powerpc/p1010rdb: update readme for p1010rdb-pa and p1010rdb-pb

- Remove duplicate doc/README.p1010rdb - Rename README to README.P1010RDB-PA - Add new README.P1010RDB-PB P1010RDB-PB is a variation of previous P1010RDB-PA board. Signed-off-by: Shengzhou Liu <Shengzhou.Liu@freescale.com>
2025-06-27 17:12:03 +00:00 · 2013-10-11 23:02:38 +08:00 · 2013-10-11 23:02:38 +08:00 · 62af7615eb
commit 62af7615eb
parent 439fbe75a0
3 changed files with 190 additions and 200 deletions
--- a/board/freescale/p1010rdb/README.P1010RDB-PA
+++ b/board/freescale/p1010rdb/README.P1010RDB-PA
@ -204,5 +204,5 @@ Place uImage, p1010rdb.dtb and rootfs files in the TFTP disk area.
 	=> bootm 1000000 3000000 2000000
-Please contact your local field applications engineer or sales representative
+For more details, please refer to P1010RDB User Guide and access website
-to obtain related documents, such as P1010-RDB User Guide for details.
+www.freescale.com
--- a/board/freescale/p1010rdb/README.P1010RDB-PB
+++ b/board/freescale/p1010rdb/README.P1010RDB-PB
@ -0,0 +1,188 @@
 Overview
 =========
 The P1010RDB-PB is a Freescale Reference Design Board that hosts the P1010 SoC.
 P1010RDB-PB is a variation of previous P1010RDB-PA board.
 The P1010 is a cost-effective, low-power, highly integrated host processor
 based on a Power Architecture e500v2 core (maximum core frequency 1GHz),that
 addresses the requirements of several routing, gateways, storage, consumer,
 and industrial applications. Applications of interest include the main CPUs and
 I/O processors in network attached storage (NAS), the voice over IP (VoIP)
 router/gateway, and wireless LAN (WLAN) and industrial controllers.
 The P1010RDB-PB board features are as following:
 Memory subsystem:
 	- 1G bytes unbuffered DDR3 SDRAM discrete devices (32-bit bus)
 	- 32M bytes NOR flash single-chip memory
 	- 2G bytes NAND flash memory
 	- 16M bytes SPI memory
 	- 256K bit M24256 I2C EEPROM
 	- I2C Board EEPROM 128x8 bit memory
 	- SD/MMC connector to interface with the SD memory card
 Interfaces:
 	- Three 10/100/1000 BaseT Ethernet ports (One RGMII and two SGMII)
 	- PCIe 2.0: two x1 mini-PCIe slots
 	- SATA 2.0: two SATA interfaces
 	- USB 2.0: one USB interface
 	- FlexCAN: two FlexCAN interfaces (revision 2.0B)
 	- UART: one USB-to-Serial interface
 	- TDM: 2 FXS ports connected via an external SLIC to the TDM interface.
 	       1 FXO port connected via a relay to FXS for switchover to POTS
 Board connectors:
 	- Mini-ITX power supply connector
 	- JTAG/COP for debugging
 POR: support critical POR setting changed via switch on board
 PCB: 6-layer routing (4-layer signals, 2-layer power and ground)
 Physical Memory Map on P1010RDB
 ===============================
 Address Start   Address End   Memory type	Attributes
 0x0000_0000	0x3fff_ffff   DDR		1G Cacheable
 0xa000_0000	0xdfff_ffff   PCI Express Mem	1G non-cacheable
 0xee00_0000	0xefff_ffff   NOR Flash		32M non-cacheable
 0xffc2_0000	0xffc5_ffff   PCI IO range	256K non-cacheable
 0xffa0_0000	0xffaf_ffff   NAND Flash	1M cacheable
 0xffb0_0000	0xffbf_ffff   Board CPLD	1M non-cacheable
 0xffd0_0000	0xffd0_3fff   L1 for Stack	16K Cacheable TLB0
 0xffe0_0000	0xffef_ffff   CCSR		1M non-cacheable
 Serial Port Configuration on P1010RDB
 =====================================
 Configure the serial port of the attached computer with the following values:
 	-Data rate: 115200 bps
 	-Number of data bits: 8
 	-Parity: None
 	-Number of Stop bits: 1
 	-Flow Control: Hardware/None
 P1010RDB-PB default DIP-switch settings
 =======================================
 SW1[1:8]= 10101010
 SW2[1:8]= 11011000
 SW3[1:8]= 10010000
 SW4[1:4]= 1010
 SW5[1:8]= 11111010
 P1010RDB-PB boot mode settings via DIP-switch
