URL https://opencores.org/ocsvn/mcip_open/mcip_open/trunk

Subversion Repositories mcip_open

[/] [mcip_open/] [trunk/] [MCIPopen_XilinxISEproject/] [MCIPopen.vhd] - Blame information for rev 4

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--------------------------------------------------------------------------------
-- Company:        Ferhat Abbas University - Algeria
-- Engineer:       Ibrahim MEZZAH
-- Progect Supervisor: Dr H. Chemali
-- Create Date:    july 2015
-- Design Name:    MCIP open
-- Module Name:    MCIPopen
-- Project Name:   Microcontroller IP (MCIP)
-- Target Device:  xc3s500e-4fg320
-- Tool versions:  Xilinx ISE 14
-- Description:  "MCIP open" is a light vertion of MCIP core, it is compatible
--                 whith Microchip PIC18 microcontrolle.
-- Revision:             
-- Revision 0
--------------------------------------------------------------------------------
library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
 
 
entity MCIPopen is
    Generic ( STKPTR_length : integer := 5;  -- Stack Pointer Length -- < 6
                                  STVREN : std_logic := '1';    -- Stack Overflow/Underflow Reset Enable bit
                                  WDTPS : std_logic_vector(3 downto 0) := "0100"; -- Watchdog Timer Postscale Select bits
                                  WDTEN : std_logic := '0'); -- Watchdog Timer enable bit
 
    Port ( nreset             : in std_logic;
           clock              : in std_logic;
                          Wdt_clock                             : in std_logic;
           Instruction        : in std_logic_vector(15 downto 0);
                          clock_out          : out std_logic;
                          nresetDevice       : out std_logic;
                          Q1                 : out std_logic;
                          Q4                 : out std_logic;
                          RE_ram             : out std_logic;
                          WE_ram             : out std_logic;
           Istruction_address : out std_logic_vector(20 downto 0);
           Data_address       : out std_logic_vector(11 downto 0);
           Data_Bus           : inout std_logic_vector(7 downto 0);
           PORTA              : inout std_logic_vector(7 downto 0);
           PORTB              : inout std_logic_vector(7 downto 0);
           PORTC              : inout std_logic_vector(7 downto 0);
           PORTD              : inout std_logic_vector(7 downto 0) );
end MCIPopen;
 
architecture mapping of MCIPopen is
 
component CPU
    Generic ( STKPTR_length : integer := 5;
                                  STVREN : std_logic := '1');
    Port ( nreset             : in std_logic;
           Q                  : in std_logic_vector(1 to 4);
           Instruction        : in std_logic_vector(15 downto 0);
           DATA               : inout std_logic_vector(7 downto 0);
           Istruction_address : out std_logic_vector(20 downto 0);
           Data_address       : out std_logic_vector(11 downto 0);
           address_latch_port : out std_logic_vector(3 downto 0);
                          r_w_ram            : out std_logic_vector(1 downto 0);
                          r_w_port           : out std_logic_vector(1 downto 0);
                          r_w_wdt            : out std_logic_vector(1 downto 0);
                          soft_reset_enable  : out std_logic;
                          sleep_mode_enable  : out std_logic;
                          clear_watchdog     : out std_logic;
                          stack_overflow     : out std_logic );
end component CPU;
 
component PORTs
    Port ( nreset        : in std_logic;
           Q1            : in std_logic;
           Q4            : in std_logic;
                          RE            : in std_logic;
                          WE            : in std_logic;
           SFRs_Address  : in std_logic_vector(3 downto 0);
           DATA          : inout std_logic_vector(7 downto 0);
           PORTA         : inout std_logic_vector(7 downto 0);
           PORTB         : inout std_logic_vector(7 downto 0);
           PORTC         : inout std_logic_vector(7 downto 0);
           PORTD         : inout std_logic_vector(7 downto 0));
end component PORTs;
 
component reset_module
    Port ( clock                                : in std_logic;
           nExternal_reset      : in std_logic;
                          Soft_reset            : in std_logic;
           WDT_reset                    : in std_logic;
           Stack_reset          : in std_logic;
           nreset                               : out std_logic);
end component reset_module;
 
component PLL
    Port ( clock             : in std_logic;
           nreset            : in std_logic;
           IDLEN                                  : in std_logic;
           Sleep_mode_enable : in std_logic;
           Q1                : out std_logic;
           Q2                : out std_logic;
           Q3                : out std_logic;
           Q4                : out std_logic;
           internal_clock         : out std_logic);
end component PLL;
 
