?? example_24bit_load.vhd

?? VHDL examples for counter design, use QuickLogic eclips
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-- VHDL Model Created from SCS Schematic example_24bit_load.sch 
-- Aug 15, 2003 11:51 

-- Automatically generated by vdvhdl version 9.5 Release Build2 

library IEEE;
use IEEE.std_logic_1164.all;
entity COUNTER_4BIT_LOAD is
      Port (   clear : In    STD_LOGIC;
                 clk : In    STD_LOGIC;
             data_in : In    STD_LOGIC_VECTOR (3 downto 0);
              enable : In    STD_LOGIC;
                load : In    STD_LOGIC;
                Qa_c : Out   STD_LOGIC;
                Qb_c : Out   STD_LOGIC;
                Qc_c : Out   STD_LOGIC;
                Qd_c : Out   STD_LOGIC );
end COUNTER_4BIT_LOAD;


architecture SCHEMATIC of COUNTER_4BIT_LOAD is

	attribute syn_macro : integer;
	attribute syn_macro of SCHEMATIC : architecture is 1;
   signal     Qb_r : STD_LOGIC;
   signal     Qa_r : STD_LOGIC;
   signal     Qb_a : STD_LOGIC;
   signal     Qa_a : STD_LOGIC;
   signal     Qc_a : STD_LOGIC;
   signal     Qc_r : STD_LOGIC;
   signal enable_buf : STD_LOGIC;
   signal     Qd_r : STD_LOGIC;
   signal     Qd_a : STD_LOGIC;
   signal   load_N : STD_LOGIC;
	constant 		GND : STD_LOGIC := '0';
	constant 		VCC : STD_LOGIC := '1';
   signal Qa_c_DUMMY : STD_LOGIC;
   signal Qb_c_DUMMY : STD_LOGIC;
   signal Qc_c_DUMMY : STD_LOGIC;
   signal Qd_c_DUMMY : STD_LOGIC;

   component SUPER_LOGIC
      Port (      A1 : In    STD_LOGIC;
                  A2 : In    STD_LOGIC;
                  A3 : In    STD_LOGIC;
                  A4 : In    STD_LOGIC;
                  A5 : In    STD_LOGIC;
                  A6 : In    STD_LOGIC;
                  B1 : In    STD_LOGIC;
                  B2 : In    STD_LOGIC;
                  C1 : In    STD_LOGIC;
                  C2 : In    STD_LOGIC;
                  D1 : In    STD_LOGIC;
                  D2 : In    STD_LOGIC;
                  E1 : In    STD_LOGIC;
                  E2 : In    STD_LOGIC;
                  F1 : In    STD_LOGIC;
                  F2 : In    STD_LOGIC;
                  F3 : In    STD_LOGIC;
                  F4 : In    STD_LOGIC;
                  F5 : In    STD_LOGIC;
                  F6 : In    STD_LOGIC;
                  MP : In    STD_LOGIC;
                  MS : In    STD_LOGIC;
                  NP : In    STD_LOGIC;
                \NS\ : In    STD_LOGIC;
                  OP : In    STD_LOGIC;
                  OS : In    STD_LOGIC;
                  PP : In    STD_LOGIC;
                  PS : In    STD_LOGIC;
                  QC : In    STD_LOGIC;
                  QR : In    STD_LOGIC;
                  QS : In    STD_LOGIC;
                  AZ : Out   STD_LOGIC;
                  FZ : Out   STD_LOGIC;
                  NZ : Out   STD_LOGIC;
                  OZ : Out   STD_LOGIC;
                 Q2Z : Out   STD_LOGIC;
                  QZ : Out   STD_LOGIC );
   end component;

