📄 data_read_controller.vhd
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fifo_00_wr_addr_d <= "0000";
fifo_01_wr_addr_d <= "0000";
else
fifo_00_wr_addr_d <= fifo_00_wr_addr;
fifo_01_wr_addr_d <= fifo_01_wr_addr;
end if;
end if;
end process;
-- FIFO WRITE POINTER DOUBLE DELAYED SIGNALS
process (clk90)
begin
if (rising_edge(clk90)) then
if (reset90_r = '1') then
fifo_00_wr_addr_2d <= "0000";
fifo_01_wr_addr_2d <= "0000";
else
fifo_00_wr_addr_2d <= fifo_00_wr_addr_d;
fifo_01_wr_addr_2d <= fifo_01_wr_addr_d;
end if;
end if;
end process;
-- user data valid output signal from data path.
fifo_00_empty <= '1' when (fifo0_rd_addr(3 downto 0) = fifo_00_wr_addr_2d(3 downto 0)) else
'0';
fifo_01_empty <= '1' when (fifo1_rd_addr(3 downto 0) = fifo_01_wr_addr_2d(3 downto 0)) else
'0';
read_valid_data_0_1 <= ( (not fifo_00_empty) and (not fifo_01_empty) );
read_valid_data_1_val <= read_valid_data_0_1;
process(clk90)
begin
if clk90'event and clk90 = '1' then
if reset90_r = '1' then
u_data_val <= '0';
else
u_data_val <= read_valid_data_0_1;
end if;
end if;
end process;
--- Assignments done by MURTHY
-- here vector component is assigned to a scalar signal
-- it was done because the delay_dqs signals were used
dqs0_delayed_col0 <= dqs_delayed_col0(0);
dqs1_delayed_col0 <= dqs_delayed_col0(1);
dqs2_delayed_col0 <= dqs_delayed_col0(2);
dqs3_delayed_col0 <= dqs_delayed_col0(3);
dqs4_delayed_col0 <= dqs_delayed_col0(4);
dqs5_delayed_col0 <= dqs_delayed_col0(5);
dqs6_delayed_col0 <= dqs_delayed_col0(6);
dqs7_delayed_col0 <= dqs_delayed_col0(7);
dqs8_delayed_col0 <= dqs_delayed_col0(8);
dqs9_delayed_col0 <= dqs_delayed_col0(9);
dqs10_delayed_col0 <= dqs_delayed_col0(10);
dqs11_delayed_col0 <= dqs_delayed_col0(11);
dqs12_delayed_col0 <= dqs_delayed_col0(12);
dqs13_delayed_col0 <= dqs_delayed_col0(13);
dqs14_delayed_col0 <= dqs_delayed_col0(14);
dqs15_delayed_col0 <= dqs_delayed_col0(15);
dqs16_delayed_col0 <= dqs_delayed_col0(16);
dqs17_delayed_col0 <= dqs_delayed_col0(17);
---- Added on JAN28 ----
dqs0_delayed_col1 <= dqs_delayed_col1(0);
dqs1_delayed_col1 <= dqs_delayed_col1(1);
dqs2_delayed_col1 <= dqs_delayed_col1(2);
dqs3_delayed_col1 <= dqs_delayed_col1(3);
dqs4_delayed_col1 <= dqs_delayed_col1(4);
dqs5_delayed_col1 <= dqs_delayed_col1(5);
dqs6_delayed_col1 <= dqs_delayed_col1(6);
dqs7_delayed_col1 <= dqs_delayed_col1(7);
dqs8_delayed_col1 <= dqs_delayed_col1(8);
dqs9_delayed_col1 <= dqs_delayed_col1(9);
dqs10_delayed_col1 <= dqs_delayed_col1(10);
dqs11_delayed_col1 <= dqs_delayed_col1(11);
dqs12_delayed_col1 <= dqs_delayed_col1(12);
dqs13_delayed_col1 <= dqs_delayed_col1(13);
dqs14_delayed_col1 <= dqs_delayed_col1(14);
dqs15_delayed_col1 <= dqs_delayed_col1(15);
dqs16_delayed_col1 <= dqs_delayed_col1(16);
dqs17_delayed_col1 <= dqs_delayed_col1(17);
-- dqsx_delayed_col0 negated signals
dqs0_delayed_col0_n <= not dqs0_delayed_col0;
dqs1_delayed_col0_n <= not dqs1_delayed_col0;
dqs2_delayed_col0_n <= not dqs2_delayed_col0;
dqs3_delayed_col0_n <= not dqs3_delayed_col0;
dqs4_delayed_col0_n <= not dqs4_delayed_col0;
dqs5_delayed_col0_n <= not dqs5_delayed_col0;
dqs6_delayed_col0_n <= not dqs6_delayed_col0;
dqs7_delayed_col0_n <= not dqs7_delayed_col0;
dqs8_delayed_col0_n <= not dqs8_delayed_col0;
dqs9_delayed_col0_n <= not dqs9_delayed_col0;
dqs10_delayed_col0_n <= not dqs10_delayed_col0;
dqs11_delayed_col0_n <= not dqs11_delayed_col0;
dqs12_delayed_col0_n <= not dqs12_delayed_col0;
dqs13_delayed_col0_n <= not dqs13_delayed_col0;
dqs14_delayed_col0_n <= not dqs14_delayed_col0;
dqs15_delayed_col0_n <= not dqs15_delayed_col0;
dqs16_delayed_col0_n <= not dqs16_delayed_col0;
dqs17_delayed_col0_n <= not dqs17_delayed_col0;
-- dqsx_delayed_col1 negated signals
dqs0_delayed_col1_n <= not dqs0_delayed_col1;
dqs1_delayed_col1_n <= not dqs1_delayed_col1;
dqs2_delayed_col1_n <= not dqs2_delayed_col1;
dqs3_delayed_col1_n <= not dqs3_delayed_col1;
dqs4_delayed_col1_n <= not dqs4_delayed_col1;
dqs5_delayed_col1_n <= not dqs5_delayed_col1;
dqs6_delayed_col1_n <= not dqs6_delayed_col1;
dqs7_delayed_col1_n <= not dqs7_delayed_col1;
dqs8_delayed_col1_n <= not dqs8_delayed_col1;
dqs9_delayed_col1_n <= not dqs9_delayed_col1;
dqs10_delayed_col1_n <= not dqs10_delayed_col1;
dqs11_delayed_col1_n <= not dqs11_delayed_col1;
dqs12_delayed_col1_n <= not dqs12_delayed_col1;
dqs13_delayed_col1_n <= not dqs13_delayed_col1;
dqs14_delayed_col1_n <= not dqs14_delayed_col1;
dqs15_delayed_col1_n <= not dqs15_delayed_col1;