component Watchdog
         Generic(WDTPS : std_logic_vector(3 downto 0) := "0100";
                                WDTEN : std_logic := '0');
    Port ( nreset       : in std_logic;
           WDT_clock    : in std_logic;
           Q1           : in std_logic;
           Q4           : in std_logic;
           RE           : in std_logic;
           WE           : in std_logic;
           clrWDT       : in std_logic;
           Sleep                   : in std_logic;
           DATA         : inout std_logic_vector(7 downto 0);
           WDT_reset    : out std_logic;
           WDTwake_up   : out std_logic);
end component Watchdog;
 
 
        signal Q                  : std_logic_vector(1 to 4);
        signal address_latch_port : std_logic_vector(3 downto 0);
        signal r_w_port           : std_logic_vector(1 downto 0);
        signal r_w_wdt            : std_logic_vector(1 downto 0);
        signal r_w_ram                    : std_logic_vector(1 downto 0);
        signal soft_reset_enable  : std_logic;
        signal sleep_mode_enable  : std_logic;
        signal sleep_mode                         : std_logic;
        signal clear_watchdog     : std_logic;
        signal WDTwake_up                    : std_logic;
        signal WDT_reset                     : std_logic;
        signal stack_overflow     : std_logic;
        signal nreset_device      : std_logic;
        signal clock_div4         : std_logic;
 
begin
 
CPU_block : CPU
Generic map( STKPTR_length => STKPTR_length,
                                 STVREN => STVREN)
Port map ( nreset             => nreset_device,
           Q                  => Q,
           Instruction        => Instruction,
           DATA               => DATA_BUS,
           Istruction_address => Istruction_address,
           Data_address       => Data_address,
           address_latch_port => address_latch_port,
                          r_w_ram            => r_w_ram,
                          r_w_port           => r_w_port,
                          r_w_wdt            => r_w_wdt,
                          soft_reset_enable  => soft_reset_enable,
                          sleep_mode_enable  => sleep_mode_enable,
                          clear_watchdog     => clear_watchdog,
                          stack_overflow     => stack_overflow );
 
Ports_block : PORTs
Port map ( nreset        => nreset_device,
           Q1            => Q(1),
           Q4            => Q(4),
                          RE            => r_w_port(1),
                          WE            => r_w_port(0),
           SFRs_Address  => address_latch_port,
           DATA          => DATA_BUS,
           PORTA         => PORTA,
           PORTB         => PORTB,
           PORTC         => PORTC,
           PORTD         => PORTD);
 
Reset_u: reset_module
Port map ( clock                                => clock,
           nExternal_reset      => nreset,
                          Soft_reset            => soft_reset_enable,
           WDT_reset                    => WDT_reset,
           Stack_reset          => stack_overflow,
           nreset                               => nreset_device);
 
PLL_u: PLL
Port map ( clock             => clock,
           nreset            => nreset_device,
           IDLEN                                  => '0',
           Sleep_mode_enable => sleep_mode,
           Q1                => Q(1),
           Q2                => Q(2),
           Q3                => Q(3),
           Q4                => Q(4),
           internal_clock         => clock_div4);
 
Watchdog_u: Watchdog
Generic map(WDTPS => WDTPS,
                                WDTEN => WDTEN)
Port map ( nreset       => nreset_device,
           WDT_clock    => Wdt_clock,
           Q1           => Q(1),
           Q4           => Q(4),
           RE           => r_w_wdt(1),
           WE           => r_w_wdt(0),
           clrWDT       => clear_watchdog,
           Sleep                   => sleep_mode_enable,
           DATA         => DATA_BUS,
           WDT_reset    => WDT_reset,
           WDTwake_up   => WDTwake_up);
 
 
        Q1 <= Q(1);
        Q4 <= Q(4);
        RE_ram <= r_w_ram(1);
        WE_ram <= r_w_ram(0);
        clock_out    <= clock_div4;
        nresetDevice <= nreset_device;
        sleep_mode <= '1' when sleep_mode_enable = '1' and WDTwake_up = '0' else '0';
 
end mapping;

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Subversion Repositories mcip_open

[/] [mcip_open/] [trunk/] [MCIPopen_XilinxISEproject/] [MCIPopen.vhd] - Blame information for rev 4

