xref: /openbmc/u-boot/board/cadence/xtfpga/README (revision 57efeb04)
1		Tensilica 'xtfpga' Evaluation Boards
2		====================================
3
4Tensilica's 'xtfpga' evaluation boards are actually a set of different
5boards that share configurations. The following is a list of supported
6hardware by this board type:
7
8- XT-AV60  / LX60
9- XT-AV110 / LX110
10- XT-AV200 / LX200
11- ML605
12- KC705
13
14All boards provide the following common configurations:
15
16- An Xtensa or Diamond processor core.
17- An on-chip-debug (OCD) JTAG interface.
18- A 16550 compatible UART and serial port.
19- An OpenCores Wishbone 10/100-base-T ethernet interface.
20- A 32 char two line LCD display. (except for the LX200)
21
22LX60/LX110/LX200:
23
24- Virtex-4 (XC4VLX60 / XCV4LX200) / Virtext-5 (XC5VLX110)
25- 128MB / 64MB (LX60) memory
26- 16MB / 4MB (LX60) Linear Flash
27
28ML605
29
30- Virtex-6 (XC6VLX240T)
31- 512MB DDR3 memory
32- 16MB Linear BPI Flash
33
34KC705 (Xilinx)
35
36- Kintex-7 XC7K325T FPGA
37- 1GB DDR3 memory
38- 128MB Linear BPI Flash
39
40
41Setting up the Board
42--------------------
43
44The serial port defaults to 115200 baud, no parity and 1 stop bit.
45A terminal emulator must be set accordingly to see the U-Boot prompt.
46
47
48Board Configurations LX60/LX110/LX200/ML605/KC705
49-------------------------------------------------
50
51The LX60/LX110/LX200/ML605 contain an 8-way DIP switch that controls
52the boot mapping and selects from a range of default ethernet MAC
53addresses.
54
55Boot Mapping (DIP switch 8):
56
57    DIP switch 8 maps the system ROM address space (in which the
58    reset vector resides) to either SRAM (off, 0, down) or Flash
59    (on, 1, up).  This mapping is implemented in the FPGA bitstream
60    and cannot be disabled by software, therefore DIP switch 8 is no
61    available for application use. Note DIP switch 7 is reserved by
62    Tensilica for future possible hardware use.
63
64    Mapping to SRAM allows U-Boot to be debugged with an OCD/JTAG
65    tool such as the Xtensa OCD Daemon connected via a suppored probe.
66    See the tools documentation for supported probes and how to
67    connect them.  Be aware that the board has only 128 KB of SRAM,
68    therefore U-Boot must fit within this space to debug an image
69    intended for the Flash.  This issues is discussed in a separate
70    section toward the end.
71
72    Mapping to flash allows U-Boot to start on reset, provided it
73    has been programmed into the first two 64 KB sectors of the Flash.
74
75    The Flash is always mapped at a device (memory mapped I/O) address
76    (the address is board specific and is expressed as CFG_FLASH_BASE).
77    The device address is used by U-Boot to program the flash, and may
78    be used to specify an application to run or U-Boot image to boot.
79
80Default MAC Address (DIP switches 1-6):
81
82    When the board is first powered on, or after the environment has
83    been reinitialized, the ethernet MAC address receives a default
84    value whose least significant 6 bits come from DIP switches 1-6.
85    The default is 00:50:C2:13:6F:xx where xx ranges from 0..3F
86    according to the DIP switches, where "on"==1 and "off"==0, and
87    switch 1 is the least-significant bit.
88
89    After initial startup, the MAC address is stored in the U-Boot
90    environment variable 'ethaddr'. The user may change this to any
91    other address with the "setenv" comamnd. After the environment
92    has been saved to Flash by the "saveenv" command, this will be
93    used and the DIP switches no longer consulted. DIP swithes 1-6
94    may then be used for application purposes.
95
96The KC705 board contains 4-way DIP switch, way 1 is the boot mapping
97switch and ways 2-4 control the low three bits of the MAC address.
98
99
100Limitation of SDRAM Size for OCD Debugging on the LX60
101------------------------------------------------------
102
103The XT-AV60 board has only 128 KB of SDRAM that can be mapped
104to the system ROM address space for debugging a ROM image under
105OCD/JTAG. This limits the useful size of U-Boot to 128 KB (0x20000)
106or the first 2 sectors of the flash.
107
108This can pose a problem if all the sources are compiled with -O0
109for debugging. The code size is then too large, in which case it
110would be necessary to temporarily alter the linker script to place
111the load addresses (LMA) in the RAM (VMA) so that OCD loads U-Boot
112directly there and does not unpack. In practice this is not really
113necessary as long as only a limited set of sources need to be
114debugged, because the image can still fit into the 128 KB SRAM.
115
116The recommended procedure for debugging is to first build U-Boot
117with the default optimization level (-Os), and then touch and
118rebuild incrementally with -O0 so that only the touched sources
119are recompiled with -O0. To build with -O0, pass it in the KCFLAGS
120variable to make.
121
122Because this problem is easy to fall into and difficult to debug
123if one doesn't expect it, the linker script provides a link-time
124check and fatal error message if the image size exceeds 128 KB.
125
126