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[/] [cpu65c02_true_cycle/] [trunk/] [released/] [rtl/] [v2_00/] [vhdl/] [regbank_axy.vhd] - Rev 24

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LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.std_logic_arith.all;
 
entity regbank_axy is
   port( 
      clk_clk_i    : in     std_logic;
      d_regs_in_i  : in     std_logic_vector (7 downto 0);
      load_regs_i  : in     std_logic;
      rst_rst_n_i  : in     std_logic;
      sel_rb_in_i  : in     std_logic_vector (1 downto 0);
      sel_rb_out_i : in     std_logic_vector (1 downto 0);
      sel_reg_i    : in     std_logic_vector (1 downto 0);
      d_regs_out_o : out    std_logic_vector (7 downto 0);
      q_a_o        : out    std_logic_vector (7 downto 0);
      q_x_o        : out    std_logic_vector (7 downto 0);
      q_y_o        : out    std_logic_vector (7 downto 0)
   );
 
-- Declarations
 
end regbank_axy ;
-- (C) 2008 - 2021 Jens Gutschmidt
-- (email: opencores@vivare-services.com)
-- 
-- Versions:
-- Revision 1.7  2013/07/21 11:11:00  jens
-- - Changing the title block and internal revision history
-- 
-- Revision 1.6  2009/01/04 10:20:47  eda
-- Changes for cosmetic issues only
-- 
-- Revision 1.5  2009/01/04 09:23:10  eda
-- - Delete unused nets and blocks (same as R6502_TC)
-- - Rename blocks
-- 
-- Revision 1.4  2009/01/03 16:53:02  eda
-- - Unused nets and blocks deleted
-- - Renamed blocks
-- 
-- Revision 1.3  2009/01/03 16:42:02  eda
-- - Unused nets and blocks deleted
-- - Renamed blocks
-- 
-- Revision 1.2  2008/12/31 19:31:24  eda
-- Production Release
--  
-- 
--
-- r65c02_tc.regbank_axy.struct
--
-- Date:    06.01.2021
-- Time:    22:58:44
-- By:        VIVARE GmbH, Switzerland
--
-- COPYRIGHT (C) 2008 - 2021 by Jens Gutschmidt
-- 
-- This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or any later version.
-- 
-- This program 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 General Public License for more details.
-- 
-- You should have received a copy of the GNU General Public License along with this program.  If not, see <http://www.gnu.org/licenses/>.
-- 
-- 
LIBRARY ieee;
USE ieee.std_logic_1164.all;
USE ieee.std_logic_arith.all;
 
 
architecture struct of regbank_axy is
 
   -- Architecture declarations
 
   -- Internal signal declarations
   signal ld        : std_logic_vector(2 downto 0);
   signal load1_o_i : std_logic;
   signal load2_o_i : std_logic;
   signal load_o_i  : std_logic;
   signal q_mux_o_i : std_logic_vector(7 downto 0);
   signal val_zero  : std_logic_vector(7 downto 0);
 
   -- Implicit buffer signal declarations
   signal q_a_o_internal : std_logic_vector (7 downto 0);
   signal q_x_o_internal : std_logic_vector (7 downto 0);
   signal q_y_o_internal : std_logic_vector (7 downto 0);
 
 
   -- ModuleWare signal declarations(v1.12) for instance 'U_0' of 'adff'
   signal mw_U_0reg_cval : std_logic_vector(7 downto 0);
 
   -- ModuleWare signal declarations(v1.12) for instance 'U_4' of 'adff'
   signal mw_U_4reg_cval : std_logic_vector(7 downto 0);
 