Line No.	Rev	Author	Line
1	4	mezzah	`--------------------------------------------------------------------------------`
2			`-- Company: Ferhat Abbas University - Algeria`
3			`-- Engineer: Ibrahim MEZZAH`
4			`-- Progect Supervisor: Dr H. Chemali`
5			`-- Create Date: july 2015`
6			`-- Design Name: MCIP open`
7			`-- Module Name: MCIPopen`
8			`-- Project Name: Microcontroller IP (MCIP)`
9			`-- Target Device: xc3s500e-4fg320`
10			`-- Tool versions: Xilinx ISE 14`
11			`-- Description: "MCIP open" is a light vertion of MCIP core, it is compatible`
12			`-- whith Microchip PIC18 microcontrolle.`
13			`-- Revision:`
14			`-- Revision 0`
15			`--------------------------------------------------------------------------------`
16			`library IEEE;`
17			`use IEEE.STD_LOGIC_1164.ALL;`
18
19
20			`entity MCIPopen is`
21			`Generic ( STKPTR_length : integer := 5; -- Stack Pointer Length -- < 6`
22			`STVREN : std_logic := '1'; -- Stack Overflow/Underflow Reset Enable bit`
23			`WDTPS : std_logic_vector(3 downto 0) := "0100"; -- Watchdog Timer Postscale Select bits`
24			`WDTEN : std_logic := '0'); -- Watchdog Timer enable bit`
25
26			`Port ( nreset : in std_logic;`
27			`clock : in std_logic;`
28			`Wdt_clock : in std_logic;`
29			`Instruction : in std_logic_vector(15 downto 0);`
30			`clock_out : out std_logic;`
31			`nresetDevice : out std_logic;`
32			`Q1 : out std_logic;`
33			`Q4 : out std_logic;`
34			`RE_ram : out std_logic;`
35			`WE_ram : out std_logic;`
36			`Istruction_address : out std_logic_vector(20 downto 0);`
37			`Data_address : out std_logic_vector(11 downto 0);`
38			`Data_Bus : inout std_logic_vector(7 downto 0);`
39			`PORTA : inout std_logic_vector(7 downto 0);`
40			`PORTB : inout std_logic_vector(7 downto 0);`
41			`PORTC : inout std_logic_vector(7 downto 0);`
42			`PORTD : inout std_logic_vector(7 downto 0) );`
43			`end MCIPopen;`
44
45			`architecture mapping of MCIPopen is`
46
47			`component CPU`
48			`Generic ( STKPTR_length : integer := 5;`
49			`STVREN : std_logic := '1');`
50			`Port ( nreset : in std_logic;`
51			`Q : in std_logic_vector(1 to 4);`
52			`Instruction : in std_logic_vector(15 downto 0);`
53			`DATA : inout std_logic_vector(7 downto 0);`
54			`Istruction_address : out std_logic_vector(20 downto 0);`
55			`Data_address : out std_logic_vector(11 downto 0);`
56			`address_latch_port : out std_logic_vector(3 downto 0);`
57			`r_w_ram : out std_logic_vector(1 downto 0);`
58			`r_w_port : out std_logic_vector(1 downto 0);`
59			`r_w_wdt : out std_logic_vector(1 downto 0);`
60			`soft_reset_enable : out std_logic;`
61			`sleep_mode_enable : out std_logic;`
62			`clear_watchdog : out std_logic;`
63			`stack_overflow : out std_logic );`
64			`end component CPU;`
65
66			`component PORTs`
67			`Port ( nreset : in std_logic;`
68			`Q1 : in std_logic;`
69			`Q4 : in std_logic;`
70			`RE : in std_logic;`
71			`WE : in std_logic;`
72			`SFRs_Address : in std_logic_vector(3 downto 0);`
73			`DATA : inout std_logic_vector(7 downto 0);`
74			`PORTA : inout std_logic_vector(7 downto 0);`
75			`PORTB : inout std_logic_vector(7 downto 0);`
76			`PORTC : inout std_logic_vector(7 downto 0);`
77			`PORTD : inout std_logic_vector(7 downto 0));`
78			`end component PORTs;`
79
80			`component reset_module`
81			`Port ( clock : in std_logic;`
82			`nExternal_reset : in std_logic;`
83			`Soft_reset : in std_logic;`
84			`WDT_reset : in std_logic;`
85			`Stack_reset : in std_logic;`
86			`nreset : out std_logic);`
87			`end component reset_module;`
88
89			`component PLL`
90			`Port ( clock : in std_logic;`
91			`nreset : in std_logic;`
92			`IDLEN : in std_logic;`