dqs16_delayed_col1_n <= not dqs16_delayed_col1;
dqs17_delayed_col1_n <= not dqs17_delayed_col1;
rst_dqs_div1_delayed : dqs_delay port map (
clk_in => rst_dqs_div_in1,
sel_in => delay_sel,
clk_out => rst_dqs_div1
);
rst_dqs_div2_delayed : dqs_delay port map (
clk_in => rst_dqs_div_in2,
sel_in => delay_sel,
clk_out => rst_dqs_div2
);
--------------------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------
-- fifo_x0_rd_addr and fifo_x1_rd_addr counters ( gray counters )
fifo0_rd_addr_inst : rd_gray_cntr port map (
clk => clk90,
reset => reset90_r,
cnt_en => read_valid_data_0_1,
rgc_gcnt => fifo0_rd_addr
);
fifo1_rd_addr_inst : rd_gray_cntr port map (
clk => clk90,
reset => reset90_r,
cnt_en => read_valid_data_0_1,
rgc_gcnt => fifo1_rd_addr
);
--**************************************************************************************************
-- DQS Internal Delay Circuit implemented in LUTs
--**************************************************************************************************
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay0_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in0,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(0)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay0_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in0,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(0)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay1_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in1,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(1)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay1_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in1,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(1)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay2_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in2,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(2)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay2_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in2,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(2)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay3_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in3,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(3)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay3_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in3,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(3)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay4_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in4,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(4)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay4_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in4,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(4)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay5_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in5,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(5)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay5_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in5,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(5)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay6_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in6,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(6)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay6_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in6,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(6)
);
-- Internal Clock Delay circuit placed in the firs333t column (for falling edge data) adjacent to IOBs
dqs_delay7_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in7,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(7)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay7_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in7,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(7)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay8_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in8,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(8)
);
-- Internal Clock Delay circuit placed in the second column (for rising edge data) adjacent to IOBs
dqs_delay8_col1 : dqs_delay port map (
clk_in => dqs_int_delay_in8,
sel_in => delay_sel,
clk_out => dqs_delayed_col1(8)
);
-- Internal Clock Delay circuit placed in the first column (for falling edge data) adjacent to IOBs
dqs_delay9_col0 : dqs_delay port map (
clk_in => dqs_int_delay_in9,
sel_in => delay_sel,
clk_out => dqs_delayed_col0(9)
);
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