from migen.fhdl.std import * from migen.genlib.resetsync import AsyncResetSynchronizer from migen.genlib.fsm import FSM, NextState class K7SATAPHYReconfig(Module): def __init__(self, channel_drp, mmcm_drp): self.speed = Signal(3) ### speed_r = Signal(3) speed_change = Signal() self.sync += speed_r.eq(speed) self.comb += speed_change.eq(speed != speed_r) drp_sel = Signal() drp = DRPBus() self.comb += \ If(sel, Record.connect(drp, mmcm_drp), ).Else( Record.connect(drp, channel_drp) ) fsm = FSM(reset_state="IDLE") self.submodules += fsm # Todo fsm.act("IDLE", sel.eq(0), ) class K7SATAPHYClocking(Module): def __init__(self, pads, gtx): self.reset = Signal() self.transceiver_reset = Signal() self.cd_sata_tx = ClockDomain() self.cd_sata_rx = ClockDomain() # TX clocking refclk = Signal() self.specials += Instance("IBUFDS_GTE2", i_I=pads.refclk_p, i_IB=pads.refclk_n, o_O=refclk ) mmcm_reset = Signal() mmcm_locked = Signal() mmcm_drp = DRP() mmcm_fb = Signal() mmcm_clk_i = Signal() mmcm_clk_o = Signal() self.specials += [ Instance("BUFG", i_I=refclk, 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=mmcm_drp.clk, i_DEN=mmcm_drp.den, o_DRDY=mmcm_drp.rdy, i_DWE=mmcm_drp.we, i_DADDR=mmcm_drp.addr, i_DI=mmcm_drp.di, i_DO=mmcm_drp.do, # VCO p_REF_JITTER1=0.01, p_CLKIN1_PERIOD=5.0, p_CLKFBOUT_MULT_F=8.000, CLKFBOUT_PHASE=0.000, p_DIVCLK_DIVIDE=2, i_CLKIN1=mmcm_clk_i, i_CLKFBIN=mmcm_fb, o_CLKFBOUT=mmcm_fb, # CLK0 p_CLKOUT0_DIVIDE_F=4.000, p_CLKOUT0_PHASE=0.000, o_CLKOUT0=mmcm_clk_o, ), Instance("BUFG", i_I=mmcm_clk_o, o_O=self.cd_sata_tx.clk), ] # RX clocking 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) ] # TX buffer bypass logic self.comb += [ self.txphdlyreset.eq(0), self.txphalignen.eq(0), self.txdlyen.eq(0), self.txphalign.eq(0), self.txphinit.eq(0) ] # once channel TX is reseted, reset TX buffer txbuffer_reseted = Signal() self.sync += \ If(gtx.txresetdone, If(~txbuffer_reseted, gtx.txdlyreset.eq(1), txbuffer_reseted.eq(1) ).Else( gtx.txdlyreset.eq(0) ) ) # RX buffer bypass logic self.comb += [ gtx.rxphdlyreset.eq(0), gtx.rxdlyen.eq(0), gtx.rxphalign.eq(0), gtx.rxphalignen.eq(0), ] # wait till CDR is locked cdr_cnt = Signal(14, reset=0b10011100010000) cdr_locked = Signal() self.sync += \ If(cdr_cnt != 0, cdr_cnt.eq(cdr_cnt - 1) ).Else( cdr_locked.eq(1) ) # once CDR is locked and channel RX reseted, reset RX buffer rxbuffer_reseted = Signal() self.sync += \ If(cdr_locked & gtx.rxresetdone, If(~rxbuffer_reseted, gtx.rxdlyreset.eq(1), rxbuffer_reseted.eq(1) ).Else( gtx.rxdlyreset.eq(0) ) ) # Reset self.comb += [ # GTXE2 gtx.rxuserrdy.eq(gtx.cplllock), gtx.txuserrdy.eq(gtx.cplllock), # TX gtx.gttxreset.eq(self.reset | self.transceiver_reset | ~gtx.cplllock), # RX gtx.gtrxreset.eq(self.reset | self.transceiver_reset | ~gtx.cplllock), # PLL gtx.pllreset.eq(self.reset) ] # SATA TX/RX clock domains self.specials += [ AsyncResetSynchronizer(self.cd_sata_tx, ~mmcm_locked | ~gtx.txresetdone), AsyncResetSynchronizer(self.cd_sata_rx, ~gtx.cplllock | ~gtx.rxphaligndone), ] # Dynamic Reconfiguration self.submodules.reconfig = K7SATAPHYReconfig(mmcm_drp, gtx.drp)