diff --git a/litedram/phy/lpddr5/simphy.py b/litedram/phy/lpddr5/simphy.py index 3e378df..0cf8589 100644 --- a/litedram/phy/lpddr5/simphy.py +++ b/litedram/phy/lpddr5/simphy.py @@ -57,7 +57,7 @@ class LPDDR5SimPHY(SimSerDesMixin, LPDDR5PHY): delay = lambda sig, cycles: delayed(self, sig, cycles=cycles) ddr_ck = dict(clkdiv="sys", clk="sys2x") - ddr_ck_180 = dict(clkdiv="sys", clk="sys2x_180") + ddr_ca = dict(clkdiv="sys", clk="sys4x") ddr_wck = dict(clkdiv="sys", clk={2: "sys4x", 4: "sys8x"}[wck_ck_ratio]) ddr_wck_180 = dict(clkdiv="sys", clk={2: "sys4x_180", 4: "sys8x_180"}[wck_ck_ratio]) @@ -69,22 +69,31 @@ class LPDDR5SimPHY(SimSerDesMixin, LPDDR5PHY): if aligned_reset_zero: ddr_ck["reset_cnt"] = 0 + ddr_ca["reset_cnt"] = 0 ddr_wck["reset_cnt"] = 0 self.comb += self.pads.reset_n.eq(delay(self.out.reset_n, cycles=Serializer.LATENCY)) # CK signals self.ser(i=self.out.ck, o=self.pads.ck, name='ck', **ddr_ck) - # CS (SDR) is delayed by 180 deg to be center aligned with CK (+1CK to match serializer latencies) - # 1.5 sys = 1 sys + 1 sys2x - self.sync.sys2x += self.pads.cs.eq(delay(self.out.cs, cycles=Serializer.LATENCY)) + + # CS (SDR) is delayed by 180 deg to be center aligned with CK + # Use ConstBitSlip to shift it, then serialize that 2-bit signal as DDR (like with CK) + cs_2bit = Signal(2) + cs_2bit_d = Signal(2) + self.comb += cs_2bit.eq(Replicate(self.out.cs, 2)) + self.submodules += ConstBitSlip(dw=2, slp=1, cycles=1, register=False, i=cs_2bit, o=cs_2bit_d) + self.ser(i=cs_2bit_d, o=self.pads.cs, name='cs', **ddr_ck) + # To center align CA (DDR) with CK it has to be delayed by 270 deg CK (+90 deg relative to CS) for i in range(7): - # Bitslip is used to get the additional +180 deg (slipping 2-bit CA signal by 1 bit with register=False) - ca_delayed = Signal(2) - self.submodules += ConstBitSlip(dw=2, slp=1, cycles=1, register=False, i=self.out.ca[i], o=ca_delayed) - # Getting the +90 deg by serializing on ddr_ck_180 (which shifts by 90 deg of CK) - self.ser(**cdc(ca_delayed, ddr_ck_180), o=self.pads.ca[i], name=f'ca{i}', **ddr_ck_180) + # To achieve 270 deg shift we use ConstBitSlip with slp=3 and dw=4. + # For this to work we first widen CA to 4 bits and use sys4x when serializing. + ca_4bit = Signal(4) + ca_4bit_d = Signal(4) + self.comb += ca_4bit.eq(Cat([Replicate(bit, 2) for bit in self.out.ca[i]])) + self.submodules += ConstBitSlip(dw=4, slp=3, cycles=1, register=False, i=ca_4bit, o=ca_4bit_d) + self.ser(i=ca_4bit_d, o=self.pads.ca[i], name=f'ca{i}', **ddr_ca) # WCK for i in range(self.databits//8): diff --git a/litedram/phy/lpddr5/simsoc.py b/litedram/phy/lpddr5/simsoc.py index 277feb7..0d03af0 100644 --- a/litedram/phy/lpddr5/simsoc.py +++ b/litedram/phy/lpddr5/simsoc.py @@ -55,6 +55,7 @@ def get_clocks(sys_clk_freq, wck_ck_ratio, dfi_converter_ratio): "phy": dfi_converter_ratio, "ck": dfi_converter_ratio, "ck_ddr": 2*dfi_converter_ratio, + "ca_ddr": 4*dfi_converter_ratio, "wck_ddr": 2*wck_ck_ratio*dfi_converter_ratio, } clocks = {"sys": dict(freq_hz=sys_clk_freq)}