Hi, I’m not quite sure if this vhdl code and testbench is correct for the given task. Can you take a look?
Design a one-hour kitchen timer. The device should have buttons/switches to start and stop the timer, as well as to set the desired time interval for the alarm. Realize the task using the software package Quartus or in GHDL, confirm the correctness of the project task by simulation.
This is VHDL code:
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity Kitchen_Timer is
port (
clk : in std_logic; -- Clock input
reset : in std_logic; -- Reset input
start : in std_logic; -- Start button input
stop : in std_logic; -- Stop button input
alarm : out std_logic -- Alarm output
);
end entity Kitchen_Timer;
-- Declare the architecture for the kitchen timer
architecture Behavioral of Kitchen_Timer is
signal count : integer range 0 to 3600 := 0; -- Counter for timer
signal alarming : std_logic := '0'; -- Signal to indicate alarming interval
signal alarm_en : std_logic := '0'; -- Signal to enable alarming interval
signal alarm_cnt : integer range 0 to 600 := 0; -- Counter for alarming interval
begin
-- Process to control the kitchen timer and alarming interval
process (clk, reset)
begin
if (reset = '1') then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (rising_edge(clk)) then
if (stop = '1') then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (start = '1' and count < 3600) then
count <= count + 1;
if (count = 3600) then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (count > 0) then
alarm_en <= '1';
end if;
end if;
if (alarm_en = '1') then
if (alarm_cnt < 600) then
alarm_cnt <= alarm_cnt + 1;
else
alarm_cnt <= 0;
alarming <= '1';
end if;
end if;
end if;
end process;
-- Assign the alarm output
alarm <= alarming;
end architecture Behavioral; ```
This is Testbench:
```library ieee;
use ieee.std_logic_1164.all;
entity tb_Kitchen_Timer is
end tb_Kitchen_Timer;
architecture tb of tb_Kitchen_Timer is
component Kitchen_Timer
port (clk : in std_logic;
reset : in std_logic;
start : in std_logic;
stop : in std_logic;
alarm : out std_logic);
end component;
signal clk : std_logic;
signal reset : std_logic;
signal start : std_logic;
signal stop : std_logic;
signal alarm : std_logic;
constant TbPeriod : time := 1000 ns; -- EDIT Put right period here
signal TbClock : std_logic := '0';
signal TbSimEnded : std_logic := '0';
begin
dut : Kitchen_Timer
port map (clk => clk,
reset => reset,
start => start,
stop => stop,
alarm => alarm);
-- Clock generation
TbClock <= not TbClock after TbPeriod/2 when TbSimEnded /= '1' else '0';
-- EDIT: Check that clk is really your main clock signal
clk <= TbClock;
stimuli : process
begin
-- EDIT Adapt initialization as needed
start <= '0';
stop <= '0';
-- Reset generation
-- EDIT: Check that reset is really your reset signal
reset <= '1';
wait for 100 ns;
reset <= '0';
wait for 100 ns;
-- EDIT Add stimuli here
wait for 100 * TbPeriod;
-- Stop the clock and hence terminate the simulation
TbSimEnded <= '1';
wait;
end process;
end tb;
-- Configuration block below is required by some simulators. Usually no need to edit.
configuration cfg_tb_Kitchen_Timer of tb_Kitchen_Timer is
for tb
end for;
end cfg_tb_Kitchen_Timer;```
#science
@dejo
You would set that on the testbench or on your synthesis code, but that is unnecessary, I only said that in case if you tested it on a actual FPGA. If you do that on your testbench, it would take a very long time to simulate.
The
alarm
signal. The “alarming” is when thealarm
signal is in a high logic state.I wouldn’t say it’s mandatory, but it is a good addition to the simulation, keep it.
@T4V0 Thanks a lot for your help, I appreciate it.
