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Sean Anderson445fd222020-06-24 06:41:24 -04001.. SPDX-License-Identifier: GPL-2.0+
2.. Copyright (C) 2020 Sean Anderson <seanga2@gmail.com>
3
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +02004MAIX
5====
Sean Anderson445fd222020-06-24 06:41:24 -04006
7Several of the Sipeed Maix series of boards cotain the Kendryte K210 processor,
8a 64-bit RISC-V CPU. This processor contains several peripherals to accelerate
9neural network processing and other "ai" tasks. This includes a "KPU" neural
10network processor, an audio processor supporting beamforming reception, and a
11digital video port supporting capture and output at VGA resolution. Other
12peripherals include 8M of SRAM (accessible with and without caching); remappable
13pins, including 40 GPIOs; AES, FFT, and SHA256 accelerators; a DMA controller;
14and I2C, I2S, and SPI controllers. Maix peripherals vary, but include spi flash;
15on-board usb-serial bridges; ports for cameras, displays, and sd cards; and
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020016ESP32 chips.
17
18Currently, only the Sipeed MAIX BiT V2.0 (bitm) and Sipeed MAIXDUINO are
19supported, but the boards are fairly similar.
Sean Anderson445fd222020-06-24 06:41:24 -040020
21Documentation for Maix boards is available from
22`Sipeed's website <http://dl.sipeed.com/MAIX/HDK/>`_.
23Documentation for the Kendryte K210 is available from
24`Kendryte's website <https://kendryte.com/downloads/>`_. However, hardware
25details are rather lacking, so most technical reference has been taken from the
26`standalone sdk <https://github.com/kendryte/kendryte-standalone-sdk>`_.
27
28Build and boot steps
29--------------------
30
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020031To build U-Boot, run
Sean Anderson445fd222020-06-24 06:41:24 -040032
33.. code-block:: none
34
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020035 make <defconfig>
Sean Anderson445fd222020-06-24 06:41:24 -040036 make CROSS_COMPILE=<your cross compile prefix>
37
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020038To flash U-Boot, run
Sean Anderson445fd222020-06-24 06:41:24 -040039
40.. code-block:: none
41
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020042 kflash -tp /dev/<your tty here> -B <board_id> u-boot-dtb.bin
43
44The board provides two serial devices, e.g.
Sean Anderson445fd222020-06-24 06:41:24 -040045
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020046* /dev/serial/by-id/usb-Kongou_Hikari_Sipeed-Debug_12345678AB-if00-port0
47* /dev/serial/by-id/usb-Kongou_Hikari_Sipeed-Debug_12345678AB-if01-port0
48
49Which one is used for flashing depends on the board.
50
51Currently only a small subset of the board features are supported. So we can
52use the same default configuration and device tree. In the long run we may need
53separate settings.
54
55======================== ========================== ========== ==========
56Board defconfig board_id TTY device
57======================== ========================== ========== ==========
58Sipeed MAIX BiT sipeed_maix_bitm_defconfig bit first
59Sipeed MAIX BiT with Mic sipeed_maix_bitm_defconfig bit_mic first
60Sipeed MAIXDUINO sipeed_maix_bitm_defconfig maixduino first
61Sipeed MAIX GO goE second
Heinrich Schuchardt444959e2020-09-05 12:37:49 +020062Sipeed MAIX ONE DOCK dan first
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +020063======================== ========================== ========== ==========
64
65Flashing causes a reboot of the device. Parameter -t specifies that the serial
66console shall be opened immediately. Boot output should look like the following:
Sean Anderson445fd222020-06-24 06:41:24 -040067
68.. code-block:: none
69
70 U-Boot 2020.04-rc2-00087-g2221cc09c1-dirty (Feb 28 2020 - 13:53:09 -0500)
71
72 DRAM: 8 MiB
73 In: serial@38000000
74 Out: serial@38000000
75 Err: serial@38000000
76 =>
77
Heinrich Schuchardtcfebdfb2020-08-17 12:35:39 +020078OpenSBI
79^^^^^^^
80
81OpenSBI is an open source supervisor execution environment implementing the
82RISC-V Supervisor Binary Interface Specification [1]. One of its features is
83to intercept run-time exceptions, e.g. for unaligned access or illegal
84instructions, and to emulate the failing instructions.