 =============================================
 SW4[1:4]= 1111 and SW3[3:4]= 00 for 16bit NOR boot
 SW4[1:4]= 1010 and SW3[3:4]= 01 for 8bit NAND boot
 SW4[1:4]= 0110 and SW3[3:4]= 00 for SPI boot
 SW4[1:4]= 0111 and SW3[3:4]= 10 for SD boot
 Note: 1 stands for 'on', 0 stands for 'off'
 Switch P1010RDB-PB boot mode via software without setting DIP-switch
 ====================================================================
 => run boot_bank0    (boot from NOR bank0)
 => run boot_bank1    (boot from NOR bank1)
 => run boot_nand     (boot from NAND flash)
 => run boot_spi      (boot from SPI flash)
 => run boot_sd       (boot from SD card)
 Frequency combination support on P1010RDB-PB
 =============================================
 SW1[4:7] SW5[1] SW5[5:8] SW2[2] Core(MHz) Platform(MHz) DDR(MT/s)
 0101      1      1010     0       800       400		800
 1001      1      1010     0       800       400		667
 1010      1      1100     0       667       333		667
 1000      0      1010     0       533       266		667
 0101      1      1010     1       1000      400		800
 1001      1      1010     1       1000      400		667
 Setting of pin mux
 ==================
 Since pins multiplexing, TDM and CAN are muxed with SPI flash.
 SDHC is muxed with IFC. IFC and SPI flash are enabled by default.
 To enable TDM:
 => setenv hwconfig fsl_p1010mux:tdm_can=tdm
 => save;reset
 To enable FlexCAN:
 => setenv hwconfig fsl_p1010mux:tdm_can=can
 => save;reset
 To enable SDHC in case of NOR/NAND/SPI boot
   a) For temporary use case in runtime without reboot system
      run 'mux sdhc' in u-boot to validate SDHC with invalidating IFC.
   b) For long-term use case
      set 'esdhc' in hwconfig and save it.
 To enable IFC in case of SD boot
   a) For temporary use case in runtime without reboot system
      run 'mux ifc' in u-boot to validate IFC with invalidating SDHC.
   b) For long-term use case
      set 'ifc' in hwconfig and save it.
 Build images for different boot mode
 ====================================
 First setup cross compile environment on build host
   $ export ARCH=powerpc
   $ export CROSS_COMPILE=<your-compiler-path>/powerpc-linux-gnu-
 1. For NOR boot
   $ make P1010RDB-PB_NOR
 2. For NAND boot
   $ make P1010RDB-PB_NAND
 3. For SPI boot
   $ make P1010RDB-PB_SPIFLASH
 4. For SD boot
   $ make P1010RDB-PB_SDCARD
 Steps to program images to flash for different boot mode
 ========================================================
 1. NOR boot
   => tftp 1000000 u-boot.bin
   For bank0
   => pro off all;era eff80000 efffffff;cp.b 1000000 eff80000 $filesize
   set SW1[8]=0, SW4[1:4]= 1111 and SW3[3:4]= 00, then power on the board
   For bank1
   => pro off all;era eef80000 eeffffff;cp.b 1000000 eef80000 $filesize
   set SW1[8]=1, SW4[1:4]= 1111 and SW3[3:4]= 00, then power on the board
 2. NAND boot
   => tftp 1000000 u-boot-nand.bin
   => nand erase 0 $filesize; nand write $loadaddr 0 $filesize
   Set SW4[1:4]= 1010 and SW3[3:4]= 01, then power on the board
 3. SPI boot
   1)  cat p1010rdb-config-header.bin u-boot.bin > u-boot-spi-combined.bin
   2)  =>  tftp 1000000 u-boot-spi-combined.bin
   3)  =>  sf probe 0; sf erase 0 100000; sf write 1000000 0 100000
   set SW4[1:4]= 0110 and SW3[3:4]= 00, then power on the board
 4. SD boot
   1)	cat p1010rdb-config-header.bin u-boot.bin > u-boot-sd-combined.bin
   2)	=> tftp 1000000 u-boot-sd-combined.bin
   3)	=> mux sdhc
   4)	=> mmc write 1000000 0 1050
   set SW4[1:4]= 0111 and SW3[3:4]= 10, then power on the board
 Boot Linux from network using TFTP on P1010RDB-PB
 =================================================
 Place uImage, p1010rdb.dtb and rootfs files in the TFTP download path.
