minimal serdes communication loopback

2023-05-08 12:43:02 +08:00 · 2023-05-08 12:43:02 +08:00 · 1248a46a54
parent b215dd1b57
commit 1248a46a54
1 changed files with 242 additions and 0 deletions
--- a/multi_serdes_channel.py
+++ b/multi_serdes_channel.py
@ -0,0 +1,242 @@
+from migen import *
+from sync_serdes import MultiLineRX, MultiLineTX
+from migen.genlib.fifo import SyncFIFO
+from migen.build.platforms.sinara import kasli, efc
+from multi_coders import MultiEncoder, CrossbarDecoder
+from kasli_crg import TransceiverCRG
+from eem_helpers import generate_pads
+from uart import UART
+from io_loopback import SingleIOLoopback, IOLoopBack
+
+
+class MultiTransceiverChannel(Module):
+    def __init__(self, io_pads, sys_clk_freq):
+        self.uart_rx = Signal()
+        self.uart_tx = Signal()
+
+        self.submodules.uart = UART(round((115200/sys_clk_freq)*2**32))
+        self.comb += [
+            self.uart.phy_rx.eq(self.uart_rx),
+            self.uart_tx.eq(self.uart.phy_tx),
+        ]
+
+        # SERDES impl
+        self.submodules.tx = MultiLineTX()
+        self.submodules.rx = MultiLineRX()
+
+        # 8b10b encoder & decoder
+        self.submodules.encoder = MultiEncoder(lsb_first=False)
+        decoders = [ CrossbarDecoder(lsb_first=False) for _ in range(2) ]
+        self.submodules += decoders
+
+        # The actual channel
+        self.submodules.channel = IOLoopBack(io_pads)
+
+        # FIFO to record transmission received
+        rx_records = SyncFIFO(16, 32)
+        self.submodules += rx_records
+
+        # Attach FIFO to UART TX, send rate is too slow w.r.t sysclk
+        self.submodules.tx_fifo = SyncFIFO(8, 64)
+
+        self.comb += [
+            # Loopback channel
+            self.channel.i.eq(self.tx.ser_out),
+            self.channel.t.eq(self.tx.t_out),
+            self.rx.ser_in_no_dly.eq(self.channel.o),
+
+            # Link decoders
+            decoders[0].raw_input.eq(self.rx.rxdata[:10]),
+            decoders[1].raw_input.eq(self.rx.rxdata[10:]),
+            # Default encoder linkage
+            self.tx.txdata.eq(Cat(self.encoder.output[0], self.encoder.output[1])),
+
+            # UART TX path
+            self.uart.tx_data.eq(self.tx_fifo.dout),
+            self.uart.tx_stb.eq(self.tx_fifo.readable),
+            self.tx_fifo.re.eq(self.uart.tx_ack),
+        ]
+
+        rx_fsm = FSM(reset_state="WAIT_GROUP_ALIGN")
+        self.submodules += rx_fsm
+
+        rx_fsm.act("WAIT_GROUP_ALIGN",
+            If(self.rx.align_done & rx_records.writable,
+                rx_records.din.eq(self.rx.rxdata),
+                rx_records.we.eq(1),
+            ),
+            If(self.rx.err,
+                NextState("WRITE_ERR_UPPER"),
+            ).Elif(self.rx.rxdata == 0b11111111111111111111,
+                decoders[0].start.eq(1),
+                decoders[1].start.eq(1),
+                NextState("RECORD_TRANSMISSION"),
+            ),
+        )
+
+        rx_fsm.act("WRITE_ERR_UPPER",
+            If(self.tx_fifo.writable,
+                self.tx_fifo.we.eq(1),
+                self.tx_fifo.din.eq(0b01010101),
+                NextState("WRITE_ERR_LOWER"),
+            ),
+        )
+
+        rx_fsm.act("WRITE_ERR_LOWER",
+            If(self.tx_fifo.writable,
+                self.tx_fifo.we.eq(1),
+                self.tx_fifo.din.eq(0b10101010),
+                NextState("TERMINATE"),
+            ),
+        )
+
+        rx_fsm.act("RECORD_TRANSMISSION",
+            If(rx_records.writable,
+                rx_records.din.eq(Cat(decoders[0].d, decoders[1].d)),
+                rx_records.we.eq(1),
+            ).Else(
+                NextState("DUMP_TRANSMISSION_UPPER"),
+            )
+        )
+
+        rx_fsm.act("DUMP_TRANSMISSION_UPPER",
+            If(rx_records.readable,
+                If(self.tx_fifo.writable,
+                    self.tx_fifo.we.eq(1),
