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[/] [8b10b_encdec/] [trunk/] [enc_8b10b_TB.vhd] - Rev 5
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------------------------------------------------------------------------------- -- -- Title : Test Bench for enc_8b10b -- Design : 8b/10b Encoder Test Bench -- Project : 8000 - 8b10b_encdec -- Author : Ken Boyette -- Company : Critia Computer, Inc. -- ------------------------------------------------------------------------------- -- -- File : enc_8b10b_TB.vhd -- Version : 1.0 -- Generated : 09.25.2006 -- From : y:\Projects\8000\FPGA\VHDLSource\8b10b\8b10_enc.vhd -- By : Active-HDL Built-in Test Bench Generator ver. 1.2s -- ------------------------------------------------------------------------------- -- -- Description : Test Bench for enc_8b10b_tb -- -- This testbench provides a sequence of data pattern stimuli for the -- enc_8b10b component. It latches the encoded output and provides this -- for waveform display during simulation. The test pattern generator -- alternately drives all data patterns and then the 12 defined K patterns. ------------------------------------------------------------------------------- -- This program is licensed under the GPL ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity enc_8b10b_tb is end enc_8b10b_tb; architecture TB_ARCHITECTURE of enc_8b10b_tb is component enc_8b10b port( RESET : in std_logic; SBYTECLK : in std_logic; KI : in std_logic; AI : in std_logic; BI : in std_logic; CI : in std_logic; DI : in std_logic; EI : in std_logic; FI : in std_logic; GI : in std_logic; HI : in std_logic; AO : out std_logic; BO : out std_logic; CO : out std_logic; DO : out std_logic; EO : out std_logic; FO : out std_logic; IO : out std_logic; GO : out std_logic; HO : out std_logic; JO : out std_logic ); end component; -- Special character code values constant K28d0 : std_logic_vector := "00011100"; -- Balanced constant K28d1 : std_logic_vector := "00111100"; -- Unbalanced comma constant K28d2 : std_logic_vector := "01011100"; -- Unbalanced constant K28d3 : std_logic_vector := "01111100"; -- Unbalanced constant K28d4 : std_logic_vector := "10011100"; -- Balanced constant K28d5 : std_logic_vector := "10111100"; -- Unbalanced comma constant K28d6 : std_logic_vector := "11011100"; -- Unbalanced constant K28d7 : std_logic_vector := "11111100"; -- Balanced comma constant K23d7 : std_logic_vector := "11110111"; -- Balanced constant K27d7 : std_logic_vector := "11111011"; -- Balanced constant K29d7 : std_logic_vector := "11111101"; -- Balanced constant K30d7 : std_logic_vector := "11111110"; -- Balanced -- Stimulus signals - mapped to the input of enc_8b10b signal TRESET : std_logic; signal TBYTECLK : std_logic; signal TKO : std_logic; signal TAO : std_logic; signal TBO : std_logic; signal TCO : std_logic; signal TDO : std_logic; signal TEO : std_logic; signal TFO : std_logic; signal TGO : std_logic; signal THO : std_logic; -- Observed signals - mapped from output of enc_8b10b signal TA : std_logic; signal TB : std_logic; signal TC : std_logic; signal TD : std_logic; signal TE : std_logic; signal TF : std_logic; signal TI : std_logic; signal TG : std_logic; signal TH : std_logic; signal TJ : std_logic; -- Signals for TestBench control functions signal tchar : std_logic_vector (7 downto 0) ; -- All character vector signal kcounter : std_logic_vector (3 downto 