, offers options for serial
 communication, flash programming, and run-control debugging.
 
-.. figure:: twr_kv58f220m.jpg
-   :align: center
-   :alt: TWR-KV58F220M
-
-   TWR-KV58F220M (Credit: NXP)
-
 Hardware
 ********
 

boards/nxp/ucans32k1sic/doc/index.rst

@@ -1,7 +1,4 @@
-.. _ucans32k1sic:
-
-NXP UCANS32K1SIC
-################
+.. zephyr:board:: ucans32k1sic
 
 Overview
 ********
@@ -11,10 +8,6 @@ board designed for both automotive and industrial applications. The UCANS32K1SIC
 provides two CAN SIC interfaces and is based on the 32-bit Arm Cortex-M4F
 `NXP S32K146`_ microcontroller.
 
-.. image:: img/ucans32k1sic_top.webp
-     :align: center
-     :alt: NXP UCANS32K1SIC (TOP)
-
 Hardware
 ********
 

boards/nxp/usb_kw24d512/doc/index.rst

@@ -1,7 +1,4 @@
-.. _usb_kw24d512:
-
-NXP USB-KW24D512
-################
+.. zephyr:board:: usb_kw24d512
 
 Overview
 ********

boards/nxp/vmu_rt1170/doc/index.rst

@@ -1,7 +1,4 @@
-.. _VMU RT1170:
-
-NXP VMU RT1170
-##################
+.. zephyr:board:: vmu_rt1170
 
 Overview
 ********
@@ -13,10 +10,6 @@ and is qualified for consumer, industrial and automotive markets.
 The VMU RT1170 is the default VMU for CogniPilot's Cerebri, a
 Zephyr RTOS based Autopilot.
 
-.. image:: vmu_rt1170.jpg
-   :align: center
-   :alt: VMU RT1170
-
 Hardware
 ********
 

boards/shields/frdm_cr20a/doc/index.rst

@@ -10,7 +10,7 @@ The Freedom development board platform supports the MCR20A 2.4GHZ wireless
 transceiver. The FRDM-CR20A evaluation board is a small, low-power,
 cost-effective reference design for the MCR20A transceiver in a shield form
 factor, compatible with existing Freedom development platforms, such as
-:ref:`frdm_k64f`.
+:zephyr:board:`frdm_k64f`.
 
 .. image:: frdm_cr20a.jpg
    :align: center

boards/shields/frdm_kw41z/doc/index.rst

@@ -13,7 +13,7 @@ integrated 2.4 GHz transceiver supporting Bluetooth |reg| Smart/Bluetooth
 (BLE) v4.2, Generic FSK, IEEE |reg| 802.15.4 and Thread.
 
 The FRDM-KW41Z can be used as a standalone board or as an Arduino shield. This
-document covers usage as a shield; see :ref:`frdm_kw41z` for usage as a
+document covers usage as a shield; see :zephyr:board:`frdm_kw41z` for usage as a
 standalone board.
 
 Bluetooth Controller
@@ -53,7 +53,7 @@ host controller interface (HCI):
    OpenSDA circuit.
 
 #. Attach the FRDM-KW41Z to the Arduino header on your selected main board,
-   such as :ref:`mimxrt1050_evk` or :ref:`frdm_k64f`.
+   such as :zephyr:board:`mimxrt1050_evk` or :zephyr:board:`frdm_k64f`.
 
 #. Set ``--shield frdm_kw41z`` when you invoke ``west build`` in
    your Zephyr bluetooth application. For example,

doc/connectivity/networking/api/gptp.rst

@@ -35,7 +35,7 @@ support must be enabled in ethernet drivers.
 
 Boards supported:
 
-- :ref:`frdm_k64f`
+- :zephyr:board:`frdm_k64f`
 - :ref:`nucleo_h743zi_board`
 - :ref:`nucleo_h745zi_q_board`
 - :ref:`nucleo_f767zi_board`

doc/develop/flash_debug/probes.rst

@@ -85,7 +85,7 @@ debug microcontroller SOC:
 - LPC4322: :ref:`lpc-link2-onboard-debug-probe`
 - MK20: :ref:`opensda-onboard-debug-probe`
 
-For example, the :ref:`frdm_k64f` board has an MK20 debug microcontroller,
+For example, the :zephyr:board:`frdm_k64f` board has an MK20 debug microcontroller,
 so this board uses the :ref:`opensda-onboard-debug-probe`.
 