85
86The OpenSBI source can be downloaded via:
87
88.. code-block:: bash
89
90 git clone https://github.com/riscv/opensbi
91
92As OpenSBI will be loaded at 0x80000000 we have to adjust the U-Boot text base.
93Furthermore we have to enable building U-Boot for S-mode::
94
95 CONFIG_SYS_TEXT_BASE=0x80020000
96 CONFIG_RISCV_SMODE=y
97
98Both settings are contained in sipeed_maix_smode_defconfig so we can build
99U-Boot with:
100
101.. code-block:: bash
102
103 make sipeed_maix_smode_defconfig
104 make
105
106To build OpenSBI with U-Boot as a payload:
107
108.. code-block:: bash
109
110 cd opensbi
111 make \
112 PLATFORM=kendryte/k210 \
113 FW_PAYLOAD=y \
114 FW_PAYLOAD_OFFSET=0x20000 \
115 FW_PAYLOAD_PATH=<path to U-Boot>/u-boot-dtb.bin
116
117The value of FW_PAYLOAD_OFFSET must match CONFIG_SYS_TEXT_BASE - 0x80000000.
118
119The file to flash is build/platform/kendryte/k210/firmware/fw_payload.bin.
120
Sean Anderson445fd222020-06-24 06:41:24 -0400121Loading Images
122^^^^^^^^^^^^^^
123
124To load a kernel, transfer it over serial.
125
126.. code-block:: none
127
128 => loady 80000000 1500000
129 ## Switch baudrate to 1500000 bps and press ENTER ...
130
131 *** baud: 1500000
132
133 *** baud: 1500000 ***
134 ## Ready for binary (ymodem) download to 0x80000000 at 1500000 bps...
135 C
136 *** file: loader.bin
137 $ sz -vv loader.bin
138 Sending: loader.bin
139 Bytes Sent:2478208 BPS:72937
140 Sending:
141 Ymodem sectors/kbytes sent: 0/ 0k
142 Transfer complete
143
144 *** exit status: 0 ***
145 ## Total Size = 0x0025d052 = 2478162 Bytes
146 ## Switch baudrate to 115200 bps and press ESC ...
147
148 *** baud: 115200
149
150 *** baud: 115200 ***
151 =>
152
153Running Programs
154^^^^^^^^^^^^^^^^
155
156Binaries
157""""""""
158
159To run a bare binary, use the ``go`` command:
160
161.. code-block:: none
162
163 => loady
164 ## Ready for binary (ymodem) download to 0x80000000 at 115200 bps...
165 C
166 *** file: ./examples/standalone/hello_world.bin
167 $ sz -vv ./examples/standalone/hello_world.bin
168 Sending: hello_world.bin
169 Bytes Sent: 4864 BPS:649
170 Sending:
171 Ymodem sectors/kbytes sent: 0/ 0k
172 Transfer complete
173
174 *** exit status: 0 ***
175 (CAN) packets, 5 retries
176 ## Total Size = 0x000012f8 = 4856 Bytes
177 => go 80000000
178 ## Starting application at 0x80000000 ...
179 Example expects ABI version 9
180 Actual U-Boot ABI version 9
181 Hello World
182 argc = 1
183 argv[0] = "80000000"
184 argv[1] = "<NULL>"
185 Hit any key to exit ...
186
187Legacy Images
188"""""""""""""
189
190To run legacy images, use the ``bootm`` command:
191
192.. code-block:: none
193
194 $ tools/mkimage -A riscv -O u-boot -T standalone -C none -a 80000000 -e 80000000 -d examples/standalone/hello_world.bin hello_world.img
195 Image Name:
196 Created: Thu Mar 5 12:04:10 2020
197 Image Type: RISC-V U-Boot Standalone Program (uncompressed)
198 Data Size: 4856 Bytes = 4.74 KiB = 0.00 MiB
199 Load Address: 80000000
200 Entry Point: 80000000
201
Sean Anderson0d62d8a2020-09-14 11:02:06 -0400202 $ picocom -b 115200 /dev/ttyUSB0
Sean Anderson445fd222020-06-24 06:41:24 -0400203 => loady
204 ## Ready for binary (ymodem) download to 0x80000000 at 115200 bps...
