SAP computer之program counter
Program counterThe program is stored in memory with the first instruction at binary address 0000, the second instruction at address 0001, the third at address 0010 and so on.The program counter, which is part of the control unit, counts from 0000 to 1111. Its job is to send to the memory the address of next instruction.
The program counter is reset to 0000 before computer run. When the computer run begins, the program counter sends address 0000 to the memory. The program counter is then incremented to get 0001. After the first instruction is fetched and executed, the program counter sends address 0001 to the memory. Again the program counter is incremented. After the second isntruction is fetched and executed, the program counter sends address 0010 to the memory. In this way, the program counter is keeping track of the next instruction to be fetched and executed.
The program counter is like someone pointing at a list of instruction, saying do this first, do this second, etc. This is why the program counter is sometimes called a pointer; it points to an address in memory where something important is being stored.
1 library IEEE;
2 use ieee.std_logic_1164.all;
3 use ieee.std_logic_unsigned.all;
4
5 entity PC is
6 port
7 (
8 EP : instd_logic; --! Active high output enable from PC, or tri-state
9 CLR : instd_logic; --! Active high asynchronous clear
10 CLK : instd_logic; --! Falling edge clock
11 CP : instd_logic; --! Active high enable PC to count
12 Q : out std_logic_vector(3 downto 0) --! 4-bit PC output
13 );
14 end PC ;
15
16 architecture beh of PC is
17
18 signal count : std_logic_vector(3 downto 0);
19
20 begin
21
22 process (CLR,EP,CP,CLK,count)
23 begin
24 if CLR = '1' then
25 Q <= "0000";
26 count <= "0000";
27 elsif CP = '1' then
28 if (CLK'event and CLK = '0') then
29 if count < "1111" then
30 count <= count + 1;
31 else
32 count <= "0000";
33 end if;
34 end if;
35 end if;
36
37 if EP = '0' then
38 Q <= "ZZZZ";
39 else
40 Q <= count;
41 end if;
42
43 end process;
44
45 end beh;
Question: why do not use the following code in process?
1 begin
2 if EP = '0' then
3 Q <= "ZZZZ";
4 elsif CLR = '1' then
5 Q <= "0000";
6 count <= "0000";
7 elsif CP = '1' then
8 if(CLK'event and CLK = '0') then
9 if count < "1111" then
10 count <= count + 1;
11 else
12 count <= "0000";
13 end if;
14 end if;
15 end if;
16
17 end process;
Answer: first code, line 40, Q <= count
Own code for ASIC: use package ieee.numeric_std
1 library IEEE;
2 use ieee.std_logic_1164.all;
3 use ieee.numeric_std.all;
4
5 entity PC is
6 port
7 (
8 EP : instd_logic; --! Active high output enable from PC, or tri-state
9 CLR : instd_logic; --! Active high asynchronous clear
10 CLK : instd_logic; --! Falling edge clock
11 CP : instd_logic; --! Active high enable PC to count
12 Q : out std_logic_vector(3 downto 0) --! 4-bit PC output
13 );
14 end PC ;
15
16 architecture beh of PC is
17
18 signal count : std_logic_vector(3 downto 0);
19
20 begin
21
22 process (CLR,EP,CP,CLK,count)
23 begin
24 if CLR = '1' then
25 -- Q <= "0000";
26 count <= "0000";
27 elsif CP = '1' then
28 if (CLK'event and CLK = '0') then
29 if count < "1111" then
30 count <= std_logic_vector(unsigned(count) + 1);
31 else
32 count <= "0000";
33 end if;
34 end if;
35 end if;
36
37 if EP = '0' then
38 Q <= "ZZZZ"; -- not good, in ASIC use only std_logic signal state '0', '1'
39 else
40 Q <= count;
41 end if;
42
43 end process;
44
45 end beh;
Question: In ASIC design, why use only std_logic signal states '0', '1'(and 'Z' for FPGA)???
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