 .. _mcu-link-onboard-debug-probe:

doc/hardware/peripherals/can/shell.rst

@@ -35,7 +35,7 @@ The following :ref:`Kconfig <kconfig>` options enable additional subcommands and
   well.
 * :kconfig:option:`CONFIG_CAN_MANUAL_RECOVERY_MODE` enables the ``can recover`` subcommand.
 
-For example, building the :zephyr:code-sample:`hello_world` sample for the :ref:`frdm_k64f` with the CAN shell and
+For example, building the :zephyr:code-sample:`hello_world` sample for the :zephyr:board:`frdm_k64f` with the CAN shell and
 CAN statistics enabled:
 
 .. zephyr-app-commands::

doc/hardware/porting/board_porting.rst

@@ -95,7 +95,7 @@ the :term:`SoC series` and :term:`SoC family` levels are not always used.
    +============================================+==========================+=============+====================+====================+================+======================+
    | :ref:`nrf52dk <nrf52dk_nrf52832>`          | nrf52832                 | nRF52832    | nRF52              | Nordic nRF         | Arm Cortex-M4  | ARMv7-M              |
    +--------------------------------------------+--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
-   | :ref:`frdm_k64f <frdm_k64f>`               | mk64f12                  | MK64F12     | Kinetis K6x        | NXP Kinetis        | Arm Cortex-M4  | ARMv7-M              |
+   | :zephyr:board:`frdm_k64f <frdm_k64f>`      | mk64f12                  | MK64F12     | Kinetis K6x        | NXP Kinetis        | Arm Cortex-M4  | ARMv7-M              |
    +--------------------------------------------+--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
    | :ref:`rv32m1_vega <rv32m1_vega>`           | openisa_rv32m1/ri5cy     | RV32M1      | (Not used)         | (Not used)         | RI5CY          | RISC-V RV32          |
    +--------------------------------------------+--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
@@ -103,7 +103,7 @@ the :term:`SoC series` and :term:`SoC family` levels are not always used.
    |                                            +--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
    |                                            | nrf5340/cpunet           | nRF5340     | nRF53              | Nordic nRF         | Arm Cortex-M33 | ARMv8-M              |
    +--------------------------------------------+--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
-   | :ref:`mimx8mp_evk <imx8mp_evk>`            | mimx8ml8/a53             | i.MX8M Plus | i.MX8M             | NXP i.MX           | Arm Cortex-A53 | ARMv8-A              |
+   | :zephyr:board:`mimx8mp_evk <imx8mp_evk>`   | mimx8ml8/a53             | i.MX8M Plus | i.MX8M             | NXP i.MX           | Arm Cortex-A53 | ARMv8-A              |
    |                                            +--------------------------+-------------+--------------------+--------------------+----------------+----------------------+
    |                                            | mimx8ml8/m7              | i.MX8M Plus | i.MX8M             | NXP i.MX           | Arm Cortex-M7  | ARMv7-M              |
    |                                            +--------------------------+-------------+--------------------+--------------------+----------------+----------------------+

doc/services/tfm/requirements.rst

@@ -14,7 +14,7 @@ The following are some of the boards that can be used with TF-M:
      - ``mps3_an547_ns`` (qemu supported)
    * - :zephyr:board:`bl5340_dvk`
      - ``bl5340_dvk/nrf5340/cpuapp/ns``
-   * - :ref:`lpcxpresso55s69`
+   * - :zephyr:board:`lpcxpresso55s69`
      - ``lpcxpresso55s69_ns``
    * - :ref:`nrf9160dk_nrf9160`
      - ``nrf9160dk/nrf9160/ns``

samples/drivers/can/babbling/README.rst

@@ -34,7 +34,7 @@ configured using the ``sw0`` :ref:`devicetree <dt-guide>` alias, usually in the
 Building and Running
 ********************
 
-Example building for :ref:`twr_ke18f`:
+Example building for :zephyr:board:`twr_ke18f`:
 
 .. zephyr-app-commands::
    :zephyr-app: samples/drivers/can/babbling

samples/drivers/dac/README.rst

@@ -97,7 +97,7 @@ The sample can be built and executed for the
 
 Building and Running for NXP TWR-KE18F
 ======================================
-The sample can be built and executed for the :ref:`twr_ke18f` as
+The sample can be built and executed for the :zephyr:board:`twr_ke18f` as
 follows:
 
 .. zephyr-app-commands::
@@ -111,7 +111,7 @@ connector.
 