205 C
206 *** file: hello_world.img
207 $ sz -vv hello_world.img
208 Sending: hello_world.img
209 Bytes Sent: 4992 BPS:665
210 Sending:
211 Ymodem sectors/kbytes sent: 0/ 0k
212 Transfer complete
213
214 *** exit status: 0 ***
215 CAN) packets, 3 retries
216 ## Total Size = 0x00001338 = 4920 Bytes
217 => bootm
218 ## Booting kernel from Legacy Image at 80000000 ...
219 Image Name:
220 Image Type: RISC-V U-Boot Standalone Program (uncompressed)
221 Data Size: 4856 Bytes = 4.7 KiB
222 Load Address: 80000000
223 Entry Point: 80000000
224 Verifying Checksum ... OK
225 Loading Standalone Program
226 Example expects ABI version 9
227 Actual U-Boot ABI version 9
228 Hello World
229 argc = 0
230 argv[0] = "<NULL>"
231 Hit any key to exit ...
232
Sean Anderson0d62d8a2020-09-14 11:02:06 -0400233Pin Assignment
234--------------
235
236The K210 contains a Fully Programmable I/O Array (FPIOA), which can remap any of
237its 256 input functions to any any of 48 output pins. The following table has
238the default pin assignments for the BitM.
239
240===== ========== =======
241Pin Function Comment
242===== ========== =======
243IO_0 JTAG_TCLK
244IO_1 JTAG_TDI
245IO_2 JTAG_TMS
246IO_3 JTAG_TDO
247IO_4 UARTHS_RX
248IO_5 UARTHS_TX
249IO_6 Not set
250IO_7 Not set
251IO_8 GPIO_0
252IO_9 GPIO_1
253IO_10 GPIO_2
254IO_11 GPIO_3
255IO_12 GPIO_4 Green LED
256IO_13 GPIO_5 Red LED
257IO_14 GPIO_6 Blue LED
258IO_15 GPIO_7
259IO_16 GPIOHS_0 ISP
260IO_17 GPIOHS_1
261IO_18 I2S0_SCLK MIC CLK
262IO_19 I2S0_WS MIC WS
263IO_20 I2S0_IN_D0 MIC SD
264IO_21 GPIOHS_5
265IO_22 GPIOHS_6
266IO_23 GPIOHS_7
267IO_24 GPIOHS_8
268IO_25 GPIOHS_9
269IO_26 SPI1_D1 MMC MISO
270IO_27 SPI1_SCLK MMC CLK
271IO_28 SPI1_D0 MMC MOSI
272IO_29 GPIOHS_13 MMC CS
273IO_30 GPIOHS_14
274IO_31 GPIOHS_15
275IO_32 GPIOHS_16
276IO_33 GPIOHS_17
277IO_34 GPIOHS_18
278IO_35 GPIOHS_19
279IO_36 GPIOHS_20 Panel CS
280IO_37 GPIOHS_21 Panel RST
281IO_38 GPIOHS_22 Panel DC
282IO_39 SPI0_SCK Panel WR
283IO_40 SCCP_SDA
284IO_41 SCCP_SCLK
285IO_42 DVP_RST
286IO_43 DVP_VSYNC
287IO_44 DVP_PWDN
288IO_45 DVP_HSYNC
289IO_46 DVP_XCLK
290IO_47 DVP_PCLK
291===== ========== =======
292
Sean Anderson445fd222020-06-24 06:41:24 -0400293Over- and Under-clocking
294------------------------
295
296To change the clock speed of the K210, you will need to enable
297``CONFIG_CLK_K210_SET_RATE`` and edit the board's device tree. To do this, add a
298section to ``arch/riscv/arch/riscv/dts/k210-maix-bit.dts`` like the following:
299
300.. code-block:: none
301
302 &sysclk {
303 assigned-clocks = <&sysclk K210_CLK_PLL0>;
304 assigned-clock-rates = <800000000>;
305 };
306
307There are three PLLs on the K210: PLL0 is the parent of most of the components,
308including the CPU and RAM. PLL1 is the parent of the neural network coprocessor.
