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-- -- timing.vhd -- -- Timing Signal Edge detection and multiplexing -- -- -- Version 1.0 4/1/06 A.McCormick (Alpha Data) library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_signed.all; use ieee.std_logic_arith.all; use ieee.std_logic_misc.all; entity timing is port ( clk : in std_logic; rst : in std_logic; cycle_start_in : in std_logic; cycle_stop_in : in std_logic; cal_start_in : in std_logic; cal_stop_in : in std_logic; injection_in : in std_logic; hchange_in : in std_logic; fref_in : in std_logic; fref_test : in std_logic; ten_mhz_clk : in std_logic; test_timing_in : in std_logic_vector(31 downto 0); test_timing_wstb : in std_logic; cycle_start_out : out std_logic; cycle_start_out_ten_mhz : out std_logic; cycle_stop_out : out std_logic; cal_start_out : out std_logic; cal_stop_out : out std_logic; injection_out : out std_logic; hchange_out : out std_logic; fref_out : out std_logic); end timing; architecture rtl of timing is constant debounce_width : integer := 8; signal cycle_start_reg,cycle_stop_reg,cal_start_reg,cal_stop_reg,injection_reg,hchange_reg,fref_reg : std_logic_vector(debounce_width-1 downto 0); signal cycle_start_regt,cycle_stop_regt,cal_start_regt,cal_stop_regt,injection_regt,hchange_regt : std_logic_vector(1 downto 0); signal cycle_start_reg_tenmhz : std_logic_vector(debounce_width-1 downto 0); signal cycle_start_regt_tenmhz : std_logic_vector(1 downto 0); signal fref_sim : std_Logic; signal fref_count : std_Logic_vector(15 downto 0); signal test_timing_in_reg : std_logic_vector(31 downto 0); begin -- rtl edge_detect: process (clk, rst) begin -- process edge_detect if rst = '1' then -- Edge Detect Timing Bus cycle_start_reg <= (others => '0'); cycle_stop_reg <= (others => '0'); cal_start_reg <= (others => '0'); cal_stop_reg <= (others => '0'); injection_reg <= (others => '0'); hchange_reg <= (others => '0'); fref_reg <= (others => '0'); -- Edge Detect Test Software Writes cycle_start_regt <= (others => '0'); cycle_stop_regt <= (others => '0'); cal_start_regt <= (others => '0'); cal_stop_regt <= (others => '0'); injection_regt <= (others => '0'); hchange_regt <= (others => '0'); fref_count <= (others => '0'); fref_sim <= '0'; test_timing_in_reg <= (others => '0'); elsif clk'event and clk = '1' then -- rising clock edge if test_timing_wstb = '1' then test_timing_in_reg <= test_timing_in; end if; -- Register Timing Signals cycle_start_reg <= cycle_start_reg(debounce_width-2 downto 0) & cycle_start_in; cycle_stop_reg <= cycle_stop_reg(debounce_width-2 downto 0) & cycle_stop_in; cal_start_reg <= cal_start_reg(debounce_width-2 downto 0) & cal_start_in; cal_stop_reg <= cal_stop_reg(debounce_width-2 downto 0) & cal_stop_in; injection_reg <= injection_reg(debounce_width-2 downto 0) & injection_in; hchange_reg <= hchange_reg(debounce_width-2 downto 0) & hchange_in; fref_reg <= fref_reg(debounce_width-2 downto 0) & fref_in; -- Register Software test timing signals cycle_start_regt <= cycle_start_regt(0) & test_timing_in_reg(1); cycle_stop_regt <= cycle_stop_regt(0) & test_timing_in_reg(2); cal_start_regt <= cal_start_regt(0) & test_timing_in_reg(3); cal_stop_regt <= cal_stop_regt(0) & test_timing_in_reg(4); injection_regt <= injection_regt(0) & test_timing_in_reg(5); hchange_regt <= hchange_regt(0) & test_timing_in_reg(6); -- Positive Edge detect timing signals -- Mask with bits 8 to 14 of test register cycle_start_out <= (cycle_start_reg(0) and not OR_reduce(cycle_start_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(9)) or (cycle_start_regt(0) and not cycle_start_regt(1) and test_timing_in_reg(9)); cycle_stop_out <= (cycle_stop_reg(0) and not OR_reduce(cycle_stop_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(10)) or (cycle_stop_regt(0) and not cycle_stop_regt(1) and test_timing_in_reg(10)); cal_start_out <= (cal_start_reg(0) and not OR_reduce(cal_start_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(11)) or (cal_start_regt(0) and not cal_start_regt(1) and test_timing_in_reg(11)); cal_stop_out <= (cal_stop_reg(0) and not OR_reduce(cal_stop_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(12)) or (cal_stop_regt(0) and not cal_stop_regt(1) and test_timing_in_reg(12)); injection_out <= (injection_reg(0) and not OR_reduce(injection_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(13)) or (injection_regt(0) and not injection_regt(1) and test_timing_in_reg(13)); hchange_out <= (hchange_reg(0) and not OR_reduce(hchange_reg(debounce_width-1 downto 1)) and not test_timing_in_reg(14)) or (hchange_regt(0) and not hchange_regt(1) and test_timing_in_reg(14)); fref_out <= (fref_reg(0) and not test_timing_in_reg(15)) or (test_timing_in_reg(15) and fref_test); if fref_count = test_timing_in_reg(31 downto 16) then fref_count <= (others => '0'); fref_sim <= not fref_sim; else fref_count <= fref_count+1; end if; --fref_sim <= not OR_reduce(fref_count(15 downto 3)); end if; end process edge_detect; edge_detect_tenmhz: process (ten_mhz_clk, rst) begin -- process edge_detect_tenmhz if rst = '1' then cycle_start_reg_tenmhz <= (others => '0'); cycle_start_regt_tenmhz <= (others => '0'); elsif ten_mhz_clk'event and ten_mhz_clk = '1' then -- rising clock edge cycle_start_reg_tenmhz <= cycle_start_reg_tenmhz(debounce_width-2 downto 0) & cycle_start_in; cycle_start_regt_tenmhz <= cycle_start_regt_tenmhz(0) & test_timing_in_reg(1); cycle_start_out_ten_mhz <= (cycle_start_reg_tenmhz(0) and not OR_reduce(cycle_start_reg_tenmhz(debounce_width-1 downto 1)) and not test_timing_in_reg(9)) or (cycle_start_regt_tenmhz(0) and not cycle_start_regt_tenmhz(1) and test_timing_in_reg(9)); end if; end process edge_detect_tenmhz; end rtl;