diff --git a/litedram/phy/kusddrphy.py b/litedram/phy/kusddrphy.py new file mode 100644 index 0000000..b5de910 --- /dev/null +++ b/litedram/phy/kusddrphy.py @@ -0,0 +1,271 @@ +# 1:4 frequency-ratio DDR3 PHYs for KintexUltrascale +# tCK=5ns CL=7 CWL=6 + +from litex.gen import * + +from litex.soc.interconnect.csr import * + +from litedram.common import PhySettings +from litedram.phy.dfi import * + + +class KUSDDRPHY(Module, AutoCSR): + def __init__(self, pads): + addressbits = len(pads.a) + bankbits = len(pads.ba) + databits = len(pads.dq) + nphases = 4 + + self._wlevel_en = CSRStorage() + self._wlevel_strobe = CSR() + self._dly_sel = CSRStorage(databits//8) + self._rdly_dq_rst = CSR() + self._rdly_dq_inc = CSR() + self._rdly_dq_bitslip = CSR() + self._wdly_dq_rst = CSR() + self._wdly_dq_inc = CSR() + self._wdly_dqs_rst = CSR() + self._wdly_dqs_inc = CSR() + + self.settings = PhySettings( + memtype="DDR3", + dfi_databits=2*databits, + nphases=nphases, + rdphase=0, + wrphase=2, + rdcmdphase=1, + wrcmdphase=0, + cl=7, + cwl=6, + read_latency=6, + write_latency=2 + ) + + self.dfi = Interface(addressbits, bankbits, 2*databits, nphases) + + # # # + + # Clock + sd_clk_se = Signal() + self.specials += [ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=sd_clk_se, + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=0, i_D2=1, i_D3=0, i_D4=1, + i_D5=0, i_D6=1, i_D7=0, i_D8=1 + ), + Instance("OBUFDS", + i_I=sd_clk_se, + o_O=pads.clk_p, + o_OB=pads.clk_n + ) + ] + + # Addresses and commands + for i in range(addressbits): + self.specials += \ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=pads.a[i], + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=self.dfi.phases[0].address[i], i_D2=self.dfi.phases[0].address[i], + i_D3=self.dfi.phases[1].address[i], i_D4=self.dfi.phases[1].address[i], + i_D5=self.dfi.phases[2].address[i], i_D6=self.dfi.phases[2].address[i], + i_D7=self.dfi.phases[3].address[i], i_D8=self.dfi.phases[3].address[i] + ) + for i in range(bankbits): + self.specials += \ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=pads.ba[i], + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=self.dfi.phases[0].bank[i], i_D2=self.dfi.phases[0].bank[i], + i_D3=self.dfi.phases[1].bank[i], i_D4=self.dfi.phases[1].bank[i], + i_D5=self.dfi.phases[2].bank[i], i_D6=self.dfi.phases[2].bank[i], + i_D7=self.dfi.phases[3].bank[i], i_D8=self.dfi.phases[3].bank[i] + ) + for name in "ras_n", "cas_n", "we_n", "cs_n", "cke", "odt", "reset_n": + self.specials += \ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=getattr(pads, name), + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=getattr(self.dfi.phases[0], name), i_D2=getattr(self.dfi.phases[0], name), + i_D3=getattr(self.dfi.phases[1], name), i_D4=getattr(self.dfi.phases[1], name), + i_D5=getattr(self.dfi.phases[2], name), i_D6=getattr(self.dfi.phases[2], name), + i_D7=getattr(self.dfi.phases[3], name), i_D8=getattr(self.dfi.phases[3], name) + ) + + # DQS and DM + oe_dqs = Signal() + dqs_serdes_pattern = Signal(8) + self.comb += \ + If(self._wlevel_en.storage, + If(self._wlevel_strobe.re, + dqs_serdes_pattern.eq(0b00000001) + ).Else( + dqs_serdes_pattern.eq(0b00000000) + ) + ).Else( + dqs_serdes_pattern.eq(0b01010101) + ) + for i in range(databits//8): + dm_o_nodelay = Signal() + self.specials += \ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=dm_o_nodelay, + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=self.dfi.phases[0].wrdata_mask[i], i_D2=self.dfi.phases[0].wrdata_mask[databits//8+i], + i_D3=self.dfi.phases[1].wrdata_mask[i], i_D4=self.dfi.phases[1].wrdata_mask[databits//8+i], + i_D5=self.dfi.phases[2].wrdata_mask[i], i_D6=self.dfi.phases[2].wrdata_mask[databits//8+i], + i_D7=self.dfi.phases[3].wrdata_mask[i], i_D8=self.dfi.phases[3].wrdata_mask[databits//8+i] + ) + self.specials += \ + Instance("ODELAYE3", + p_CASCADE="NONE", p_UPDATE_MODE="ASYNC", p_REFCLK_FREQUENCY=200.0, + p_IS_CLK_INVERTED=0, p_IS_RST_INVERTED=0, + p_DELAY_FORMAT="COUNT", p_DELAY_TYPE="VARIABLE", p_DELAY_VALUE=0, + + i_CLK=ClockSignal(), + i_INC=1, i_EN_VTC=1, + i_LOAD=self._dly_sel.storage[i] & self._wdly_dq_rst.re, + i_CE=self._dly_sel.storage[i] & self._wdly_dq_inc.re, + + o_ODATAIN=dm_o_nodelay, o_DATAOUT=pads.dm[i] + ) + + dqs_nodelay = Signal() + dqs_delayed = Signal() + dqs_t = Signal() + self.specials += [ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=dqs_nodelay, o_T_OUT=dqs_t, + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=dqs_serdes_pattern[0], i_D2=dqs_serdes_pattern[1], + i_D3=dqs_serdes_pattern[2], i_D4=dqs_serdes_pattern[3], + i_D5=dqs_serdes_pattern[4], i_D6=dqs_serdes_pattern[5], + i_D7=dqs_serdes_pattern[6], i_D8=dqs_serdes_pattern[7], + i_T=~oe_dqs, + ), + Instance("ODELAYE3", + p_CASCADE="NONE", p_UPDATE_MODE="ASYNC", p_REFCLK_FREQUENCY=200.0, + p_IS_CLK_INVERTED=0, p_IS_RST_INVERTED=0, + p_DELAY_FORMAT="COUNT", p_DELAY_TYPE="VARIABLE", p_DELAY_VALUE=6, # TODO: verify value + + i_CLK=ClockSignal(), + i_INC=1, i_EN_VTC=1, + i_LOAD=self._dly_sel.storage[i] & self._wdly_dqs_rst.re, + i_CE=self._dly_sel.storage[i] & self._wdly_dqs_inc.re, + + o_ODATAIN=dqs_nodelay, o_DATAOUT=dqs_delayed + ), + Instance("OBUFTDS", + i_I=dqs_delayed, i_T=dqs_t, + o_O=pads.dqs_p[i], o_OB=pads.dqs_n[i] + ) + ] + + # DQ + oe_dq = Signal() + for i in range(databits): + dq_o_nodelay = Signal() + dq_o_delayed = Signal() + dq_i_nodelay = Signal() + dq_i_delayed = Signal() + dq_t = Signal() + self.specials += [ + Instance("OSERDESE3", + p_DATA_WIDTH=8, p_INIT=0, + p_IS_CLK_INVERTED=0, p_IS_CLKDIV_INVERTED=0, p_IS_RST_INVERTED=0, + + o_OQ=dq_o_nodelay, o_T_OUT=dq_t, + i_RST=ResetSignal(), + i_CLK=ClockSignal("sys4x"), i_CLKDIV=ClockSignal(), + i_D1=self.dfi.phases[0].wrdata[i], i_D2=self.dfi.phases[0].wrdata[databits+i], + i_D3=self.dfi.phases[1].wrdata[i], i_D4=self.dfi.phases[1].wrdata[databits+i], + i_D5=self.dfi.phases[2].wrdata[i], i_D6=self.dfi.phases[2].wrdata[databits+i], + i_D7=self.dfi.phases[3].wrdata[i], i_D8=self.dfi.phases[3].wrdata[databits+i], + i_T=~oe_dq + ), + # TODO: ISERDESE3 implements less features than ISERDESE2 (bitslip is missing), + # need to implement bitslip as described in XAPP1208 and use new FIFO interface + #Instance("ISERDESE3", + # TODO + #), + Instance("ODELAYE3", + p_CASCADE="NONE", p_UPDATE_MODE="ASYNC", p_REFCLK_FREQUENCY=200.0, + p_IS_CLK_INVERTED=0, p_IS_RST_INVERTED=0, + p_DELAY_FORMAT="COUNT", p_DELAY_TYPE="VARIABLE", p_DELAY_VALUE=6, # TODO: verify value + + i_CLK=ClockSignal(), + i_INC=1, i_EN_VTC=1, + i_LOAD=self._dly_sel.storage[i//8] & self._wdly_dq_rst.re, + i_CE=self._dly_sel.storage[i//8] & self._wdly_dq_inc.re, + + o_ODATAIN=dq_o_nodelay, o_DATAOUT=dq_o_delayed + ), + Instance("IDELAYE3", + p_CASCADE="NONE", p_UPDATE_MODE="ASYNC",p_REFCLK_FREQUENCY=200.0, + p_IS_CLK_INVERTED=0, p_IS_RST_INVERTED=0, + p_DELAY_FORMAT="COUNT", p_DELAY_SRC="IDATAIN", + p_DELAY_TYPE="VARIABLE", p_DELAY_VALUE=6, # TODO: verify value + + i_CLK=ClockSignal(), + i_INC=1, i_EN_VTC=1, + i_LOAD=self._dly_sel.storage[i//8] & self._rdly_dq_rst.re, + i_CE=self._dly_sel.storage[i//8] & self._rdly_dq_inc.re, + + i_IDATAIN=dq_i_nodelay, o_DATAOUT=dq_i_delayed + ), + Instance("IOBUF", + i_I=dq_o_delayed, o_O=dq_i_nodelay, i_T=dq_t, + io_IO=pads.dq[i] + ) + ] + + # Flow control + # + # total read latency = 6: + # 2 cycles through OSERDESE3 TODO: verify latency + # 2 cycles CAS + # 2 cycles through ISERDESE3 TODO: verify latency + rddata_en = self.dfi.phases[self.settings.rdphase].rddata_en + for i in range(5): + n_rddata_en = Signal() + self.sync += n_rddata_en.eq(rddata_en) + rddata_en = n_rddata_en + self.sync += [phase.rddata_valid.eq(rddata_en | self._wlevel_en.storage) + for phase in self.dfi.phases] + + oe = Signal() + last_wrdata_en = Signal(4) + wrphase = self.dfi.phases[self.settings.wrphase] + self.sync += last_wrdata_en.eq(Cat(wrphase.wrdata_en, last_wrdata_en[:3])) + self.comb += oe.eq(last_wrdata_en[1] | last_wrdata_en[2] | last_wrdata_en[3]) + self.sync += \ + If(self._wlevel_en.storage, + oe_dqs.eq(1), oe_dq.eq(0) + ).Else( + oe_dqs.eq(oe), oe_dq.eq(oe) + )