 	=> tftp 1000000 uImage
 	=> tftp 2000000 p1010rdb.dtb
 	=> tftp 3000000 rootfs.ext2.gz.uboot.p1010rdb
 	=> bootm 1000000 3000000 2000000
 For more details, please refer to P1010RDB-PB User Guide and access website
 www.freescale.com and Freescale QorIQ SDK Infocenter document.
--- a/doc/README.p1010rdb
+++ b/doc/README.p1010rdb
@ -1,198 +0,0 @@
 Overview
 =========
 The P1010RDB is a Freescale reference design board that hosts the P1010 SoC.
 The P1010 is a cost-effective, low-power, highly integrated host processor
 based on a Power Architecture e500v2 core (maximum core frequency 800/1000 MHz),
 that addresses the requirements of several routing, gateways, storage, consumer,
 and industrial applications. Applications of interest include the main CPUs and
 I/O processors in network attached storage (NAS), the voice over IP (VoIP)
 router/gateway, and wireless LAN (WLAN) and industrial controllers.
 The P1010RDB board features are as follows:
 Memory subsystem:
 	- 1Gbyte unbuffered DDR3 SDRAM discrete devices (32-bit bus)
 	- 32 Mbyte NOR flash single-chip memory
 	- 32 Mbyte NAND flash memory
 	- 256 Kbit M24256 I2C EEPROM
 	- 16 Mbyte SPI memory
 	- I2C Board EEPROM 128x8 bit memory
 	- SD/MMC connector to interface with the SD memory card
 Interfaces:
 	- PCIe:
 		- Lane0: x1 mini-PCIe slot
 		- Lane1: x1 PCIe standard slot
 	- SATA:
 		- 1 internal SATA connector to 2.5" 160G SATA2 HDD
 		- 1 eSATA connector to rear panel
 	- 10/100/1000 BaseT Ethernet ports:
 		- eTSEC1, RGMII: one 10/100/1000 port using Vitesse VSC8641XKO
 		- eTSEC2, SGMII: one 10/100/1000 port using Vitesse VSC8221
 		- eTSEC3, SGMII: one 10/100/1000 port using Vitesse VSC8221
 	- USB 2.0 port:
 		- x1 USB2.0 port: via an ULPI PHY to micro-AB connector
 		- x1 USB2.0 poort via an internal PHY to micro-AB connector
 	- FlexCAN ports:
 		- x2 DB-9 female connectors for FlexCAN bus(revision 2.0B)
 		   interface;
 	- DUART interface:
 		- DUART interface: supports two UARTs up to 115200 bps for
 		  console display
 		- J45 connectors are used for these 2 UART ports.
 	- TDM
 		- 2 FXS ports connected via an external SLIC to the TDM
 		   interface. SLIC is controllled via SPI.
 		- 1 FXO port connected via a relay to FXS for switchover to
 		   POTS
 Board connectors:
 	- Mini-ITX power supply connector
 	- JTAG/COP for debugging
 IEEE Std. 1588 signals for test and measurement
 Real-time clock on I2C bus
 POR
 	- support critical POR setting changed via switch on board
 PCB
 	- 6-layer routing (4-layer signals, 2-layer power and ground)
 Serial Port Configuration on P1010RDB
 =====================================
 Configure the serial port of the attached computer with the following values:
 	-Data rate: 115200 bps
 	-Number of data bits: 8
 	-Parity: None
 	-Number of Stop bits: 1
 	-Flow Control: Hardware/None
 Settings of DIP-switch
 ======================
  SW4[1:4]= 1111 and SW6[4]=0 for boot from 16bit NOR flash
  SW4[1:4]= 1000 and SW6[4]=1 for boot from 8bit NAND flash
  SW4[1:4]= 0110 and SW6[4]=0 for boot from SPI flash
 Note: 1 stands for 'on', 0 stands for 'off'
 Setting of hwconfig
 ===================
 If FlexCAN or TDM is needed, please set "fsl_p1010mux:tdm_can=can" or
 "fsl_p1010mux:tdm_can=tdm" explicitly in u-booot prompt as below for example:
 setenv hwconfig "fsl_p1010mux:tdm_can=tdm;usb1:dr_mode=host,phy_type=utmi"
 By default, don't set fsl_p1010mux:tdm_can, in this case, spi chip selection
 is set to spi-flash instead of to SLIC/TDM/DAC and tdm_can_sel is set to TDM
 instead of to CAN/UART1.