93			`Sleep_mode_enable : in std_logic;`
94			`Q1 : out std_logic;`
95			`Q2 : out std_logic;`
96			`Q3 : out std_logic;`
97			`Q4 : out std_logic;`
98			`internal_clock : out std_logic);`
99			`end component PLL;`
100
101			`component Watchdog`
102			`Generic(WDTPS : std_logic_vector(3 downto 0) := "0100";`
103			`WDTEN : std_logic := '0');`
104			`Port ( nreset : in std_logic;`
105			`WDT_clock : in std_logic;`
106			`Q1 : in std_logic;`
107			`Q4 : in std_logic;`
108			`RE : in std_logic;`
109			`WE : in std_logic;`
110			`clrWDT : in std_logic;`
111			`Sleep : in std_logic;`
112			`DATA : inout std_logic_vector(7 downto 0);`
113			`WDT_reset : out std_logic;`
114			`WDTwake_up : out std_logic);`
115			`end component Watchdog;`
116
117
118			`signal Q : std_logic_vector(1 to 4);`
119			`signal address_latch_port : std_logic_vector(3 downto 0);`
120			`signal r_w_port : std_logic_vector(1 downto 0);`
121			`signal r_w_wdt : std_logic_vector(1 downto 0);`
122			`signal r_w_ram : std_logic_vector(1 downto 0);`
123			`signal soft_reset_enable : std_logic;`
124			`signal sleep_mode_enable : std_logic;`
125			`signal sleep_mode : std_logic;`
126			`signal clear_watchdog : std_logic;`
127			`signal WDTwake_up : std_logic;`
128			`signal WDT_reset : std_logic;`
129			`signal stack_overflow : std_logic;`
130			`signal nreset_device : std_logic;`
131			`signal clock_div4 : std_logic;`
132
133			`begin`
134
135			`CPU_block : CPU`
136			`Generic map( STKPTR_length => STKPTR_length,`
137			`STVREN => STVREN)`
138			`Port map ( nreset => nreset_device,`
139			`Q => Q,`
140			`Instruction => Instruction,`
141			`DATA => DATA_BUS,`
142			`Istruction_address => Istruction_address,`
143			`Data_address => Data_address,`
144			`address_latch_port => address_latch_port,`
145			`r_w_ram => r_w_ram,`
146			`r_w_port => r_w_port,`
147			`r_w_wdt => r_w_wdt,`
148			`soft_reset_enable => soft_reset_enable,`
149			`sleep_mode_enable => sleep_mode_enable,`
150			`clear_watchdog => clear_watchdog,`
151			`stack_overflow => stack_overflow );`
152
153			`Ports_block : PORTs`
154			`Port map ( nreset => nreset_device,`
155			`Q1 => Q(1),`
156			`Q4 => Q(4),`
157			`RE => r_w_port(1),`
158			`WE => r_w_port(0),`
159			`SFRs_Address => address_latch_port,`
160			`DATA => DATA_BUS,`
161			`PORTA => PORTA,`
162			`PORTB => PORTB,`
163			`PORTC => PORTC,`
164			`PORTD => PORTD);`
165
166			`Reset_u: reset_module`
167			`Port map ( clock => clock,`
168			`nExternal_reset => nreset,`
169			`Soft_reset => soft_reset_enable,`
170			`WDT_reset => WDT_reset,`
171			`Stack_reset => stack_overflow,`
172			`nreset => nreset_device);`
173
174			`PLL_u: PLL`
175			`Port map ( clock => clock,`
176			`nreset => nreset_device,`
177			`IDLEN => '0',`
178			`Sleep_mode_enable => sleep_mode,`
179			`Q1 => Q(1),`
180			`Q2 => Q(2),`
181			`Q3 => Q(3),`
182			`Q4 => Q(4),`
183			`internal_clock => clock_div4);`
184
185			`Watchdog_u: Watchdog`
186			`Generic map(WDTPS => WDTPS,`
187			`WDTEN => WDTEN)`
188			`Port map ( nreset => nreset_device,`
189			`WDT_clock => Wdt_clock,`
190			`Q1 => Q(1),`
191			`Q4 => Q(4),`
192			`RE => r_w_wdt(1),`
193			`WE => r_w_wdt(0),`
194			`clrWDT => clear_watchdog,`
195			`Sleep => sleep_mode_enable,`
196			`DATA => DATA_BUS,`
197			`WDT_reset => WDT_reset,`
198			`WDTwake_up => WDTwake_up);`
199
200
201			`Q1 <= Q(1);`
202			`Q4 <= Q(4);`
203			`RE_ram <= r_w_ram(1);`
204			`WE_ram <= r_w_ram(0);`
205			`clock_out <= clock_div4;`
206			`nresetDevice <= nreset_device;`
207			`sleep_mode <= '1' when sleep_mode_enable = '1' and WDTwake_up = '0' else '0';`
208
209			`end mapping;`