309PLL2 is the parent of the sound processing devices. Note that child clocks of
310PLL0 and PLL2 run at *half* the speed of the PLLs. For example, if PLL0 is
311running at 800 MHz, then the CPU will run at 400 MHz. This is the example given
312above. The CPU can be overclocked to around 600 MHz, and underclocked to 26 MHz.
313
314It is possible to set PLL2's parent to PLL0. The plls are more accurate when
315converting between similar frequencies. This makes it easier to get an accurate
316frequency for I2S. As an example, consider sampling an I2S device at 44.1 kHz.
317On this device, the I2S serial clock runs at 64 times the sample rate.
318Therefore, we would like to run PLL2 at an even multiple of 2.8224 MHz. If
319PLL2's parent is IN0, we could use a frequency of 390 MHz (the same as the CPU's
320default speed). Dividing by 138 yields a serial clock of about 2.8261 MHz. This
321results in a sample rate of 44.158 kHz---around 50 Hz or .1% too fast. If,
322instead, we set PLL2's parent to PLL1 running at 390 MHz, and request a rate of
3232.8224 * 136 = 383.8464 MHz, the achieved rate is 383.90625 MHz. Dividing by 136
324yields a serial clock of about 2.8228 MHz. This results in a sample rate of
32544.107 kHz---just 7 Hz or .02% too fast. This configuration is shown in the
326following example:
327
328.. code-block:: none
329
330 &sysclk {
331 assigned-clocks = <&sysclk K210_CLK_PLL1>, <&sysclk K210_CLK_PLL2>;
332 assigned-clock-parents = <0>, <&sysclk K210_CLK_PLL1>;
333 assigned-clock-rates = <390000000>, <383846400>;
334 };
335
336There are a couple of quirks to the PLLs. First, there are more frequency ratios
337just above and below 1.0, but there is a small gap around 1.0. To be explicit,
338if the input frequency is 100 MHz, it would be impossible to have an output of
33999 or 101 MHz. In addition, there is a maximum frequency for the internal VCO,
340so higher input/output frequencies will be less accurate than lower ones.
341
342Technical Details
343-----------------
344
345Boot Sequence
346^^^^^^^^^^^^^
347
Heinrich Schuchardt99bd0ff2020-09-05 12:46:46 +02003481. ``RESET`` pin is deasserted. The pin is connected to the ``RESET`` button. It
349 can also be set to low via either the ``DTR`` or the ``RTS`` line of the
350 serial interface (depending on the board).
Sean Anderson445fd222020-06-24 06:41:24 -04003512. Both harts begin executing at ``0x00001000``.
3523. Both harts jump to firmware at ``0x88000000``.
3534. One hart is chosen as a boot hart.
Heinrich Schuchardt99bd0ff2020-09-05 12:46:46 +02003545. Firmware reads the value of pin ``IO_16`` (ISP). This pin is connected to the
355 ``BOOT`` button. The pin can equally be set to low via either the ``DTR`` or
356 ``RTS`` line of the serial interface (depending on the board).
Sean Anderson445fd222020-06-24 06:41:24 -0400357
358 * If the pin is low, enter ISP mode. This mode allows loading data to ram,
359 writing it to flash, and booting from specific addresses.
360 * If the pin is high, continue boot.
3616. Firmware reads the next stage from flash (SPI3) to address ``0x80000000``.
362
363 * If byte 0 is 1, the next stage is decrypted using the built-in AES
364 accelerator and the one-time programmable, 128-bit AES key.
365 * Bytes 1 to 4 hold the length of the next stage.
366 * The SHA-256 sum of the next stage is automatically calculated, and verified
367 against the 32 bytes following the next stage.
3687. The boot hart sends an IPI to the other hart telling it to jump to the next
369 stage.