+                    self.tx_fifo.din.eq(rx_records.dout[8:]),
+                    NextState("DUMP_TRANSMISSION_LOWER"),
+                )
+            ).Else(
+                NextState("TERMINATE"),
+            ),
+        )
+
+        rx_fsm.act("DUMP_TRANSMISSION_LOWER",
+            If(self.tx_fifo.writable,
+                self.tx_fifo.we.eq(1),
+                self.tx_fifo.din.eq(rx_records.dout[:8]),
+                rx_records.re.eq(1),
+                NextState("DUMP_TRANSMISSION_UPPER"),
+            )
+        )
+
+        rx_fsm.act("TERMINATE",
+            NextState("TERMINATE")
+        )
+
+        tx_fsm = FSM(reset_state="SEND_TRAINING")
+        self.submodules += tx_fsm
+
+        tx_fsm.act("SEND_TRAINING",
+            self.tx.txdata.eq(0b00100001000010000100),
+            If(self.rx.align_done,
+                NextState("SEND_ZERO"),
+            ),
+        )
+
+        send_zero_duration = Signal(2)
+
+        tx_fsm.act("SEND_ZERO",
+            self.tx.txdata.eq(0),
+            If(send_zero_duration == 0b11,
+                NextState("SEND_PULSE"),
+            ).Else(
+                NextValue(send_zero_duration, send_zero_duration + 1),
+            ),
+        )
+
+        tx_fsm.act("SEND_PULSE",
+            self.tx.txdata.eq(0b11111111111111111111),
+            self.encoder.start.eq(1),
+            NextState("WAIT_GROUP_ALIGN"),
+        )
+
+        tx_fsm.act("WAIT_GROUP_ALIGN",
+            If(self.rx.delay_done,
+                NextState("SEND_ARB_DATA1"),
+            ),
+        )
+
+        tx_fsm.act("SEND_ARB_DATA1",
+            self.encoder.d[0].eq(0xDE),
+            self.encoder.d[1].eq(0xAD),
+            self.encoder.k[0].eq(0),
+            self.encoder.k[1].eq(0),
+            NextState("SEND_ARB_DATA2"),
+        )
+
+        tx_fsm.act("SEND_ARB_DATA2",
+            self.encoder.d[0].eq(0xBE),
+            self.encoder.d[1].eq(0xEF),
+            self.encoder.k[0].eq(0),
+            self.encoder.k[1].eq(0),
+            NextState("SEND_ARB_DATA3"),
+        )
+
+        tx_fsm.act("SEND_ARB_DATA3",
+            self.encoder.d[0].eq(0xBA),
+            self.encoder.d[1].eq(0xD0),
+            self.encoder.k[0].eq(0),
+            self.encoder.k[1].eq(0),
+            NextState("SEND_ARB_DATA4"),
+        )
+
+        tx_fsm.act("SEND_ARB_DATA4",
+            self.encoder.d[0].eq(0xCA),
+            self.encoder.d[1].eq(0xFE),
+            self.encoder.k[0].eq(0),
+            self.encoder.k[1].eq(0),
+            NextState("TERMINATE"),
+        )
+
+        tx_fsm.act("TERMINATE",
+            self.encoder.d[0].eq(0xAD),
+            self.encoder.d[1].eq(0xDE),
+            self.encoder.k[0].eq(0),
+            self.encoder.k[1].eq(0),
+            NextState("TERMINATE"),
+        )
+
+
+if __name__ == "__main__":
+    import argparse
+
+    parser = argparse.ArgumentParser()
+    parser.add_argument("platform")
+    args = parser.parse_args()
+
+    platform_dict = {
+        "kasli": kasli.Platform(hw_rev="v2.0"),
+        "efc": efc.Platform(),
+    }
+
+    sysclk_name = {
+        "kasli": "clk125_gtp",
+        "efc": "gtp_clk",
+    }
+
+    platform = platform_dict[args.platform]
+    sysclk = platform.request(sysclk_name[args.platform])
+
+    # Generate pads for the I/O blocks
+    # Using EEM1 for both as both EFC and Kasli has EEM1
+    # EEM1 are not interconnected
+    eem = 0
+    generate_pads(platform, eem)
+    pads = [
+        platform.request("dio{}".format(eem), i) for i in range(4)
+    ]
+    # pad = platform.request("dio{}".format(eem), 0)
+
+    crg = TransceiverCRG(platform, sysclk)
+    top = MultiTransceiverChannel(pads, crg.sys_clk_freq)
+
+    # Wire up UART core to the pads
+    uart_pads = platform.request("serial")
+    top.comb += [
+        top.uart_rx.eq(uart_pads.rx),
+        uart_pads.tx.eq(top.uart_tx),
+    ]
+
+    top.submodules += crg
+    platform.build(top)