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When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com> |
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bsc9132qds.c | ||
ddr.c | ||
Kconfig | ||
law.c | ||
MAINTAINERS | ||
Makefile | ||
README | ||
spl_minimal.c | ||
tlb.c |
Overview -------- The BSC9132 is a highly integrated device that targets the evolving Microcell, Picocell, and Enterprise-Femto base station market subsegments. The BSC9132 device combines Power Architecture e500 and DSP StarCore SC3850 core technologies with MAPLE-B2P baseband acceleration processing elements to address the need for a high performance, low cost, integrated solution that handles all required processing layers without the need for an external device except for an RF transceiver or, in a Micro base station configuration, a host device that handles the L3/L4 and handover between sectors. The BSC9132 SoC includes the following function and features: - Power Architecture subsystem including two e500 processors with 512-Kbyte shared L2 cache - Two StarCore SC3850 DSP subsystems, each with a 512-Kbyte private L2 cache - 32 Kbyte of shared M3 memory - The Multi Accelerator Platform Engine for Pico BaseStation Baseband Processing (MAPLE-B2P) - Two DDR3/3L memory interfaces with 32-bit data width (40 bits including ECC), up to 1333 MHz data rate - Dedicated security engine featuring trusted boot - Two DMA controllers - OCNDMA with four bidirectional channels - SysDMA with sixteen bidirectional channels - Interfaces - Four-lane SerDes PHY - PCI Express controller complies with the PEX Specification-Rev 2.0 - Two Common Public Radio Interface (CPRI) controller lanes - High-speed USB 2.0 host and device controller with ULPI interface - Enhanced secure digital (SD/MMC) host controller (eSDHC) - Antenna interface controller (AIC), supporting four industry standard JESD207/four custom ADI RF interfaces - ADI lanes support both full duplex FDD support & half duplex TDD - Universal Subscriber Identity Module (USIM) interface that facilitates communication to SIM cards or Eurochip pre-paid phone cards - Two DUART, two eSPI, and two I2C controllers - Integrated Flash memory controller (IFC) - GPIO - Sixteen 32-bit timers The SC3850 core subsystem consists of the following: - 32 KB, 8-way, level 1 instruction cache (L1 ICache) - 32 KB, 8-way, level 1 data cache (L1 DCache) - 512 KB, 8-way, level 2 unified instruction/data cache (L2 cache/M2 memory) - Memory management unit (MMU) - Global interrupt controller ( GIC) - Debug and profiling unit (DPU) - Two 32-bit quad timers BSC9132QDS board Overview ------------------------- 2Gbyte DDR3 (on board DDR), Dual Ranki 32Mbyte 16bit NOR flash 128Mbyte 2K page size NAND Flash 256 Kbit M24256 I2C EEPROM 128 Mbit SPI Flash memory SD slot USB-ULPI eTSEC1: Connected to SGMII PHY eTSEC2: Connected to SGMII PHY PCIe CPRI SerDes I2C RTC DUART interface: supports one UARTs up to 115200 bps for console display Frequency Combinations Supported -------------------------------- Core MHz/CCB MHz/DDR(MT/s) 1. CPU0/CPU1/CCB/DDR: 1000MHz/1000MHz/500MHz/800MHz (SYSCLK = 100MHz, DDRCLK = 100MHz) 2. CPU0/CPU1/CCB/DDR: 1200MHz/1200MHz/600MHz/1330MHz (SYSCLK = 100MHz, DDRCLK = 133MHz) Boot Methods Supported ----------------------- 1. NOR Flash 2. NAND Flash 3. SD Card 4. SPI flash Default Boot Method -------------------- NOR boot Building U-Boot -------------- To build the U-Boot for BSC9132QDS: 1. NOR Flash make BSC9132QDS_NOR_DDRCLK100 : For 100MHZ DDR CLK make BSC9132QDS_NOR_DDRCLK133 : For 133MHZ DDR CLK 2. NAND Flash : It is currently not supported 3. SPI Flash make BSC9132QDS_SPIFLASH_DDRCLK100 : For 100MHZ DDR CLK make BSC9132QDS_SPIFLASH_DDRCLK133 : For 133MHZ DDR CLK 4. SD Card make BSC9132QDS_SDCARD_DDRCLK100 : For 100MHZ DDR CLK make BSC9132QDS_SDCARD_DDRCLK133 : For 133MHZ DDR CLK Memory map ----------- 0x0000_0000 0x7FFF_FFFF DDR 2G cacheable 0x8000_0000 0x8FFF_FFFF NOR Flash 256M 0x9000_0000 0x9FFF_FFFF PCIe Memory 256M 0xA000_0000 0xA7FF_FFFF DSP core1 L2 space 128M 0xB000_0000 0xB0FF_FFFF DSP core0 M2 space 16M 0xB100_0000 0xB1FF_FFFF DSP core1 M2 space 16M 0xC000_0000 0xC000_7FFF M3 Memory 32K 0xC001_0000 0xC001_FFFF PCI Express I/O 64K 0xC100_0000 0xC13F_FFFF MAPLE-2F 4M 0xC1F0_0000 0xC1F7_FFFF PA SRAM Region 0 512K 0xC1F8_0000 0xC1FB_FFFF PA SRAM Region 1 512K 0xFED0_0000 0xFED0_3FFF SEC Secured RAM 16K 0xFEE0_0000 0xFEE0_0FFF DSP Boot ROM 4K 0xFF60_0000 0xFF6F_FFFF DSP CCSR 1M 0xFF70_0000 0xFF7F_FFFF PA CCSR 1M 0xFF80_0000 0xFFFF_FFFF Boot Page & NAND Buffer 8M Flashing Images --------------- To place a new U-Boot image in the NAND flash and then boot with that new image temporarily, use this: tftp 1000000 u-boot-nand.bin nand erase 0 100000 nand write 1000000 0 100000 reset Using the Device Tree Source File --------------------------------- To create the DTB (Device Tree Binary) image file, use a command similar to this: dtc -b 0 -f -I dts -O dtb bsc9132qds.dts > bsc9132qds.dtb Likely, that .dts file will come from here; linux-2.6/arch/powerpc/boot/dts/bsc9132qds.dts Booting Linux ------------- Place a linux uImage in the TFTP disk area. tftp 1000000 uImage tftp 2000000 rootfs.ext2.gz.uboot tftp c00000 bsc9132qds.dtb bootm 1000000 2000000 c00000