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revert PCI_CLOCK in heartbeat project
[raggedstone] / dhwk / source / pci / cont_fsm.vhd
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696ded12 1-- J.STELZNER
2-- INFORMATIK-3 LABOR
3-- 23.08.2006
4-- File: CONT_FSM.VHD
5
6library ieee;
2612d712 7use ieee.std_logic_1164.all;
696ded12 8
9entity CONT_FSM is
2612d712 10 port
11 (
12 PCI_CLOCK :in std_logic;
13 PCI_RSTn :in std_logic;
14 IO_READ :in std_logic;
15 IO_WRITE :in std_logic;
16 CONF_READ :in std_logic;
17 CONF_WRITE :in std_logic;
18 FIFO_READ :in std_logic;
19 READ :out std_logic;--> MUX_SEL(1) , OE_PCI_AD
20 PERR_CHECK :out std_logic;
21 DEVSELn :out std_logic;
22 OE_PCI_PAR :out std_logic;
23 OE_PCI_PERR :out std_logic;
24 TRDYn :out std_logic;
25 PCI_TRDYn :out std_logic; -- s/t/s
26 PCI_STOPn :out std_logic; -- s/t/s
27 PCI_DEVSELn :out std_logic; -- s/t/s
28 FIFO_RDn :out std_logic
29 );
30end entity CONT_FSM;
696ded12 31
32architecture CONT_FSM_DESIGN of CONT_FSM is
33
34
35
2612d712 36 --**********************************************************
37 --*** CONTROL FSM CODIERUNG ***
38 --**********************************************************
39 --
40 --
41 --
42 -- |----------- HELP
43 -- ||---------- FIFO_READn
44 -- |||--------- OE_PCI_PERR
45 -- ||||-------- PERR_CHECK
46 -- |||||------- TRDYn
47 -- ||||||------ STOPn
48 -- |||||||----- DEVSELn
49 -- ||||||||---- OE_PCI_PAR
50 -- |||||||||--- OE_CONTROL
51 -- ||||||||||-- READ / MUX_SEL(1) / OE_PCI_AD
52 -- ||||||||||
53 constant ST_IDLE :std_logic_vector (9 downto 0) := "0100111000";-- 138
696ded12 54
2612d712 55 constant ST_READ_1 :std_logic_vector (9 downto 0) := "0100110011";-- 133
56 constant ST_READ_2 :std_logic_vector (9 downto 0) := "0100000111";-- 107
57 constant ST_READ_3 :std_logic_vector (9 downto 0) := "0100111111";-- 13F
696ded12 58
2612d712 59 constant ST_RD_FIFO_1 :std_logic_vector (9 downto 0) := "0000110011";-- 033
60 constant ST_RD_FIFO_2 :std_logic_vector (9 downto 0) := "1100110011";-- 233
696ded12 61
62
2612d712 63 constant ST_WRITE_1 :std_logic_vector (9 downto 0) := "0111110010";-- 1F2
64 constant ST_WRITE_2 :std_logic_vector (9 downto 0) := "0110000010";-- 182
65 constant ST_WRITE_3 :std_logic_vector (9 downto 0) := "0110111010";-- 1BA
696ded12 66
2612d712 67 signal CONTROL_STATE :std_logic_vector (9 downto 0);
696ded12 68
69
2612d712 70 --signal DEVSELn :std_logic;
71 signal STOPn :std_logic;
72 --signal TRDYn :std_logic;
696ded12 73
2612d712 74 --************************************************************
75 --*** FSM SPEICHER-AUTOMAT ***
76 --************************************************************
696ded12 77
2612d712 78 attribute syn_state_machine : boolean;
79 attribute syn_state_machine of CONTROL_STATE : signal is false;
696ded12 80
81begin
82
2612d712 83 --**********************************************************
84 --*** CONTROL FSM ***
85 --**********************************************************
696ded12 86
2612d712 87 process (PCI_CLOCK, PCI_RSTn)
88 begin
89 if PCI_RSTn = '0' then CONTROL_STATE <= ST_IDLE;
696ded12 90
e687cadb 91 elsif (rising_edge(PCI_CLOCK)) then
696ded12 92
2612d712 93 case CONTROL_STATE is
94 when ST_IDLE =>
95 if IO_READ = '1' then
96 CONTROL_STATE <= ST_READ_1;
696ded12 97
2612d712 98 elsif CONF_READ = '1' then
99 CONTROL_STATE <= ST_READ_1;
696ded12 100
2612d712 101 elsif IO_WRITE = '1' then
102 CONTROL_STATE <= ST_WRITE_1;
696ded12 103
2612d712 104 elsif CONF_WRITE = '1' then
105 CONTROL_STATE <= ST_WRITE_1;
696ded12 106
2612d712 107 else CONTROL_STATE <= ST_IDLE;
108 end if;
696ded12 109
2612d712 110 -- when ST_READ_1 =>
111 -- CONTROL_STATE <= ST_READ_2;
696ded12 112
2612d712 113 when ST_READ_1 =>
114 if FIFO_READ = '1' then
115 CONTROL_STATE <= ST_RD_FIFO_1;
116 else
117 CONTROL_STATE <= ST_READ_2;
118 end if;
696ded12 119
2612d712 120 when ST_READ_2 =>
121 CONTROL_STATE <= ST_READ_3;
696ded12 122
2612d712 123 when ST_READ_3 =>
124 CONTROL_STATE <= ST_IDLE;
696ded12 125
2612d712 126 when ST_RD_FIFO_1=>
127 CONTROL_STATE <= ST_RD_FIFO_2;
696ded12 128
2612d712 129 when ST_RD_FIFO_2=>
130 CONTROL_STATE <= ST_READ_2;
696ded12 131
2612d712 132 when ST_WRITE_1 =>
133 CONTROL_STATE <= ST_WRITE_2;
696ded12 134
2612d712 135 when ST_WRITE_2 =>
136 CONTROL_STATE <= ST_WRITE_3;
696ded12 137
2612d712 138 when ST_WRITE_3 =>
139 CONTROL_STATE <= ST_IDLE;
696ded12 140
2612d712 141 when others =>
142 CONTROL_STATE <= ST_IDLE;
696ded12 143
2612d712 144 end case; -- COMM_STATE
145 end if; -- CLOCK
146end process; -- PROCESS
696ded12 147
2612d712 148
149READ <= CONTROL_STATE(0);
150--OE_CONTROL <= CONTROL_STATE(1);
151OE_PCI_PAR <= CONTROL_STATE(2);
152DEVSELn <= CONTROL_STATE(3);
153STOPn <= CONTROL_STATE(4);
154TRDYn <= CONTROL_STATE(5);
155PERR_CHECK <= CONTROL_STATE(6);
156OE_PCI_PERR <= CONTROL_STATE(7);
157
158FIFO_RDn <= CONTROL_STATE(8);
159
160
161PCI_DEVSELn <= CONTROL_STATE(3) when CONTROL_STATE(1) = '1' else 'Z';
162PCI_STOPn <= STOPn when CONTROL_STATE(1) = '1' else 'Z';
163PCI_TRDYn <= CONTROL_STATE(5) when CONTROL_STATE(1) = '1' else 'Z';
164
165end architecture CONT_FSM_DESIGN;
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