 Building and Running for NXP FRDM-K64F
 ======================================
-The sample can be built and executed for the :ref:`frdm_k64f` as
+The sample can be built and executed for the :zephyr:board:`frdm_k64f` as
 follows:
 
 .. zephyr-app-commands::
@@ -211,7 +211,7 @@ also can run for the Longan Nano Lite as follows:
 
 Building and Running for NXP LPCXpresso55S36
 ============================================
-The sample can be built and executed for the :ref:`lpcxpresso55s36` as
+The sample can be built and executed for the :zephyr:board:`lpcxpresso55s36` as
 follows:
 
 .. zephyr-app-commands::

samples/drivers/i2c/custom_target/README.rst

@@ -15,7 +15,7 @@ Requirements
 
 This sample requires an I2C peripheral which is capable of acting as a target.
 
-This sample has been tested on :ref:`lpcxpresso55s69`.
+This sample has been tested on :zephyr:board:`lpcxpresso55s69`.
 
 Building and Running
 ********************

samples/drivers/i2c/target_eeprom/README.rst

@@ -15,7 +15,7 @@ Requirements
 
 This sample requires an I2C peripheral which is capable of acting as a target.
 
-This sample has been tested on :ref:`lpcxpresso55s69`.
+This sample has been tested on :zephyr:board:`lpcxpresso55s69`.
 
 Building and Running
 ********************

samples/drivers/i2s/output/README.rst

@@ -20,7 +20,7 @@ Requirements
 The I2S device to be used by the sample is specified by defining
 a devicetree alias named ``i2s_tx``
 
-This sample has been tested on :ref:`mimxrt1060_evk` (mimxrt1060_evkb)
+This sample has been tested on :zephyr:board:`mimxrt1060_evk` (mimxrt1060_evkb)
 
 Building and Running
 ********************

samples/drivers/ipm/ipm_mcux/README.rst

@@ -12,14 +12,14 @@ sample application uses a mailbox to send messages from one
 processor core to the other.
 
 This sample applies to the following boards:
- -  :ref:`lpcxpresso54114`, two core processors (Cortex-M4F and Cortex-M0+)
- -  :ref:`lpcxpresso55s69`, two core processors (dual Cortex-M33)
+ -  :zephyr:board:`lpcxpresso54114`, two core processors (Cortex-M4F and Cortex-M0+)
+ -  :zephyr:board:`lpcxpresso55s69`, two core processors (dual Cortex-M33)
 
 Requirements
 ************
 
-- :ref:`lpcxpresso54114` board
-- :ref:`lpcxpresso55s69` board
+- :zephyr:board:`lpcxpresso54114` board
+- :zephyr:board:`lpcxpresso55s69` board
 
 Building the application for lpcxpresso54114/lpc54114/m4
 ********************************************************

samples/drivers/led/is31fl3216a/README.rst

@@ -33,7 +33,7 @@ This sample can be built and executed when the devicetree has an I2C device node
 with compatible :dtcompatible:`issi,is31fl3216a` enabled, along with the relevant
 bus controller node also being enabled.
 
-As an example this sample provides a DTS overlay for the :ref:`lpcxpresso55s28`
+As an example this sample provides a DTS overlay for the :zephyr:board:`lpcxpresso55s28`
 board (:file:`boards/lpcxpresso55s28.overlay`). It assumes that a I2C
 _is31fl3216a LED driver (with 16 LEDs wired) is connected to the I2C bus at
 address 0x74.

samples/drivers/led/is31fl3733/README.rst

@@ -31,7 +31,7 @@ Building and Running
 This sample can be run on any board with an IS31FL3733 LED driver connected via
 I2C, and a node with the :dtcompatible:`issi,is31fl3733` compatible present in its devicetree.
 
