Tom Kelliher, CS 220
Nov. 14, 2001
Move homework due date?
Read 5.4--5 for Monday.
Registers
Counters
SO = SI four clocks later.
Using 2-1 muxes, how would you modify this to incorporate a shift control signal?
D and Q are buses.
If A and B are n bits, the output can be how many bits?
Use this to design a sequential circuit which takes A as serial input and outputs 3A.
Parallel load, shift left or right, hold.
-- Parallel load shift register. Shift left or right. -- Mode bits: -- 00: hold -- 01: load -- 10: shift left (toward msb) -- 11: shift right (toward lsb) -- -- msi: most significant shift in. -- lsi: least significant shift in. library ieee; use ieee.std_logic_1164.all; entity shift_reg is port ( d : in std_logic_vector (31 downto 0); mode : in std_logic_vector (1 downto 0); clk, reset_n : in std_logic; msi, lsi : in std_logic; q : out std_logic_vector (31 downto 0)); end shift_reg; architecture behavioral of shift_reg is signal state : std_logic_vector (31 downto 0); begin -- behavioral q <= state; -- Update output. state_register: process (clk, reset_n) begin -- process state_register if reset_n = '0' then -- asynchronous reset (active low) state <= X"00000000"; elsif clk'event and clk = '1' then -- rising clock edge if mode = "00" then -- Hold. state <= state; elsif mode = "01" then -- Load. state <= d; elsif mode = "10" then -- Shift left. state <= state (30 downto 0) & lsi; else -- Shift right. state <= msi & state (31 downto 1); end if; end if; end process state_register; end behavioral;