@T4V0 How to How can I include the count signal in the simulation so that it is displayed to me
@dejo In your .do script file add this line:
add wave -label "count" -radix unsigned /dut/Kitchen_Timer/count
@T4V0 I use Notepad to write scripts.I don’t think it works that way with the code written like this
**library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity tb_Kitchen_Timer is
end tb_Kitchen_Timer;
architecture tb of tb_Kitchen_Timer is
signal clk : std_logic := ‘0’;
signal reset : std_logic := ‘0’;
signal start : std_logic := ‘0’;
signal stop : std_logic := ‘0’;
signal adjust_interval_up : std_logic := ‘0’;
signal adjust_interval_down : std_logic := ‘0’;
signal alarm : std_logic;
constant TbPeriod : time := 10 ns;
signal TbClock : std_logic := ‘0’;
signal TbSimEnded : std_logic := ‘0’;
begin
dut : entity work.Kitchen_Timer
port map
(
clk => clk,
reset => reset,
start => start,
stop => stop,
adjust_interval_up => adjust_interval_up,
adjust_interval_down => adjust_interval_down,
alarm => alarm
)
TbClock <= not TbClock after TbPeriod/2 when TbSimEnded /= ‘1’ else ‘0’; – Clock generation
clk <= TbClock;
stimuli : process
variable num_ticks : natural;
begin
-- Reset generation
reset <= ‘1’;
wait for 20 ns;
reset <= ‘0’;
wait for 20 ns;
-- Start the timer
start <= ‘1’;
wait for 20 ns;
start <= ‘0’;
stop <= ‘1’;
-- Adjust interval up and down
adjust_interval_up <= ‘1’;
wait for 10 ns;
start <= ‘1’;
stop <= ‘0’;
adjust_interval_up <= ‘0’;
wait for 30 ns;
start <= ‘0’;
stop <= ‘1’;
adjust_interval_down <= ‘1’;
wait for 10 ns;
start <= ‘1’;
stop <= ‘0’;
adjust_interval_down <= ‘0’;
wait for 20 ns;
start <= ‘0’;
stop <= ‘1’;
adjust_interval_up <= ‘1’;
wait for 600 ns;
start <= ‘1’;
stop <= ‘0’;
adjust_interval_up <= ‘0’;
-- Wait for the timer to reach the alarm interval (60 clocks)
wait for 600 ns; – Simulate for the required time
-- Stop the timer
start <= ‘0’;
stop <= ‘1’;
wait for 100 ns;
-- Stop the clock and terminate the simulation
TbSimEnded <= ‘1’;
wait;
end process;
end tb;
**
@dejo Whoops, I made a mistake, you don’t need to include the entity when simulating. This line bellow should be the correct one:
add wave -label "count" -radix unsigned /dut/count
This is my .do file (when using Modelsim or Questa, change to the directory with all the .vhd files and the .do file and execute the command
do tb.do
):tb.do
#Creates project's library vlib work #Compiles project with VHDL93 standard: all files used in the testbench. They should be compiled in order of dependency. vcom -93 Kitchen_Timer.vhd testbench.vhd #Simulates (work is the directory, tb_Kitchen_Timer is the entity's name). #The argument -voptargs="+acc" is necessary to disable signal optimization in Questa. vsim -voptargs="+acc" -t ns work.tb_Kitchen_Timer #Show waveforms. view wave #Add specific signals. # -radix: binary, hex, dec, unsigned. # -label: wave's name. add wave -label "clk" -radix binary /clk add wave -label "reset" -radix binary /reset add wave -label "start" -radix binary /start add wave -label "stop" -radix binary /stop add wave -label "adjust_interval_up" -radix binary /adjust_interval_up add wave -label "adjust_interval_down" -radix binary /adjust_interval_down add wave -label "alarm" -radix binary /alarm add wave -label "count" -radix unsigned /dut/count add wave -label "TbClock" -radix binary /TbClock add wave -label "TbSimEnded" -radix binary /TbSimEnded #Simulate for 1500 ns. run 1500ns # Zoom to fit entire window. wave zoomfull write wave wave.ps
I’ve also included the simulation result.
@T4V0 Тhank you.
Shouldn’t the alarm signal last longer when the alarm interval is increased?
@T4V0
@dejo No, the alarm signal takes a longer time to start rather than the interval when it’s set.
You seem to have some trouble picturing the Kitchen Timer itself.
Kitchen timer
Here, when you change the time interval it’s the same as when you turn the knob. So it doesn’t last longer when you increase the timer, it just takes longer for it to activate.
@T4V0 Thank you so much.