begin


   Qa_c <= Qa_c_DUMMY;
   Qb_c <= Qb_c_DUMMY;
   Qc_c <= Qc_c_DUMMY;
   Qd_c <= Qd_c_DUMMY;
   I17 : SUPER_LOGIC
      Port Map ( A1=>vcc, A2=>gnd, A3=>vcc, A4=>gnd, A5=>vcc, A6=>gnd,
                 B1=>data_in(2), B2=>gnd, C1=>gnd, C2=>gnd, D1=>Qb_r,
                 D2=>gnd, E1=>vcc, E2=>Qb_r, F1=>Qc_r, F2=>gnd, F3=>Qd_r,
                 F4=>gnd, F5=>vcc, F6=>gnd, MP=>gnd, MS=>gnd,
                 NP=>enable_buf, \NS\=>gnd, OP=>gnd, OS=>load_N, PP=>vcc,
                 PS=>Qb_a, QC=>clk, QR=>clear, QS=>gnd, AZ=>open,
                 FZ=>open, NZ=>open, OZ=>Qb_a, Q2Z=>Qb_c_DUMMY, QZ=>Qb_r );
   I16 : SUPER_LOGIC
      Port Map ( A1=>vcc, A2=>gnd, A3=>vcc, A4=>gnd, A5=>vcc, A6=>gnd,
                 B1=>data_in(3), B2=>gnd, C1=>gnd, C2=>gnd, D1=>Qa_r,
                 D2=>gnd, E1=>vcc, E2=>Qa_r, F1=>Qb_r, F2=>gnd, F3=>Qc_r,
                 F4=>gnd, F5=>Qd_r, F6=>gnd, MP=>gnd, MS=>gnd,
                 NP=>enable_buf, \NS\=>gnd, OP=>gnd, OS=>load_N, PP=>vcc,
                 PS=>Qa_a, QC=>clk, QR=>clear, QS=>gnd, AZ=>open,
                 FZ=>open, NZ=>open, OZ=>Qa_a, Q2Z=>Qa_c_DUMMY, QZ=>Qa_r );
   I18 : SUPER_LOGIC
      Port Map ( A1=>enable, A2=>gnd, A3=>vcc, A4=>gnd, A5=>vcc, A6=>gnd,
                 B1=>data_in(1), B2=>gnd, C1=>gnd, C2=>gnd, D1=>Qc_r,
                 D2=>gnd, E1=>vcc, E2=>Qc_r, F1=>Qd_c_DUMMY, F2=>gnd,
                 F3=>vcc, F4=>gnd, F5=>vcc, F6=>gnd, MP=>gnd, MS=>gnd,
                 NP=>enable_buf, \NS\=>gnd, OP=>gnd, OS=>load_N, PP=>vcc,
                 PS=>Qc_a, QC=>clk, QR=>clear, QS=>gnd, AZ=>enable_buf,
                 FZ=>open, NZ=>open, OZ=>Qc_a, Q2Z=>Qc_c_DUMMY, QZ=>Qc_r );
   I3 : SUPER_LOGIC
      Port Map ( A1=>vcc, A2=>load, A3=>vcc, A4=>gnd, A5=>vcc, A6=>gnd,
                 B1=>data_in(0), B2=>gnd, C1=>gnd, C2=>gnd,
                 D1=>Qd_c_DUMMY, D2=>gnd, E1=>vcc, E2=>Qd_c_DUMMY,
                 F1=>vcc, F2=>gnd, F3=>vcc, F4=>gnd, F5=>vcc, F6=>gnd,
                 MP=>gnd, MS=>gnd, NP=>enable_buf, \NS\=>gnd, OP=>vcc,
                 OS=>gnd, PP=>vcc, PS=>Qd_a, QC=>clk, QR=>clear, QS=>gnd,
                 AZ=>load_N, FZ=>open, NZ=>open, OZ=>Qd_a,
                 Q2Z=>Qd_c_DUMMY, QZ=>Qd_r );

end SCHEMATIC;

library IEEE;
use IEEE.std_logic_1164.all;
entity COUNTER_8BIT_II_LOAD is
      Port (   clear : In    STD_LOGIC;
                 clk : In    STD_LOGIC;
             data_in : In    STD_LOGIC_VECTOR (7 downto 0);
              enable : In    STD_LOGIC;
             enable_1 : In    STD_LOGIC;
             enable_2 : In    STD_LOGIC;
                load : In    STD_LOGIC;
               count : Out   STD_LOGIC_VECTOR (7 downto 0);
             enable_3 : Out   STD_LOGIC;
             enable_4 : Out   STD_LOGIC );
end COUNTER_8BIT_II_LOAD;


