Tom Kelliher, CS 220
Nov. 5, 2003
Rest of homework due Friday.
Read 5-1,2.
Sequential circuit design.
Registers
Inputs: A, B, (no more msb). A and B are received least significant bit first. Output 0 if , otherwise 1.
Reset to S0 on reset.
State diagram:
Things to observe:
b <= a; c <= b;does not behave as it would in C.
Compare process inputs to sensitivity lists.
-- VHDL for serial comparator. The inputs a and b are input lsb first. -- The Mealy machine uses rising edge sensitive flip-flops and an -- asynchronous active low reset. -- -- The output is 1 if b > a, otherwise 0. library ieee; use ieee.std_logic_1164.all; entity comparator is port (a, b, clk, reset : in std_logic; o : out std_logic ); end comparator; architecture process_defn of comparator is -- Two states needed. type state_type is (S0, S1); -- State assignment. attribute enum_encoding : string; attribute enum_encoding of state_type : type is "0 1"; signal state, next_state : state_type; -- For convenience, concatenate a and b. signal inputs : std_logic_vector (1 downto 0); begin -- Concurrent assignment executes the rhs changes. -- Concatenate a and b into inputs. inputs <= a & b; -- Processes execute whenever something on their sensitivity list -- changes. All assignments take place when the process exits. -- -- This process implements the D flip-flop. state_register : process (clk, reset) begin -- If/else construct only valid within a process. if (reset = '0') then state <= S0; elsif (clk'event AND clk = '1') then state <= next_state; end if; end process; -- This process computes the next state. next_state_process : process (inputs, state) begin case state is when S0 => if (inputs = "01") then next_state <= S1; else next_state <= S0; end if; when S1 => if (inputs = "10") then next_state <= S0; else next_state <= S1; end if; end case; end process; -- This process computes the output. output_process : process (inputs, state) begin case state is when S0 => if (inputs = "01") then o <= '1'; else o <= '0'; end if; when S1 => if (inputs = "10") then o <= '0'; else o <= '1'; end if; end case; end process; end process_defn;
Serial comparator. Inputs: A, B. A and B are received most significant bit first. Reset to initial state on reset. Output 0 if , otherwise 1.