 Build and burn u-boot to NOR flash
 ==================================
 1. Build u-boot.bin image
 	export ARCH=powerpc
 	export CROSS_COMPILE=/your_path/powerpc-linux-gnu-
 	make P1010RDB_NOR
 2. Burn u-boot.bin into NOR flash
 	=> tftp $loadaddr $uboot
 	=> protect off eff80000 +$filesize
 	=> erase eff80000 +$filesize
 	=> cp.b $loadaddr eff80000 $filesize
 3. Check SW4[1:4]= 1111 and SW6[4]=0, then power on.
 Alternate NOR bank
 ============================
 1. Burn u-boot.bin into alternate NOR bank
 	=> tftp $loadaddr $uboot
 	=> protect off eef80000 +$filesize
 	=> erase eef80000 +$filesize
 	=> cp.b $loadaddr eef80000 $filesize
 2. Switch to alternate NOR bank
 	=> mw.b ffb00009 1
 	=> reset
 	or set SW1[8]= ON
 SW1[8]= OFF: Upper bank used for booting start
 SW1[8]= ON:  Lower bank used for booting start
 CPLD NOR bank selection register address 0xFFB00009 Bit[0]:
 0 - boot from upper 4 sectors
 1 - boot from lower 4 sectors
 Build and burn u-boot to NAND flash
 ===================================
 1. Build u-boot.bin image
 	export ARCH=powerpc
 	export CROSS_COMPILE=/your_path/powerpc-linux-gnu-
 	make P1010RDB_NAND
 2. Burn u-boot-nand.bin into NAND flash
 	=> tftp $loadaddr $uboot-nand
 	=> nand erase 0 $filesize
 	=> nand write $loadaddr 0 $filesize
 3. Check SW4[1:4]= 1000 and SW6[4]=1, then power on.
 Build and burn u-boot to SPI flash
 ==================================
 1. Build u-boot-spi.bin image
 	make P1010RDB_SPIFLASH_config; make
 	Boot up kernel with rootfs.ext2.gz.uboot.p1010rdb
 	Download u-boot.bin to linux and you can find some config files
 	under /usr/share such as config_xx.dat. Do below command:
 	boot_format config_ddr3_1gb_p1010rdb_800M.dat u-boot.bin -spi \
 			u-boot-spi.bin
 	to generate u-boot-spi.bin.
 2. Burn u-boot-spi.bin into SPI flash
 	=> tftp $loadaddr $uboot-spi
 	=> sf erase 0 100000
 	=> sf write $loadaddr 0 $filesize
 3. Check SW4[1:4]= 0110 and SW6[4]=0, then power on.
 CPLD POR setting registers
 ==========================
 1. Set POR switch selection register (addr 0xFFB00011) to 0.
 2. Write CPLD POR registers (BCSR0~BCSR3, addr 0xFFB00014~0xFFB00017) with
   proper values.
   If change boot ROM location to NOR or NAND flash, need write the IFC_CS0
   switch command by I2C.
 3. Send reset command.
   After reset, the new POR setting will be implemented.
 Two examples are given in below:
 Switch from NOR to NAND boot with default frequency:
 	=> i2c dev 0
 	=> i2c mw 18 1 f9
 	=> i2c mw 18 3 f0
 	=> mw.b ffb00011 0
 	=> mw.b ffb00017 1
 	=> reset
 Switch from NAND to NOR boot with Core/CCB/DDR (800/400/667 MHz):
 	=> i2c dev 0
 	=> i2c mw 18 1 f1
 	=> i2c mw 18 3 f0
 	=> mw.b ffb00011 0
 	=> mw.b ffb00014 2
 	=> mw.b ffb00015 5
 	=> mw.b ffb00016 3
 	=> mw.b ffb00017 f
 	=> reset
 Boot Linux from network using TFTP on P1010RDB
 ==============================================
 Place uImage, p1010rdb.dtb and rootfs files in the TFTP disk area.
 	=> tftp 1000000 uImage
 	=> tftp 2000000 p1010rdb.dtb
 	=> tftp 3000000 rootfs.ext2.gz.uboot.p1010rdb
 	=> bootm 1000000 3000000 2000000
 Please contact your local field applications engineer or sales representative
 to obtain related documents, such as P1010-RDB User Guide for details.