   -- ModuleWare signal declarations(v1.12) for instance 'U_5' of 'adff'
   signal mw_U_5reg_cval : std_logic_vector(7 downto 0);
 
 
begin
 
   -- ModuleWare code(v1.12) for instance 'U_0' of 'adff'
   q_a_o_internal <= mw_U_0reg_cval;
   u_0seq_proc: process (clk_clk_i, rst_rst_n_i)
   begin
      if (rst_rst_n_i = '0') then
         mw_U_0reg_cval <= "00000000";
      elsif (clk_clk_i'event and clk_clk_i='1') then
         if (load_o_i = '1') then
            mw_U_0reg_cval <= q_mux_o_i;
         end if;
      end if;
   end process u_0seq_proc;
 
   -- ModuleWare code(v1.12) for instance 'U_4' of 'adff'
   q_x_o_internal <= mw_U_4reg_cval;
   u_4seq_proc: process (clk_clk_i, rst_rst_n_i)
   begin
      if (rst_rst_n_i = '0') then
         mw_U_4reg_cval <= "00000000";
      elsif (clk_clk_i'event and clk_clk_i='1') then
         if (load1_o_i = '1') then
            mw_U_4reg_cval <= q_mux_o_i;
         end if;
      end if;
   end process u_4seq_proc;
 
   -- ModuleWare code(v1.12) for instance 'U_5' of 'adff'
   q_y_o_internal <= mw_U_5reg_cval;
   u_5seq_proc: process (clk_clk_i, rst_rst_n_i)
   begin
      if (rst_rst_n_i = '0') then
         mw_U_5reg_cval <= "00000000";
      elsif (clk_clk_i'event and clk_clk_i='1') then
         if (load2_o_i = '1') then
            mw_U_5reg_cval <= q_mux_o_i;
         end if;
      end if;
   end process u_5seq_proc;
 
   -- ModuleWare code(v1.12) for instance 'U_6' of 'and'
   load_o_i <= load_regs_i and ld(0);
 
   -- ModuleWare code(v1.12) for instance 'U_7' of 'and'
   load1_o_i <= load_regs_i and ld(1);
 
   -- ModuleWare code(v1.12) for instance 'U_8' of 'and'
   load2_o_i <= load_regs_i and ld(2);
 
   -- ModuleWare code(v1.12) for instance 'U_11' of 'constval'
   val_zero <= "00000000";
 
   -- ModuleWare code(v1.12) for instance 'U_1' of 'decoder1'
   u_1combo_proc: process (sel_reg_i)
   begin
      ld <= (others => '0');
      case sel_reg_i is
         when "00" => ld(0) <= '1';
         when "01" => ld(1) <= '1';
         when "10" => ld(2) <= '1';
         when others => ld <= (others => '0');
      end case;
   end process u_1combo_proc;
 
   -- ModuleWare code(v1.12) for instance 'U_2' of 'mux'
   u_2combo_proc: process(q_a_o_internal, q_x_o_internal, q_y_o_internal, 
                          val_zero, sel_rb_out_i)
   begin
      case sel_rb_out_i is
      when "00" => d_regs_out_o <= q_a_o_internal;
      when "01" => d_regs_out_o <= q_x_o_internal;
      when "10" => d_regs_out_o <= q_y_o_internal;
      when "11" => d_regs_out_o <= val_zero;
      when others => d_regs_out_o <= (others => 'X');
      end case;
   end process u_2combo_proc;
 
   -- ModuleWare code(v1.12) for instance 'U_3' of 'mux'
   u_3combo_proc: process(q_a_o_internal, q_y_o_internal, q_x_o_internal, 
                          d_regs_in_i, sel_rb_in_i)
   begin
      case sel_rb_in_i is
      when "00" => q_mux_o_i <= q_a_o_internal;
      when "01" => q_mux_o_i <= q_y_o_internal;
      when "10" => q_mux_o_i <= q_x_o_internal;
      when "11" => q_mux_o_i <= d_regs_in_i;
      when others => q_mux_o_i <= (others => 'X');
      end case;
   end process u_3combo_proc;
 
   -- Instance port mappings.
 
   -- Implicit buffered output assignments
   q_a_o <= q_a_o_internal;
   q_x_o <= q_x_o_internal;
   q_y_o <= q_y_o_internal;
 
end struct;
 

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