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[/] [ttl_library/] [trunk/] [Testbench/] [Testbench_160.vhd] - Rev 3
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----------------------------------------------------------------------- -- Bipolar TTL models (VHDL) -- -- David R Brooks -- -- June, 2016. Perth, Australia -- -- Compliance: VHDL 2008 -- -- Testbench for SN74LS160N: Synchronous presettable BCD decade ctr -- ----------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_misc.all; use ieee.numeric_std.all; use work.LSTTL.all; use work.TTLPrivate.all; entity Testbench_160 is -- Top-level bench generic( StimClk : std_logic := '1'; CheckClk : std_logic := '1'; Period : time := 30 ns; Finish : time := 20 us; SevLevel : severity_level := failure ); end entity; architecture Test of Testbench_160 is signal RS, NRS : std_logic; signal CLK, R : std_logic; signal J, B : unsigned(6 downto 0); -- Test stimuli signal D, E : std_logic_vector(4 downto 0); -- Expected & actual results signal PE : std_logic := '1'; signal CEP : std_logic := '1'; signal CET : std_logic := '1'; alias P : unsigned(3 downto 0) is B(3 downto 0); alias CP : std_logic is CLK; constant modulus : natural := 10; constant asyncrst : boolean := true; constant limit : unsigned(3 downto 0) := to_unsigned(modulus-1, 4); begin RS <= NRS and R; CEP <= J(0); CET <= J(1); process(CLK) is -- Generate control signals variable T2, T3 : natural := 0; begin if rising_edge(CLK) then if T2 = 37 then PE <= '0'; T2 := 0; else PE <= '1'; T2 := T2 + 1; end if; if T3 = 41 then R <= '0'; T3 := 0; else R <= '1'; T3 := T3 + 1; end if; end if; end process; ----------------------------------------------------------------------- -- Standard testbench components ----------------------------------------------------------------------- TB: TTLBench generic map( StimClk => StimClk, CheckClk => CheckClk, Period => Period, Finish => Finish, SevLevel => SevLevel ) port map( J => J, B => B, CLK => CLK, RS => NRS, D => D, E => E ); ----------------------------------------------------------------------- -- Generate expected results (with zero delays) ----------------------------------------------------------------------- process(CP, RS) is variable N : unsigned(3 downto 0); begin if asyncrst and (RS = '0') then N := (others => '0'); elsif rising_edge(CP) then if RS = '0' then N := (others => '0'); elsif PE = '0' then N := unsigned(P); elsif (CEP and CET) = '1' then if modulus = 16 then -- Simple binary count N := N + 1; else -- Decade count, cover illegal cases case N is when "1001" => N := "0000"; when "1011" | "1101" => N := "0100"; when "1111" => N := "1000"; when others => N := N + 1; end case; end if; end if; end if; D(3 downto 0) <= std_logic_vector(N); -- Export results if now > 1 ns and N = limit then D(4) <= CET; else D(4) <= '0'; end if; end process; ----------------------------------------------------------------------- -- Device Under Test... ----------------------------------------------------------------------- DUT: SN74LS160N port map( X_1 => RS, -- R\ X_2 => CP, -- CP X_3 => B(0), -- P0 X_4 => B(1), -- P1 X_5 => B(2), -- P2 X_6 => B(3), -- P3 X_7 => CEP, -- CEP X_8 => open, -- GND X_9 => PE, -- PE\ X_10 => CET, -- CET X_11 => E(3), -- Q3 X_12 => E(2), -- Q2 X_13 => E(1), -- Q1 X_14 => E(0), -- Q0 X_15 => E(4), -- TC X_16 => open -- Vcc ); end architecture Test;