0) ; -- K character counter signal dcounter : std_logic_vector (7 downto 0) ; -- D value counter signal tcharout, tlcharout : std_logic_vector (9 downto 0) ; -- Character output vector signal tclken : std_logic ; -- Enables clock after short delay starting up signal tcnten : std_logic ; -- Enables count after 1 cycle signal tks : std_logic ; -- Use to select control function of encoder signal dk : std_logic ; -- '0' if D, '1' if K begin --------------------------------------------------------------------------- -- Instantiate module --------------------------------------------------------------------------- encoder : enc_8b10b port map ( RESET => TRESET, SBYTECLK => TBYTECLK, KI => TKO, AI => TAO, BI => TBO, CI => TCO, DI => TDO, EI => TEO, FI => TFO, GI => TGO, HI => THO, AO => TA, BO => TB, CO => TC, DO => TD, EO => TE, IO => TI, FO => TF, GO => TG, HO => TH, JO => TJ ) ; TRESET <= '1', '0' after 200 ns ; -- Start with a valid reset for 100ns tclken <= '0', '1' after 10 ns ; -- Start clock with valid state, then 10MHz process (TBYTECLK, tclken) begin If (tclken = '0') then TBYTECLK <= '0'; else TBYTECLK <= (not TBYTECLK) after 50 ns ; -- Generate 10MHz byte clock end if; end process ; process (TRESET, TBYTECLK) begin if (TRESET = '1') then -- Delay count 1 cycle tcnten <= '0' ; elsif (TBYTECLK'event and TBYTECLK = '0') then tcnten <= '1' ; end if ; end process ; process (TRESET, TBYTECLK, tks, tcnten, kcounter, dcounter, tchar) begin if (TRESET = '1') then tchar <= "00000000" ; tks <= '1' ; -- Set for K initially dk <= '0' ; kcounter <= "0000" ; -- Preset K counter dcounter <= "00000000" ; -- Preset D counter elsif (TBYTECLK'event and TBYTECLK = '1') then dk <= tks ; if tks = '1' then -- Output K characters kcounter <= kcounter + tcnten ; -- Increment counter dcounter <= "00000000" ; case kcounter is when "0000" => tchar <= K28d0 ; when "0001" => tchar <= K28d1 ; when "0010" => tchar <= K28d2 ; when "0011" => tchar <= K28d3 ; when "0100" => tchar <= K28d4 ; when "0101" => tchar <= K28d5 ; when "0110" => tchar <= K28d6 ; when "0111" => tchar <= K28d7 ; when "1000" => tchar <= K23d7 ; when "1001" => tchar <= K27d7 ; when "1010" => tchar <= K29d7 ; when "1011" => tchar <= K30d7 ; tks <= '0' ; -- Switch to D output when "1100" => tchar <= "00000000" ; when others => tchar(7 downto 0) <= K28d5 ; end case; else dcounter <= dcounter + tcnten ; -- Output D values tchar <= dcounter ; if dcounter = "11111111" then tks <= '1' ; -- Repeat K portion kcounter <= "0000" ; -- Reset K counter end if; end if ; end if; end process ; -- Latch encoder output each rising edge for simulation display process (TBYTECLK) begin if (TBYTECLK'event and TBYTECLK = '1') then tlcharout(0) <= TA; tlcharout(1) <= TB; tlcharout(2) <= TC; tlcharout(3) <= TD; tlcharout(4) <= TE; tlcharout(5) <= TI; tlcharout(6) <= TF; tlcharout(7) <= TG; tlcharout(8) <= TH; tlcharout(9) <= TJ; end if; end process ; -- Connect our test values to the encoder inputs TAO <= tchar(0); TBO <= tchar(1); TCO <= tchar(2); TDO <= tchar(3); TEO <= tchar(4); TFO <= tchar(5); TGO <= tchar(6); THO <= tchar(7); TKO <= dk; -- Monitor encoder output tcharout(0) <= TA; tcharout(1) <= TB; tcharout(2) <= TC; tcharout(3) <= TD; tcharout(4) <= TE; tcharout(5) <= TI; tcharout(6) <= TF; tcharout(7) <= TG; tcharout(8) <= TH; tcharout(9) <= TJ; end TB_ARCHITECTURE;
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