-This sample provides a DTS overlay for the :ref:`frdm_k22f` board
+This sample provides a DTS overlay for the :zephyr:board:`frdm_k22f` board
 (:file:`boards/frdm_k22f.overlay`). It assumes that the IS31FL3733 LED
 controller is connected to I2C0, at address 0x50. The SDB GPIO should be
 connected to PTC2 (A3 on the arduino header)

samples/drivers/led/lp50xx/README.rst

@@ -35,7 +35,7 @@ This sample can be built and executed on boards with an I2C LP5009, LP5012,
 LP5018, LP5024, LP5030 or LP5036 LED driver connected. A node matching the
 the device type binding should be defined in the board DTS files.
 
-As an example this sample provides a DTS overlay for the :ref:`lpcxpresso11u68`
+As an example this sample provides a DTS overlay for the :zephyr:board:`lpcxpresso11u68`
 board (:file:`boards/lpcxpresso11u68.overlay`). It assumes that a I2C LP5030
 LED driver (with 10 LEDs wired) is connected to the I2C0 bus at address 0x30.
 

samples/drivers/video/capture/README.rst

@@ -18,10 +18,10 @@ Supported camera modules on some i.MX RT boards can be found below.
 
 - `Camera iMXRT`_
 
-- :ref:`mimxrt1064_evk`
+- :zephyr:board:`mimxrt1064_evk`
 - `MT9M114 camera module`_
 
-- :ref:`mimxrt1170_evk`
+- :zephyr:board:`mimxrt1170_evk`
 - `OV5640 camera module`_
 
 Also :ref:`arduino_nicla_vision_board` can be used in this sample as capture device, in that case
@@ -30,11 +30,11 @@ The user can transfer the captured frames through on board USB.
 Wiring
 ******
 
-On :ref:`mimxrt1064_evk`, the MT9M114 camera module should be plugged in the
+On :zephyr:board:`mimxrt1064_evk`, the MT9M114 camera module should be plugged in the
 J35 camera connector. A USB cable should be connected from a host to the micro
 USB debug connector (J41) in order to get console output via the freelink interface.
 
-On :ref:`mimxrt1170_evk`, the OV5640 camera module should be plugged into the
+On :zephyr:board:`mimxrt1170_evk`, the OV5640 camera module should be plugged into the
 J2 camera connector. A USB cable should be connected from a host to the micro
 USB debug connector (J11) in order to get console output via the daplink interface.
 
@@ -43,7 +43,7 @@ For :ref:`arduino_nicla_vision_board` there is no extra wiring required.
 Building and Running
 ********************
 
-For :ref:`mimxrt1064_evk`, build this sample application with the following commands:
+For :zephyr:board:`mimxrt1064_evk`, build this sample application with the following commands:
 
 .. zephyr-app-commands::
    :zephyr-app: samples/drivers/video/capture
@@ -52,7 +52,7 @@ For :ref:`mimxrt1064_evk`, build this sample application with the following comm
    :goals: build
    :compact:
 
-For :ref:`mimxrt1170_evk`, build this sample application with the following commands:
+For :zephyr:board:`mimxrt1170_evk`, build this sample application with the following commands:
 
 .. zephyr-app-commands::
    :zephyr-app: samples/drivers/video/capture

samples/drivers/video/tcpserversink/README.rst

@@ -15,13 +15,13 @@ Requirements
 
 This samples requires a video capture device and network support.
 
-- :ref:`mimxrt1064_evk`
+- :zephyr:board:`mimxrt1064_evk`
 - `MT9M114 camera module`_
 
 Wiring
 ******
 
-On :ref:`mimxrt1064_evk`, The MT9M114 camera module should be plugged in the
+On :zephyr:board:`mimxrt1064_evk`, The MT9M114 camera module should be plugged in the
 J35 camera connector. A USB cable should be connected from a host to the micro
 USB debug connector (J41) in order to get console output via the freelink
 interface. Ethernet cable must be connected to RJ45 connector.
@@ -29,7 +29,7 @@ interface. Ethernet cable must be connected to RJ45 connector.
 Building and Running
 ********************
 
-For :ref:`mimxrt1064_evk`, the sample can be built with the following command.
+For :zephyr:board:`mimxrt1064_evk`, the sample can be built with the following command.
 If a mt9m114 camera shield is missing, video software generator will be used instead.
 
