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[/] [xmatchpro/] [trunk/] [xmw4-comdec/] [src/] [RLI_CR.vhd] - Rev 8
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--This library is free software; you can redistribute it and/or --modify it under the terms of the GNU Lesser General Public --License as published by the Free Software Foundation; either --version 2.1 of the License, or (at your option) any later version. --This library is distributed in the hope that it will be useful, --but WITHOUT ANY WARRANTY; without even the implied warranty of --MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU --Lesser General Public License for more details. --You should have received a copy of the GNU Lesser General Public --License along with this library; if not, write to the Free Software --Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA -- e_mail : j.l.nunez-yanez@byacom.co.uk -------------------------------------------------- -- ENTITY = RLI_CR (Coding Register) -- -- version = 1.0 -- -- last update = 22/11/99 -- -- author = Jose Nunez -- -------------------------------------------------- -- FUNCTION -- RLI coding register -- PIN LIST -- FLUSH_IN : the flush signal from the csm pipeline -- CODE_IN : the 33 maximum bit of compressed code -- LENGTH_IN : the length of the compressed code -- COMP_IN : the comp signal pipeline from the csm -- CLEAR : the asyncronous clear -- CLK : the clk signal -- FLUSH_OUT : the output signals start here -- CODE_OUT : -- LENGTH_OUT : -- COMP_OUT : library IEEE; use IEEE.std_logic_1164.all; entity RLI_CR is port ( FLUSH_IN : in bit; CODE_IN : in bit_vector (34 downto 0); LENGTH_IN : in bit_vector (5 downto 0); CODE_RLI_IN : in bit_vector(4 downto 0); CODE_RLI_LENGTH_IN : in bit_vector(2 downto 0); COMP_IN :in bit; MOVE_ENABLE_IN : in bit; CLEAR:in bit; RESET: in bit; CLK :in bit; FLUSH_OUT:out bit; CODE_OUT:out bit_vector(34 downto 0); LENGTH_OUT:out bit_vector( 5 downto 0); CODE_RLI_OUT : out bit_vector(4 downto 0); CODE_RLI_LENGTH_OUT : out bit_vector(2 downto 0); COMP_OUT: out bit; MOVE_ENABLE_OUT : out bit ); end RLI_CR; architecture STRUCTURAL of RLI_CR is signal FLUSH_OUT_aux : bit; signal CODE_OUT_aux : bit_vector (34 downto 0); signal COMP_OUT_aux : bit; signal LENGTH_OUT_aux: bit_vector(5 downto 0); signal CODE_RLI_OUT_aux : bit_vector(4 downto 0); signal CODE_RLI_LENGTH_OUT_aux : bit_vector(2 downto 0); signal MOVE_ENABLE_OUT_aux : bit; begin process(CLK,CLEAR) begin if (CLEAR='0') then FLUSH_OUT_aux<='1'; CODE_OUT_aux<="00000000000000000000000000000000000"; COMP_OUT_aux<='1'; LENGTH_OUT_aux<="000000"; CODE_RLI_OUT_aux <="00000"; CODE_RLI_LENGTH_OUT_aux <= "000"; MOVE_ENABLE_OUT_aux <='1'; elsif ((CLK'event) and (CLK='1')) then if (RESET='0') then FLUSH_OUT_aux<='1'; CODE_OUT_aux<="00000000000000000000000000000000000"; COMP_OUT_aux<='1'; LENGTH_OUT_aux<="000000"; CODE_RLI_OUT_aux <="00000"; CODE_RLI_LENGTH_OUT_aux <= "000"; MOVE_ENABLE_OUT_aux <='1'; elsif (MOVE_ENABLE_IN = '0') then -- active at zero FLUSH_OUT_aux<=FLUSH_IN; CODE_OUT_aux<=CODE_IN; COMP_OUT_aux<=COMP_IN; LENGTH_OUT_aux<=LENGTH_IN; CODE_RLI_OUT_aux <= CODE_RLI_IN; CODE_RLI_LENGTH_OUT_aux <= CODE_RLI_LENGTH_IN; MOVE_ENABLE_OUT_aux <=MOVE_ENABLE_IN; else FLUSH_OUT_aux<=FLUSH_IN; CODE_OUT_aux<=CODE_OUT_aux; COMP_OUT_aux<=COMP_IN; LENGTH_OUT_aux<= LENGTH_OUT_aux; CODE_RLI_OUT_aux <= CODE_RLI_OUT_aux; CODE_RLI_LENGTH_OUT_aux <= CODE_RLI_LENGTH_OUT_aux; MOVE_ENABLE_OUT_aux <= MOVE_ENABLE_IN; end if; end if; end process; FLUSH_OUT<=FLUSH_OUT_aux; CODE_OUT<=CODE_OUT_aux; COMP_OUT<=COMP_OUT_aux; LENGTH_OUT<=LENGTH_OUT_aux; CODE_RLI_LENGTH_OUT <= CODE_RLI_LENGTH_OUT_aux; CODE_RLI_OUT<= CODE_RLI_OUT_aux; MOVE_ENABLE_OUT <= MOVE_ENABLE_OUT_aux; --FLUSH_OUT<=FLUSH_IN; --CODE_OUT<=CODE_IN; --COMP_OUT<=COMP_IN; --LENGTH_OUT<=LENGTH_IN; end structural;