adc debugging
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@ -418,8 +418,20 @@ interpreter.
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TODO
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### Static IPs
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The client and controller IPs are baked into the software *and firmware*
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at build time. The software configuration is in `software/prj.conf`. The
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firmware configuration is in `firmware/soc.py` (see `local_ip` and `remote_ip`
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settings in `SoCCore`).
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The controlling computer must have it's static IP on the interface connected
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to the controller to be the same as `remote_ip`. By default this is `91.168.1.100`.
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## Logging
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TODO: Do logging via UDP?
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Logging is done via UART. Connect the micro-USB slot to the controlling
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computer to get debug output.
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@ -500,6 +512,17 @@ write big Creole programs.
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The open source software stack that Upsilon uses is novel and unstable.
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## LiteX
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Set `compile_software` to `False` in `soc.py` when checking for Verilog
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compile errors. Set it back when you do an actual compile run, or your
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program will not boot.
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If LiteX complains about not having a RiscV compiler, that is because
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your system does not have compatible RISC-V compiler in your `$PATH`.
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Refer to the LiteX install instructions above to see how to set up the
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SiFive GCC, which will work.
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## F4PGA
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This is really a Yosys (and really, an abc bug). F4PGA defaults to using
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@ -516,6 +539,18 @@ Yosys fails to calculate computed parameter values correctly. For instance,
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Yosys will *silently* fail to compile this, setting `VALUE` to be equal
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to 0. The solution is to use macros.
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## Reset Pins
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On the Arty A7 there is a Reset button. This is connected to the CPU and only
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resets the CPU. Possibly due to timing issues modules get screwed up if they
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share a reset pin with the CPU. The code currently connects button 0 to reset
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the modules seperately from the CPU.
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## Clock Speeds
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The output pins on the FPGA (except for the high speed PMOD outputs) cannot
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switch fast enough to
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## Macros
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Verilog's preprocessor is awful. F4PGA (through yosys) barely supports it.
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@ -559,7 +594,8 @@ static ip.
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each ip on the ethernet interface that is connected to the controller.
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3. Run `ip addr add 192.168.1.100/24 dev eth-interface` (or whatever ip + subnet
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mask you need)
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4. Run `ip route add 192.168.1.0/24 dev eth0 proto kernel scope link` (again,
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4. If `ip route` does not give a routing entry for `192.168.1.0/24`, run
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`ip route add 192.168.1.0/24 dev eth0 proto kernel scope link` (again,
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change depending on different situations)
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This will use the static ip `192.168.1.100`, which is the default TFTP boot
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@ -180,6 +180,8 @@ m4_define(m4_adc_switch, ⟨
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/* 2nd option for each ADC is the non-converting option.
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* This is used to flush output from reset ADCs.
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* TODO: Lower power consumption by having SCK low while converter is
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* not running? May require change to spi code.
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*/
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assign adc_sdo_port[1] = adc_sdo_port[0];
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assign adc_sck_port[1] = adc_sck_port[0];
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@ -214,6 +214,8 @@ class CryoSNOM1SoC(SoCCore):
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csr_address_width=14,
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csr_paging=0x800,
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csr_ordering="big",
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local_ip='192.168.1.50',
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remote_ip='192.168.1.100',
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timer_uptime = True)
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# This initializes the connection to the physical DRAM interface.
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self.submodules.ddrphy = s7ddrphy.A7DDRPHY(platform.request("ddram"),
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@ -16,7 +16,7 @@
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#include "access.h"
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#include "control_loop_cmds.h"
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LOG_MODULE_REGISTER(access);
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LOG_MODULE_REGISTER(access, 4);
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#include "pin_io.c"
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/* The values from converters are not aligned to 32 bits.
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@ -126,10 +126,13 @@ adc_take(int adc, k_timeout_t timeout)
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if (adc < 0 || adc >= ADC_MAX)
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return -EFAULT;
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LOG_DBG("%s: taking adc %d", get_thread_name(), adc);
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int e = k_mutex_lock(adc_mutex + adc, timeout);
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LOG_DBG("%s: adc %d taken", get_thread_name(), adc);
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if (e == 0) {
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adc_locked[adc] += 1;
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}
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LOG_DBG("%s: adc %d lockeg", get_thread_name(), adc);
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return e;
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}
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@ -139,9 +142,10 @@ adc_release(int adc)
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if (adc < 0 || adc >= ADC_MAX)
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return -EFAULT;
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LOG_DBG("%s: in adc_release", get_thread_name());
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if (adc_locked[adc] == 1) {
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write_adc_arm(0, adc);
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while (!read_adc_finished(adc));
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// while (!read_adc_finished(adc));
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}
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int e = k_mutex_unlock(adc_mutex + adc);
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@ -414,6 +418,7 @@ access_release_thread(void)
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void
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access_init(void)
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{
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LOG_INF("access_init");
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if (k_mutex_init(&cloop_mutex) != 0) {
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LOG_ERR("err: cloop mutex");
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k_fatal_halt(K_ERR_KERNEL_PANIC);
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@ -437,4 +442,5 @@ access_init(void)
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k_fatal_halt(K_ERR_KERNEL_PANIC);
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}
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}
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LOG_INF("access_init done");
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}
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