 .. zephyr-app-commands::

samples/modules/canopennode/README.rst

@@ -35,7 +35,7 @@ First, ensure the optional CANopenNode module is enabled and available:
 
 Building and Running for TWR-KE18F
 ==================================
-The :ref:`twr_ke18f` board is equipped with an onboard CAN
+The :zephyr:board:`twr_ke18f` board is equipped with an onboard CAN
 transceiver. This board supports CANopen LED indicators (red and green
 LEDs). The sample can be built and executed for the TWR-KE18F as
 follows:
@@ -51,7 +51,7 @@ counter object at index ``0x2102`` in the object dictionary.
 
 Building and Running for FRDM-K64F
 ==================================
-The :ref:`frdm_k64f` board does not come with an onboard CAN
+The :zephyr:board:`frdm_k64f` board does not come with an onboard CAN
 transceiver. In order to use the CAN bus on the FRDM-K64F board, an
 external CAN bus transceiver must be connected to ``PTB18``
 (``CAN0_TX``) and ``PTB19`` (``CAN0_RX``). This board supports CANopen

samples/modules/lvgl/demos/README.rst

@@ -31,7 +31,7 @@ Note that other input devices types are not demonstrated in these demos, namely
 Building and Running
 ********************
 
-Example building for :ref:`mimxrt1060_evk`:
+Example building for :zephyr:board:`mimxrt1060_evk`:
 
 .. zephyr-app-commands::
    :zephyr-app: samples/modules/lvgl/demos

samples/net/cloud/tagoio_http_post/README.rst

@@ -44,7 +44,7 @@ Ethernet
 
 You can use this application on a supported board with ethernet port.  There
 are many like :ref:`sam4e_xpro`, :ref:`sam_v71_xplained_ultra`,
-:ref:`frdm_k64f`, :ref:`nucleo_f767zi_board` etc.  Pick one and just build
+:zephyr:board:`frdm_k64f`, :ref:`nucleo_f767zi_board` etc.  Pick one and just build
 tagoio-http-client sample application with minimal configuration:
 
 .. zephyr-app-commands::

samples/net/dhcpv4_client/README.rst

@@ -103,10 +103,10 @@ FRDM_K64F
 =========
 
 These are instructions for how to use this sample application running on
-:ref:`frdm_k64f` board to negotiate IP address from DHCPv4 server (kea) running
+:zephyr:board:`frdm_k64f` board to negotiate IP address from DHCPv4 server (kea) running
 on Linux host.
 
-Connect ethernet cable from :ref:`Freedom-K64F board <frdm_k64f>` to Linux host
+Connect ethernet cable from :zephyr:board:`Freedom-K64F board <frdm_k64f>` to Linux host
 machine and check for new interfaces:
 
 .. code-block:: console

samples/net/dns_resolve/README.rst

@@ -41,7 +41,7 @@ Network Configuration
 
 Open the project configuration file for your platform, for example:
 :file:`prj_frdm_k64f.conf` is the configuration file for the
-:ref:`frdm_k64f` board.
+:zephyr:board:`frdm_k64f` board.
 
 In this sample application, both static or DHCPv4 IP addresses are supported.
 Static IP addresses are specified in the project configuration file,
@@ -142,7 +142,7 @@ Open a terminal window and type:
    :goals: build flash
    :compact:
 
-See :ref:`Freedom-K64F board documentation <frdm_k64f>` for more information
+See :zephyr:board:`Freedom-K64F board documentation <frdm_k64f>` for more information
 about this board.
 
 Open a terminal window and type:

samples/net/ipv4_autoconf/README.rst

@@ -21,10 +21,10 @@ Building and Running
 ********************
 
 These are instructions for how to use this sample application running
-on a :ref:`frdm_k64f` board to configure a link local IPv4 address and
+on a :zephyr:board:`frdm_k64f` board to configure a link local IPv4 address and
 connect to a Linux host.
 
-Connect ethernet cable from a :ref:`Freedom-K64F board <frdm_k64f>` to a Linux
+Connect ethernet cable from a :zephyr:board:`Freedom-K64F board <frdm_k64f>` to a Linux
 host machine and check for new interfaces.
 