architecture SCHEMATIC of COUNTER_8BIT_II_LOAD is

	attribute syn_macro : integer;
	attribute syn_macro of SCHEMATIC : architecture is 1;
   signal enable_buf : STD_LOGIC;
   signal load_buf2 : STD_LOGIC;
   signal load_buf1 : STD_LOGIC;
	constant 		VCC : STD_LOGIC := '1';
	constant 		GND : STD_LOGIC := '0';
   signal enable_in2 : STD_LOGIC;
   signal enable_in1 : STD_LOGIC;
   signal count_DUMMY : STD_LOGIC_VECTOR  (7 downto 0);
   signal enable_3_DUMMY : STD_LOGIC;
   signal enable_4_DUMMY : STD_LOGIC;

   component COUNTER_4BIT_LOAD
      Port (   clear : In    STD_LOGIC;
                 clk : In    STD_LOGIC;
             data_in : In    STD_LOGIC_VECTOR  (3 downto 0);
              enable : In    STD_LOGIC;
                load : In    STD_LOGIC;
                Qa_c : Out   STD_LOGIC;
                Qb_c : Out   STD_LOGIC;
                Qc_c : Out   STD_LOGIC;
                Qd_c : Out   STD_LOGIC );
   end component;

   component SUPER_LOGIC
      Port (      A1 : In    STD_LOGIC;
                  A2 : In    STD_LOGIC;
                  A3 : In    STD_LOGIC;
                  A4 : In    STD_LOGIC;
                  A5 : In    STD_LOGIC;
                  A6 : In    STD_LOGIC;
                  B1 : In    STD_LOGIC;
                  B2 : In    STD_LOGIC;
                  C1 : In    STD_LOGIC;
                  C2 : In    STD_LOGIC;
                  D1 : In    STD_LOGIC;
                  D2 : In    STD_LOGIC;
                  E1 : In    STD_LOGIC;
                  E2 : In    STD_LOGIC;
                  F1 : In    STD_LOGIC;
                  F2 : In    STD_LOGIC;
                  F3 : In    STD_LOGIC;
                  F4 : In    STD_LOGIC;
                  F5 : In    STD_LOGIC;
                  F6 : In    STD_LOGIC;
                  MP : In    STD_LOGIC;
                  MS : In    STD_LOGIC;
                  NP : In    STD_LOGIC;
                \NS\ : In    STD_LOGIC;
                  OP : In    STD_LOGIC;
                  OS : In    STD_LOGIC;
                  PP : In    STD_LOGIC;
                  PS : In    STD_LOGIC;
                  QC : In    STD_LOGIC;
                  QR : In    STD_LOGIC;
                  QS : In    STD_LOGIC;
                  AZ : Out   STD_LOGIC;
                  FZ : Out   STD_LOGIC;
                  NZ : Out   STD_LOGIC;
                  OZ : Out   STD_LOGIC;
                 Q2Z : Out   STD_LOGIC;
                  QZ : Out   STD_LOGIC );
   end component;