3708. The boot hart jumps to ``0x80000000``.
371
Heinrich Schuchardtb50c9a02020-07-29 19:23:38 +0200372Debug UART
373^^^^^^^^^^
374
375The Debug UART is provided with the following settings::
376
377 CONFIG_DEBUG_UART=y
378 CONFIG_DEBUG_UART_SIFIVE=y
379 CONFIG_DEBUG_UART_BASE=0x38000000
380 CONFIG_DEBUG_UART_CLOCK=390000000
381
Heinrich Schuchardt8d3e08a2020-07-28 20:05:30 +0200382Resetting the board
383^^^^^^^^^^^^^^^^^^^
384
385The MAIX boards can be reset using the DTR and RTS lines of the serial console.
386How the lines are used depends on the specific board. See the code of kflash.py
387for details.
388
389This is the reset sequence for the MAXDUINO and MAIX BiT with Mic:
390
391.. code-block:: python
392
393 def reset(self):
394 self.device.setDTR(False)
395 self.device.setRTS(False)
396 time.sleep(0.1)
397 self.device.setDTR(True)
398 time.sleep(0.1)
399 self.device.setDTR(False)
400 time.sleep(0.1)
401
402and this for the MAIX Bit:
403
404.. code-block:: python
405
406 def reset(self):
407 self.device.setDTR(False)
408 self.device.setRTS(False)
409 time.sleep(0.1)
410 self.device.setRTS(True)
411 time.sleep(0.1)
412 self.device.setRTS(False)
413 time.sleep(0.1)
414
Sean Anderson445fd222020-06-24 06:41:24 -0400415Memory Map
416^^^^^^^^^^
417
418========== ========= ===========
419Address Size Description
420========== ========= ===========
4210x00000000 0x1000 debug
4220x00001000 0x1000 rom
4230x02000000 0xC000 clint
4240x0C000000 0x4000000 plic
4250x38000000 0x1000 uarths
4260x38001000 0x1000 gpiohs
4270x40000000 0x400000 sram0 (non-cached)
4280x40400000 0x200000 sram1 (non-cached)
4290x40600000 0x200000 airam (non-cached)
4300x40800000 0xC00000 kpu
4310x42000000 0x400000 fft
4320x50000000 0x1000 dmac
4330x50200000 0x200000 apb0
4340x50200000 0x80 gpio
4350x50210000 0x100 uart0
4360x50220000 0x100 uart1
4370x50230000 0x100 uart2
4380x50240000 0x100 spi slave
4390x50250000 0x200 i2s0
4400x50250200 0x200 apu
4410x50260000 0x200 i2s1
4420x50270000 0x200 i2s2
4430x50280000 0x100 i2c0
4440x50290000 0x100 i2c1
4450x502A0000 0x100 i2c2
4460x502B0000 0x100 fpioa
4470x502C0000 0x100 sha256
4480x502D0000 0x100 timer0
4490x502E0000 0x100 timer1
4500x502F0000 0x100 timer2
4510x50400000 0x200000 apb1
4520x50400000 0x100 wdt0
4530x50410000 0x100 wdt1
4540x50420000 0x100 otp control
4550x50430000 0x100 dvp
4560x50440000 0x100 sysctl
4570x50450000 0x100 aes
4580x50460000 0x100 rtc
4590x52000000 0x4000000 apb2
4600x52000000 0x100 spi0
4610x53000000 0x100 spi1
4620x54000000 0x200 spi3
4630x80000000 0x400000 sram0 (cached)
4640x80400000 0x200000 sram1 (cached)
4650x80600000 0x200000 airam (cached)
4660x88000000 0x20000 otp
4670x88000000 0xC200 firmware
4680x8801C000 0x1000 riscv priv spec 1.9 config
4690x8801D000 0x2000 flattened device tree (contains only addresses and
470 interrupts)
Sean Anderson0d62d8a2020-09-14 11:02:06 -04004710x8801F000 0x1000 credits
Sean Anderson445fd222020-06-24 06:41:24 -0400472========== ========= ===========
Heinrich Schuchardtcfebdfb2020-08-17 12:35:39 +0200473
474Links
475-----
476
477[1] https://github.com/riscv/riscv-sbi-doc
478 RISC-V Supervisor Binary Interface Specification