 Running Avahi client in Linux Host

samples/net/telnet/README.rst

@@ -66,14 +66,14 @@ Freedom-K64F Board
 ===================
 
 These are instructions for how to use this sample application running on a
-Freedom-K64F board. Unlike running it on QEMU, :ref:`Freedom-K64F board
+Freedom-K64F board. Unlike running it on QEMU, :zephyr:board:`Freedom-K64F board
 <frdm_k64f>` network configuration for IPv4 will rely on DHCPv4. You cad modify
 the :file:`prj_frdm_k64f.conf` to set static IPv4 addresses if it is really needed.
 
 For detailed instructions about building, flashing and using the serial console
-logs, follow the  :ref:`Freedom-K64F board <frdm_k64f>` documentation section.
+logs, follow the  :zephyr:board:`Freedom-K64F board <frdm_k64f>` documentation section.
 
-Connect ethernet cable from :ref:`Freedom-K64F <frdm_k64f>` board to a
+Connect ethernet cable from :zephyr:board:`Freedom-K64F <frdm_k64f>` board to a
 local network providing IPv4 address configuration via DHCPv4. Creating your own
 DHCP server on a local network is not in the scope of this README.
 
@@ -85,7 +85,7 @@ Build Zephyr samples/net/telnet application:
    :goals: build
    :compact:
 
-Flash the resulting Zephyr binary following the :ref:`Freedom-K64F <frdm_k64f>`
+Flash the resulting Zephyr binary following the :zephyr:board:`Freedom-K64F <frdm_k64f>`
 board documentation noted above.
 
 From your host computer, open a serial console to your board:
@@ -94,7 +94,7 @@ From your host computer, open a serial console to your board:
 
     $ sudo screen /dev/ttyACM0 115200
 
-Plug the Ethernet cable to the :ref:`Freedom-K64F <frdm_k64f>` board.
+Plug the Ethernet cable to the :zephyr:board:`Freedom-K64F <frdm_k64f>` board.
 Reset the board, you should see first on the console:
 
 .. code-block:: console

samples/sensor/fxos8700/README.rst

@@ -15,9 +15,9 @@ Building and Running
 ********************
 
 This project outputs sensor data to the console. FXOS8700
-sensor is present on the :ref:`frdm_k64f`, :ref:`frdm_k22f`,
-:ref:`frdm_kw41z`, :ref:`hexiwear`, and :ref:`twr_ke18f` boards.
-Accelerometer only devices are present on the :ref:`frdm_kl25z`,
+sensor is present on the :zephyr:board:`frdm_k64f`, :zephyr:board:`frdm_k22f`,
+:zephyr:board:`frdm_kw41z`, :ref:`hexiwear`, and :zephyr:board:`twr_ke18f` boards.
+Accelerometer only devices are present on the :zephyr:board:`frdm_kl25z`,
 :zephyr:board:`bbc_microbit`, and :ref:`reel_board` boards. It does not work on
 QEMU.
 

samples/sensor/lps22hh_i3c/README.rst

@@ -15,7 +15,7 @@ Requirements
 
 This sample uses the LPS22HH sensor controlled using the I3C interface.
 It has been tested using the LPS22HH on the evaluation board
-STEVALMKI192-V1 connected to the I3C header on :ref:`mimxrt685_evk`.
+STEVALMKI192-V1 connected to the I3C header on :zephyr:board:`mimxrt685_evk`.
 
 References
 **********
@@ -55,7 +55,7 @@ Board Preparations
 mimxrt685_evk
 ------------------
 
-On the board :ref:`mimxrt685_evk`, the I3C pins are exposed on the J18
+On the board :zephyr:board:`mimxrt685_evk`, the I3C pins are exposed on the J18
 header, where:
 
   * SCL is on pin 1

samples/sensor/lsm6dso_i2c_on_i3c/README.rst

@@ -17,7 +17,7 @@ Requirements
 This sample uses the LSM6DSO sensor controlled using the I2C interface
 exposed by the I3C controller. It has been tested using the LSM6DSO on
 the evaluation board STEVAL-MKI196V1 connected to the I3C header
-on :ref:`mimxrt685_evk`.
+on :zephyr:board:`mimxrt685_evk`.
 