begin


   count(7 downto 0) <= count_DUMMY(7 downto 0);
   enable_3 <= enable_3_DUMMY;
   enable_4 <= enable_4_DUMMY;
   I19 : COUNTER_4BIT_LOAD
      Port Map ( clear=>clear, clk=>clk,
                 data_in(3 downto 0)=>data_in(3 downto 0),
                 enable=>enable_in1, load=>load_buf1,
                 Qa_c=>count_DUMMY(3), Qb_c=>count_DUMMY(2),
                 Qc_c=>count_DUMMY(1), Qd_c=>count_DUMMY(0) );
   I20 : COUNTER_4BIT_LOAD
      Port Map ( clear=>clear, clk=>clk,
                 data_in(3 downto 0)=>data_in(7 downto 4),
                 enable=>enable_in2, load=>load_buf2,
                 Qa_c=>count_DUMMY(7), Qb_c=>count_DUMMY(6),
                 Qc_c=>count_DUMMY(5), Qd_c=>count_DUMMY(4) );
   I18 : SUPER_LOGIC
      Port Map ( A1=>vcc, A2=>gnd, A3=>vcc, A4=>gnd, A5=>load, A6=>gnd,
                 B1=>gnd, B2=>gnd, C1=>vcc, C2=>gnd, D1=>enable, D2=>gnd,
                 E1=>vcc, E2=>gnd, F1=>load, F2=>gnd, F3=>vcc, F4=>gnd,
                 F5=>vcc, F6=>gnd, MP=>gnd, MS=>gnd, NP=>gnd, \NS\=>gnd,
                 OP=>gnd, OS=>gnd, PP=>gnd, PS=>gnd, QC=>clk, QR=>clear,
                 QS=>gnd, AZ=>load_buf1, FZ=>load_buf2, NZ=>enable_buf,
                 OZ=>open, Q2Z=>open, QZ=>open );
   I12 : SUPER_LOGIC
      Port Map ( A1=>count_DUMMY(7), A2=>gnd, A3=>count_DUMMY(6),
                 A4=>gnd, A5=>count_DUMMY(5), A6=>gnd, B1=>gnd, B2=>gnd,
                 C1=>vcc, C2=>gnd, D1=>count_DUMMY(4), D2=>gnd, E1=>vcc,
                 E2=>gnd, F1=>enable_buf, F2=>gnd, F3=>enable_in1,
                 F4=>gnd, F5=>enable_3_DUMMY, F6=>gnd, MP=>gnd, MS=>gnd,
                 NP=>gnd, \NS\=>gnd, OP=>vcc, OS=>gnd, PP=>gnd, PS=>gnd,
                 QC=>clk, QR=>clear, QS=>gnd, AZ=>open, FZ=>enable_in2,
                 NZ=>open, OZ=>open, Q2Z=>open, QZ=>enable_4_DUMMY );
   I15 : SUPER_LOGIC
      Port Map ( A1=>count_DUMMY(3), A2=>gnd, A3=>count_DUMMY(2),
                 A4=>gnd, A5=>count_DUMMY(1), A6=>gnd, B1=>gnd, B2=>gnd,
                 C1=>vcc, C2=>gnd, D1=>count_DUMMY(0), D2=>gnd, E1=>vcc,
                 E2=>gnd, F1=>enable_1, F2=>gnd, F3=>enable_2, F4=>gnd,
                 F5=>enable_buf, F6=>gnd, MP=>gnd, MS=>gnd, NP=>gnd,
                 \NS\=>gnd, OP=>vcc, OS=>gnd, PP=>gnd, PS=>gnd, QC=>clk,
                 QR=>clear, QS=>gnd, AZ=>open, FZ=>enable_in1, NZ=>open,
                 OZ=>open, Q2Z=>open, QZ=>enable_3_DUMMY );

end SCHEMATIC;

library IEEE;
use IEEE.std_logic_1164.all;
entity COUNTER_8BIT_I_LOAD is
      Port (   clear : In    STD_LOGIC;
                 clk : In    STD_LOGIC;
             data_in : In    STD_LOGIC_VECTOR (7 downto 0);
              enable : In    STD_LOGIC;
                load : In    STD_LOGIC;
               count : Out   STD_LOGIC_VECTOR (7 downto 0);
             enable_2 : Out   STD_LOGIC;
             fo_enable : Out   STD_LOGIC );
end COUNTER_8BIT_I_LOAD;


architecture SCHEMATIC of COUNTER_8BIT_I_LOAD is

	attribute syn_macro : integer;
	attribute syn_macro of SCHEMATIC : architecture is 1;
   signal load_buf2 : STD_LOGIC;
   signal load_buf1 : STD_LOGIC;
   signal enable_buf : STD_LOGIC;
   signal enable_1 : STD_LOGIC;
	constant 		VCC : STD_LOGIC := '1';
	constant 		GND : STD_LOGIC := '0';
   signal count_DUMMY : STD_LOGIC_VECTOR  (7 downto 0);
   signal enable_2_DUMMY : STD_LOGIC;
   signal fo_enable_DUMMY : STD_LOGIC;

   component COUNTER_4BIT_LOAD
      Port (   clear : In    STD_LOGIC;
                 clk : In    STD_LOGIC;
             data_in : In    STD_LOGIC_VECTOR  (3 downto 0);
              enable : In    STD_LOGIC;
                load : In    STD_LOGIC;
                Qa_c : Out   STD_LOGIC;
                Qb_c : Out   STD_LOGIC;
                Qc_c : Out   STD_LOGIC;
                Qd_c : Out   STD_LOGIC );
   end component;

   component SUPER_LOGIC
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?? 文件大小 1269 K
?? 上傳用戶 zhang8818200
?? 所屬分類 VHDL/FPGA/Verilog
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#QuickLogic #examples #counter #design
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?? example_24bit_load.vhd

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