phy_cdc: Fix synchronization behavior
For low ratios of the two clock domains, the slow clock domain would receive incorrect data as the fast (PHY) clock domain's data output would have already updated with the first bit of the next byte by the time the slow (system) clock domain read it. This fix registers the data in the source clock domain as opposed to the destination clock domain. This is allowed because the valid strobe is synchronized in a way to guarantee that data has been valid for a while when it becomes asserted. Additionally, `phy_out.rx_data` and `phy_out.rx_data_valid` are no longer registered in the destination (system) clock domain as this now introduces unnecessary latency. Also, this was broken the way it was anyway as `rx_active` and `rx_error` would've also had to be registered to keep all timings in sync.
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@ -44,7 +44,7 @@ architecture rtl of trashernet_phy_cdc is
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signal phy_phy_in : phy_in_t;
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-- Helper signals
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signal rx_data_valid_i : std_logic;
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signal rx_data_i : byte;
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begin
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assert F_CLK_PHY > 2 * F_CLK report "F_CLK_PHY must be at least 2x F_CLK" severity failure;
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@ -52,6 +52,8 @@ begin
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-- -------------------------------------------------------------------------
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-- Drives: PHY clock domain
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-- -------------------------------------------------------------------------
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-- Reset synchronizer for PHY
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rstsync : process(phy_clk, rst) is
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begin
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if rst then
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@ -61,6 +63,7 @@ begin
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end if;
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end process rstsync;
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-- Operate Trashernet in PHY clock domain
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trashernet_phy_inst : entity work.trashernet_phy
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generic map(
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F_CLK => F_CLK_PHY
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@ -75,6 +78,22 @@ begin
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tx_n => tx_n
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);
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-- Latch data in PHY clock domain when valid is strobed
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-- If the other clock domain is slower than the time it takes for the strobe to synchronize,
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-- `phy_phy_out.rx_data` will already have shifted in the next bit and no longer be valid.
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-- Therefore, we need to latch it here.
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rxdff : process(phy_clk, rst) is
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begin
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if rst then
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rx_data_i <= (others => '0');
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elsif rising_edge(phy_clk) then
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if phy_phy_out.rx_data_valid then
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rx_data_i <= phy_phy_out.rx_data;
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end if;
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end if;
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end process rxdff;
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synchronizer_txen_inst : entity work.synchronizer
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generic map(
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SIZE => 5
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@ -98,20 +117,10 @@ begin
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a_in => phy_phy_out.rx_data_valid,
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b_clk => clk,
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b_rst => rst,
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b_out => rx_data_valid_i
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b_out => phy_out.rx_data_valid
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);
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rxdvff : process(clk, rst) is
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begin
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if rst then
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phy_out.rx_data_valid <= '0';
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phy_out.rx_data <= (others => '0'); -- Needed for yosys to compile
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elsif rising_edge(clk) then
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phy_out.rx_data_valid <= rx_data_valid_i;
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phy_out.rx_data <= phy_phy_out.rx_data; -- Data should be stable after the time it takes the _valid signal to go through the synchronizer
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end if;
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end process rxdvff;
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phy_out.rx_data <= rx_data_i; -- No need to synchronize in new clock domain as latched data has been stable for a while thanks to the delay in the _valid synchronizer
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cdc_strobe_rxer_inst : entity work.cdc_strobe
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port map(
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