 References
 **********
@@ -46,7 +46,7 @@ Board Preparations
 mimxrt685_evk
 ------------------
 
-On the board :ref:`mimxrt685_evk`, the I3C pins are exposed on the J18
+On the board :zephyr:board:`mimxrt685_evk`, the I3C pins are exposed on the J18
 header, where:
 
   * SCL is on pin 1

samples/sensor/mcux_acmp/README.rst

@@ -8,15 +8,15 @@ Overview
 ********
 
 This sample show how to use the NXP MCUX Analog Comparator (ACMP) driver. The
-sample supports the :ref:`twr_ke18f`, :ref:`mimxrt1170_evk`, :ref:`frdm_ke17z`
-, :ref:`frdm_ke17z512` and :ref:`mimxrt1180_evk`.
+sample supports the :zephyr:board:`twr_ke18f`, :zephyr:board:`mimxrt1170_evk`, :zephyr:board:`frdm_ke17z`
+, :zephyr:board:`frdm_ke17z512` and :zephyr:board:`mimxrt1180_evk`.
 
 The input voltage for the negative input of the analog comparator is
 provided by the ACMP Digital-to-Analog Converter (DAC). The input voltage for
 the positive input can be adjusted by turning the on-board potentiometer for
-:ref:`twr_ke18f` board, for :ref:`mimxrt1170_evk` the voltage signal is
-captured on J25-13, the :ref:`frdm_ke17z` and :ref:`frdm_ke17z512` boards are
-captured in J2-3, the :ref:`mimxrt1180_evk` board are captured in J45-13, need
+:zephyr:board:`twr_ke18f` board, for :zephyr:board:`mimxrt1170_evk` the voltage signal is
+captured on J25-13, the :zephyr:board:`frdm_ke17z` and :zephyr:board:`frdm_ke17z512` boards are
+captured in J2-3, the :zephyr:board:`mimxrt1180_evk` board are captured in J45-13, need
 change the external voltage signal to check the output.
 
 The output value of the analog comparator is reported on the console.
@@ -26,7 +26,7 @@ Building and Running
 
 Building and Running for TWR-KE18F
 ==================================
-Build the application for the :ref:`twr_ke18f` board, and adjust the
+Build the application for the :zephyr:board:`twr_ke18f` board, and adjust the
 ACMP input voltage by turning the on-board potentiometer.
 
 .. zephyr-app-commands::

samples/sensor/mcux_lpcmp/README.rst

@@ -27,7 +27,7 @@ Building and Running
 
 Building and Running for NXP FRDM-MCXN947
 =========================================
-Build the application for the :ref:`frdm_mcxn947` board, and adjust the
+Build the application for the :zephyr:board:`frdm_mcxn947` board, and adjust the
 LPCMP positive input port voltage by changing the voltage input to J2-17.
 
 .. zephyr-app-commands::
@@ -38,7 +38,7 @@ LPCMP positive input port voltage by changing the voltage input to J2-17.
 
 Building and Running for NXP FRDM-MCXN236
 =========================================
-Build the application for the :ref:`frdm_mcxn236` board, and adjust the
+Build the application for the :zephyr:board:`frdm_mcxn236` board, and adjust the
 LPCMP positive input port voltage by changing the voltage input to J2-8.
 
 .. zephyr-app-commands::

samples/sensor/tmp112/README.rst

@@ -18,7 +18,7 @@ devicetree overlay with such a node added.
 Building and Running
 ********************
 
-To build and flash the sample for the :ref:`frdm_k64f`:
+To build and flash the sample for the :zephyr:board:`frdm_k64f`:
 
 .. zephyr-app-commands::
    :zephyr-app: samples/sensor/tmp112

samples/shields/lmp90100_evb/rtd/README.rst

@@ -27,7 +27,7 @@ Building and Running
 
 This sample runs with the LMP90100 EVB connected to any development
 board with a matching Arduino connector. For this example, we use a
-:ref:`frdm_k64f` board.
+:zephyr:board:`frdm_k64f` board.
 
