如何解决VHDL 测试平台代码未显示 1 位全加器的输出结果
此处编写了一些警告,但未发现错误,但此全加器输出波形和和进位的测试台未显示。在进位和总和输出中显示了你,但输入不是很好,只有和和进位输出是问题为什么,在这里有一些警告,有时我对该警告有疑问,在这里我附上了图像,您可以参考它并给我一些解决这个问题的建议。 enter image description here
-- 1-bit full adder testbench
-- A testbench is used to rigorously tests a design that you have made.
-- The output of the testbench should allow the designer to see if
-- the design worked. The testbench should also report where the testbench
-- Failed.
LIBRARY IEEE;
use IEEE.STD_LOGIC_1164.ALL;
-- Declare a testbench. Notice that the testbench does not have any input
-- or output ports.
entity tb_1bitfulladder is
end tb_1bitfulladder;
-- Describes the functionality of the tesbench.
architecture MY_TEST of tb_1bitfulladder is
-- The object that we wish to test is declared as a component of
-- the test bench. Its functionality has already been described elsewhere.
-- This simply describes what the object's inputs and outputs are,it
-- does not actually create the object.
component FULL_ADDER
port( x,y,Cin : in STD_LOGIC;
s,Cout : out STD_LOGIC );
end component;
-- Specifies which description of the adder you will use.
--for U1: FULL_ADDER use entity WORK.FULL_ADDER(MY_DATAFLOW);
-- Create a set of signals which will be associated with both the inputs
-- and outputs of the component that we wish to test.
signal X_s,Y_s : STD_LOGIC:='0';
signal CIN_s : STD_LOGIC:='0';
signal SUM_s : STD_LOGIC;
signal COUT_s : STD_LOGIC;
-- This is where the testbench for the FULL_ADDER actually begins.
BEGIN
-- Create a 1-bit full adder in the testbench.
-- The signals specified above are mapped to their appropriate
-- roles in the 1-bit full adder which we have created.
UUT: FULL_ADDER port map (x=>X_s,--(//this line has some warning i put it below END Othecode)
y=>Y_s,Cin=>CIN_s,s => SUM_s,Cout=> COUT_s
);
-- The process is where the actual testing is done.
-- stimulus process
stim_proc:process
begin
-- We are Now going to set the inputs of the adder and test
-- the outputs to verify the functionality of our 1-bit full adder.
-- Case 0 : 0+0 with carry in of 0.
-- Set the signals for the inputs.
X_s <= '0';
Y_s <= '0';
CIN_s <= '0';
-- Wait a short amount of time and then check to see if the
-- outputs are what they should be. If not,then report an error
-- so that we will kNow there is a problem.
wait for 10 ns;
assert ( SUM_s = '0' ) report "Failed Case 0 - SUM" severity error;
assert ( COUT_s = '0' ) report "Failed Case 0 - COUT" severity error;
wait for 40 ns;
-- Carry out the same process outlined above for the other 7 cases.
-- Case 1 : 0+0 with carry in of 1.
X_s <= '0';
Y_s <= '0';
CIN_s <= '1';
wait for 10 ns;
assert ( SUM_s = '1' ) report "Failed Case 1 - SUM" severity error;
assert ( COUT_s = '0' ) report "Failed Case 1 - COUT" severity error;
wait for 40 ns;
-- Case 2 : 0+1 with carry in of 0.
X_s <= '0';
Y_s <= '1';
CIN_s <= '0';
wait for 10 ns;
assert ( SUM_s = '1' ) report "Failed Case 2 - SUM" severity error;
assert ( COUT_s = '0' ) report "Failed Case 2 - COUT" severity error;
wait for 40 ns;
-- Case 3 : 0+1 with carry in of 1.
X_s <= '0';
Y_s <= '1';
CIN_s <= '1';
wait for 10 ns;
assert ( SUM_s = '0' ) report "Failed Case 3 - SUM" severity error;
assert ( COUT_s = '1' ) report "Failed Case 3 - COUT" severity error;
wait for 40 ns;
-- Case 4 : 1+0 with carry in of 0.
X_s <= '1';
Y_s <= '0';
CIN_s <= '0';
wait for 10 ns;
assert ( SUM_s = '1' ) report "Failed Case 4 - SUM" severity error;
assert ( COUT_s = '0' ) report "Failed Case 4 - COUT" severity error;
wait for 40 ns;
-- Case 5 : 1+0 with carry in of 1.
X_s <= '1';
Y_s <= '0';
CIN_s <= '1';
wait for 10 ns;
assert ( SUM_s = '0' ) report "Failed Case 5 - SUM" severity error;
assert ( COUT_s = '1' ) report "Failed Case 5 - COUT" severity error;
wait for 40 ns;
-- Case 6 : 1+1 with carry in of 0.
X_s <= '1';
Y_s <= '1';
CIN_s <= '0';
wait for 10 ns;
assert ( SUM_s = '0' ) report "Failed Case 6 - SUM" severity error;
assert ( COUT_s = '1' ) report "Failed Case 6 - COUT" severity error;
wait for 40 ns;
-- Case 7 : 1+1 with carry in of 1.
X_s <= '1';
Y_s <= '1';
CIN_s <= '1';
wait for 10 ns;
assert ( SUM_s = '1' ) report "Failed Case 7 - SUM" severity error;
assert ( COUT_s = '1' ) report "Failed Case 7 - COUT" severity error;
wait for 40 ns;
end process;
END MY_TEST;
Warning: ELAB1_0026: tb_1bitfulladder.vhd : (35,0): There is no default binding for component "FULL_ADDER". (No entity named "FULL_ADDER" was found).
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