litex/misoclib/mem/litesata/phy/k7/crg.py

156 lines
4.2 KiB
Python

from misoclib.mem.litesata.common import *
class K7LiteSATAPHYCRG(Module):
def __init__(self, pads, gtx, revision, clk_freq):
self.reset = Signal()
self.ready = Signal()
self.clock_domains.cd_sata_tx = ClockDomain()
self.clock_domains.cd_sata_rx = ClockDomain()
# CPLL
# (sata_gen3) 150MHz / VCO @ 3GHz / Line rate @ 6Gbps
# (sata_gen2 & sata_gen1) VCO still @ 3 GHz, Line rate is decreased with output dividers.
refclk = Signal()
self.specials += Instance("IBUFDS_GTE2",
i_CEB=0,
i_I=pads.refclk_p,
i_IB=pads.refclk_n,
o_O=refclk
)
self.comb += gtx.gtrefclk0.eq(refclk)
# TX clocking
# (sata_gen3) 150MHz from CPLL TXOUTCLK, sata_tx clk @ 300MHz (16-bits)
# (sata_gen2) 150MHz from CPLL TXOUTCLK, sata_tx clk @ 150MHz (16-bits)
# (sata_gen1) 150MHz from CPLL TXOUTCLK, sata_tx clk @ 75MHz (16-bits)
mmcm_reset = Signal()
mmcm_locked = Signal()
mmcm_fb = Signal()
mmcm_clk_i = Signal()
mmcm_clk0_o = Signal()
mmcm_div_config = {
"sata_gen1" : 16.0,
"sata_gen2" : 8.0,
"sata_gen3" : 4.0
}
mmcm_div = mmcm_div_config[revision]
self.specials += [
Instance("BUFG", i_I=gtx.txoutclk, o_O=mmcm_clk_i),
Instance("MMCME2_ADV",
p_BANDWIDTH="HIGH", p_COMPENSATION="ZHOLD", i_RST=mmcm_reset, o_LOCKED=mmcm_locked,
# DRP
i_DCLK=0, i_DEN=0, i_DWE=0, #o_DRDY=,
i_DADDR=0, i_DI=0, #o_DO=,
# VCO
p_REF_JITTER1=0.01, p_CLKIN1_PERIOD=6.666,
p_CLKFBOUT_MULT_F=8.000, p_CLKFBOUT_PHASE=0.000, p_DIVCLK_DIVIDE=1,
i_CLKIN1=mmcm_clk_i, i_CLKFBIN=mmcm_fb, o_CLKFBOUT=mmcm_fb,
# CLK0
p_CLKOUT0_DIVIDE_F=mmcm_div, p_CLKOUT0_PHASE=0.000, o_CLKOUT0=mmcm_clk0_o,
),
Instance("BUFG", i_I=mmcm_clk0_o, o_O=self.cd_sata_tx.clk),
]
self.comb += [
gtx.txusrclk.eq(self.cd_sata_tx.clk),
gtx.txusrclk2.eq(self.cd_sata_tx.clk)
]
# RX clocking
# (sata_gen3) sata_rx recovered clk @ 300MHz from GTX RXOUTCLK
# (sata_gen2) sata_rx recovered clk @ 150MHz from GTX RXOUTCLK
# (sata_gen1) sata_rx recovered clk @ 150MHz from GTX RXOUTCLK
self.specials += [
Instance("BUFG", i_I=gtx.rxoutclk, o_O=self.cd_sata_rx.clk),
]
self.comb += [
gtx.rxusrclk.eq(self.cd_sata_rx.clk),
gtx.rxusrclk2.eq(self.cd_sata_rx.clk)
]
# Configuration Reset
# After configuration, GTX's resets have to stay low for at least 500ns
# See AR43482
reset_en = Signal()
clk_period_ns = 1000000000/clk_freq
reset_en_cnt_max = math.ceil(500/clk_period_ns)
reset_en_cnt = Signal(max=reset_en_cnt_max, reset=reset_en_cnt_max-1)
self.sync += \
If(self.reset,
reset_en_cnt.eq(reset_en_cnt.reset)
).Elif(~reset_en,
reset_en_cnt.eq(reset_en_cnt-1)
)
self.comb += reset_en.eq(reset_en_cnt == 0)
# TX Reset FSM
tx_reset_fsm = InsertReset(FSM(reset_state="IDLE"))
self.submodules += tx_reset_fsm
self.comb += tx_reset_fsm.reset.eq(self.reset)
tx_reset_fsm.act("IDLE",
If(reset_en,
NextState("RESET_GTX"),
)
)
tx_reset_fsm.act("RESET_GTX",
gtx.gttxreset.eq(1),
If(gtx.cplllock & mmcm_locked,
NextState("RELEASE_GTX")
)
)
tx_reset_fsm.act("RELEASE_GTX",
gtx.txuserrdy.eq(1),
If(gtx.txresetdone,
NextState("READY")
)
)
tx_reset_fsm.act("READY",
gtx.txuserrdy.eq(1)
)
# RX Reset FSM
rx_reset_fsm = InsertReset(FSM(reset_state="IDLE"))
self.submodules += rx_reset_fsm
self.comb += rx_reset_fsm.reset.eq(self.reset)
rx_reset_fsm.act("IDLE",
If(reset_en,
NextState("RESET_GTX"),
)
)
rx_reset_fsm.act("RESET_GTX",
gtx.gtrxreset.eq(1),
If(gtx.cplllock & mmcm_locked,
NextState("RELEASE_GTX")
)
)
rx_reset_fsm.act("RELEASE_GTX",
gtx.rxuserrdy.eq(1),
If(gtx.rxresetdone,
NextState("READY")
)
)
rx_reset_fsm.act("READY",
gtx.rxuserrdy.eq(1)
)
# Ready
self.tx_ready = tx_reset_fsm.ongoing("READY")
self.rx_ready = rx_reset_fsm.ongoing("READY")
self.comb += self.ready.eq(self.tx_ready & self.rx_ready)
# Reset PLL
self.comb += gtx.cpllreset.eq(ResetSignal() | self.reset | ~reset_en)
# Reset MMCM
self.comb += mmcm_reset.eq(ResetSignal() | self.reset | ~gtx.cplllock)
# Reset for SATA TX/RX clock domains
self.specials += [
AsyncResetSynchronizer(self.cd_sata_tx, ~self.tx_ready),
AsyncResetSynchronizer(self.cd_sata_rx, ~self.rx_ready),
]