 .. zephyr-app-commands::
    :zephyr-app: samples/shields/lmp90100_evb/rtd

samples/subsys/display/lvgl/README.rst

@@ -40,7 +40,7 @@ for corresponding connectors, for example:
 
 - :ref:`adafruit_2_8_tft_touch_v2` and :ref:`nrf52840dk_nrf52840`
 - :ref:`buydisplay_2_8_tft_touch_arduino` and :ref:`nrf52840dk_nrf52840`
-- :ref:`ssd1306_128_shield` and :ref:`frdm_k64f`
+- :ref:`ssd1306_128_shield` and :zephyr:board:`frdm_k64f`
 - :ref:`seeed_xiao_round_display` and :zephyr:board:`xiao_ble`
 
 or a board with an integrated display:
@@ -54,12 +54,12 @@ or a simulated display environment in a :ref:`native_sim <native_sim>` applicati
 
 or
 
-- :ref:`mimxrt1050_evk`
+- :zephyr:board:`mimxrt1050_evk`
 - `RK043FN02H-CT`_
 
 or
 
-- :ref:`mimxrt1060_evk`
+- :zephyr:board:`mimxrt1060_evk`
 - `RK043FN02H-CT`_
 
 Building and Running

samples/subsys/mgmt/hawkbit/README.rst

@@ -26,7 +26,7 @@ Caveats
 *******
 
 * The Zephyr port of hawkBit is configured to run on a
-  :ref:`Freedom-K64F <frdm_k64f>` MCU by default. The application should
+  :zephyr:board:`Freedom-K64F <frdm_k64f>` MCU by default. The application should
   build and run for other platforms with support internet connection. Some
   platforms need some modification. Overlay files would be needed to support
   BLE 6lowpan, 802.15.4 or OpenThread configurations as well as the
@@ -78,7 +78,7 @@ the server URL, ``<your-ip-address>:8080``, and logging into the server using
 Step 4: Build hawkBit
 =====================
 
-hawkBit can be built for the :ref:`Freedom-K64F <frdm_k64f>` as follows:
+hawkBit can be built for the :zephyr:board:`Freedom-K64F <frdm_k64f>` as follows:
 
 .. zephyr-app-commands::
     :zephyr-app: samples/subsys/mgmt/hawkbit
@@ -260,7 +260,7 @@ Step 9: Build hawkBit HTTPS
 * Convert the server.pem file to self_sign.der and place the der file in
   hawkbit/src directory
 
-``hawkBit https`` can be built for the :ref:`Freedom-K64F <frdm_k64f>` as follows:
+``hawkBit https`` can be built for the :zephyr:board:`Freedom-K64F <frdm_k64f>` as follows:
 
 .. zephyr-app-commands::
     :zephyr-app: samples/subsys/mgmt/hawkbit

samples/subsys/mgmt/updatehub/README.rst

@@ -30,7 +30,7 @@ Caveats
 *******
 
 * The Zephyr port of ``UpdateHub`` was initially developed to run on a
-  :ref:`Freedom-K64F <frdm_k64f>` kit using the ethernet connectivity.  The
+  :zephyr:board:`Freedom-K64F <frdm_k64f>` kit using the ethernet connectivity.  The
   application should build and run for other platforms with same connectivity.
 
 * The sample provides overlay files to enable other technologies like WIFI,
@@ -453,7 +453,7 @@ The below list of hardware have been used by UpdateHub team.
    :widths: 50, 50
    :width: 800px
 
-   :ref:`frdm_k64f`, "1, 2, 3, 4"
+   :zephyr:board:`frdm_k64f`, "1, 2, 3, 4"
    :ref:`nrf52840dk_nrf52840`, "2, 3, 4, 5, 6"
    :ref:`nucleo_f767zi_board`, "1, 2, 3, 4"
 

tests/drivers/can/host/README.rst

@@ -110,7 +110,7 @@ Next, python-can needs to be configured for the ``can0`` interface. One option i
    fd = True
 
 Once the SocketCAN interface has been brought up and configured the test suite can be launched using
-Twister. Below is an example for running on the :ref:`lpcxpresso55s36`:
+Twister. Below is an example for running on the :zephyr:board:`lpcxpresso55s36`:
 
 .. code-block:: shell