CristalCaveGem » LustreC » Lustrec-Tests

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-- Company   : CNES

-- Author    : Mickael Carl (CNES)

-- Copyright : Copyright (c) CNES.

-- Licensing : GNU GPLv3

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-- Version         : V1

-- Version history :

--    V1 : 2015-04-09 : Mickael Carl (CNES): Creation

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-- File name          : STD_06500_good.vhd

-- File Creation date : 2015-04-09

-- Project name       : VHDL Handbook CNES Edition

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-- Softwares             :  Microsoft Windows (Windows 7) - Editor (Eclipse + VEditor)

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-- Description : Handbook example: Counters end of counting: good example

--

-- Limitations : This file is an example of the VHDL handbook made by CNES. It is a stub aimed at

--               demonstrating good practices in VHDL and as such, its design is minimalistic.

--               It is provided as is, without any warranty.

--               This example is compliant with the Handbook version 1.

--

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-- Naming conventions:

--

-- i_Port: Input entity port

-- o_Port: Output entity port

-- b_Port: Bidirectional entity port

-- g_My_Generic: Generic entity port

--

-- c_My_Constant: Constant definition

-- t_My_Type: Custom type definition

--

-- My_Signal_n: Active low signal

-- v_My_Variable: Variable

-- sm_My_Signal: FSM signal

-- pkg_Param: Element Param coming from a package

--

-- My_Signal_re: Rising edge detection of My_Signal

-- My_Signal_fe: Falling edge detection of My_Signal

-- My_Signal_rX: X times registered My_Signal signal

--

-- P_Process_Name: Process

--

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library IEEE;

use IEEE.std_logic_1164.all;

use IEEE.numeric_std.all;

entity STD_06500_good is

   port (

      i_Clock   : in  std_logic;        -- Main clock signal

      i_Reset_n : in  std_logic;        -- Main reset signal

      i_Enable  : in  std_logic;        -- Enables the counter

      i_Length  : in  std_logic_vector(3 downto 0);  -- Unsigned Value for Counter Period

      o_Count   : out std_logic_vector(3 downto 0)  -- Counter (unsigned value)

      );

end STD_06500_good;

--CODE

architecture Behavioral of STD_06500_good is

   signal Count        : unsigned(3 downto 0);  -- Counter output signal (unsigned converted)

   signal Count_Length : unsigned(3 downto 0);  -- Length input signal (unsigned converted)

begin

   Count_Length <= unsigned(i_Length);

   -- Will count undefinitely from 0 to i_Length while i_Enable is asserted

   P_Count : process(i_Reset_n, i_Clock)

   begin

      if (i_Reset_n = '0') then

         Count <= (others => '0');

      elsif (rising_edge(i_Clock)) then

            if (Count >= Count_Length) then  -- Counter restarts from 0

               Count <= (others => '0');

            elsif (i_Enable = '1') then      -- Increment counter value

               Count <= Count + 1;

            end if;

      end if;

   end process;

   o_Count <= std_logic_vector(Count);

end Behavioral;

--CODE