URL https://opencores.org/ocsvn/pmodsf3driver/pmodsf3driver/trunk

Subversion Repositories pmodsf3driver

[/] [pmodsf3driver/] [trunk/] [hw/] [sources/] [Top_PmodSF3Driver.vhd] - Blame information for rev 2

Details | Compare with Previous | View Log


------------------------------------------------------------------------
-- Engineer:    Dalmasso Loic
-- Create Date: 11/03/2025
-- Module Name: Top_PmodSF3Driver
-- Description:
--      Top Module including Pmod SF3 Driver for the 32 MB NOR Flash memory MT25QL256ABA.
--
-- Ports
--              Input   -       i_sys_clock: System Input Clock
--              Input   -       i_reset: Module Reset ('0': No Reset, '1': Reset)
--              Input   -       i_start: Start Pmod SF3 Transmission ('0': No Start, '1': Start)
--              Output  -       o_led: Pmod SF3 Data from Memory
--              Output  -       o_reset: Pmod SF3 Reset ('0': Reset, '1': No Reset)
--              Output  -       o_sclk: Pmod SF3SPI Serial Clock
--              In/Out  -       io_dq: Pmod SF3SPI Data Lines (Simple, Dual or Quad Modes)
--              Output  -       o_ss: Pmod SF3 SPI Slave Select Line ('0': Enable, '1': Disable)
------------------------------------------------------------------------
 
LIBRARY IEEE;
USE IEEE.STD_LOGIC_1164.ALL;
USE IEEE.NUMERIC_STD.ALL;
 
ENTITY Top_PmodSF3Driver is
 
PORT(
        i_sys_clock: IN STD_LOGIC;
    i_reset: IN STD_LOGIC;
    i_start: IN STD_LOGIC;
    o_led: OUT UNSIGNED(15 downto 0);
    -- PMode Ports
    o_reset: OUT STD_LOGIC;
        o_sclk: OUT STD_LOGIC;
        io_dq: INOUT STD_LOGIC_VECTOR(3 downto 0);
        o_ss: OUT STD_LOGIC
);
 
END Top_PmodSF3Driver;
 
ARCHITECTURE Behavioral of Top_PmodSF3Driver is
 
------------------------------------------------------------------------
-- Component Declarations
------------------------------------------------------------------------
 
COMPONENT clk_wiz_0
PORT(
    clk_out1: OUT STD_LOGIC;
    clk_in1: IN STD_LOGIC
);
 
END COMPONENT;
 
COMPONENT PmodSF3Driver is
 
GENERIC(
        sys_clock: INTEGER := 100_000_000;
        max_data_byte: INTEGER := 1
);
 
PORT(
        i_sys_clock: IN STD_LOGIC;
        i_reset: IN STD_LOGIC;
    i_start: IN STD_LOGIC;
    i_rw: IN STD_LOGIC;
    i_command: IN UNSIGNED(7 downto 0);
        i_addr_bytes: IN INTEGER range 0 to 4;
    i_addr: IN UNSIGNED(23 downto 0);
    i_data_bytes: IN INTEGER range 0 to max_data_byte;
        i_data: IN UNSIGNED((max_data_byte*8)-1 downto 0);
        o_data: OUT UNSIGNED((max_data_byte*8)-1 downto 0);
        o_data_ready: OUT STD_LOGIC;
    o_ready: OUT STD_LOGIC;
        o_reset: OUT STD_LOGIC;
        o_sclk: OUT STD_LOGIC;
        io_dq: INOUT STD_LOGIC_VECTOR(3 downto 0);
        o_ss: OUT STD_LOGIC;
        o_spi_using_sys_freq: OUT STD_LOGIC
);
 
END COMPONENT;
 
------------------------------------------------------------------------
-- Constant Declarations
------------------------------------------------------------------------
-- Pmod SF3 Driver Read/Write Mode
constant PMOD_DRIVER_READ_MODE: STD_LOGIC := '1';
 
-- Pmod SF3 Driver Max Data Bytes
constant PMOD_DRIVER_MAX_DATA_BYTES: INTEGER := 1;
 
-- Pmod SF3 Read Volatile Dummy Cycles
constant READ_VOLATILE_DC_COMMAND: UNSIGNED(7 downto 0) := x"85";
 
------------------------------------------------------------------------
-- Signal Declarations
------------------------------------------------------------------------
-- Top Pmod SF3 Driver States
TYPE topPmodPSF3State is (  IDLE,
                            CONFIG_READ_VOLATILE_DC, START_READ_VOLATILE_DC, READ_VOLATILE_DC,
                            COMPLETED);
signal state: topPmodPSF3State := IDLE;
signal next_state: topPmodPSF3State;
 
-- Pmod SF3 System Clock
signal pmod_sys_clock: STD_LOGIC := '0';
 
-- Pmod SF3 Driver Reset
signal pmod_driver_reset: STD_LOGIC := '0';
 
-- Pmod SF3 Driver Start
signal pmod_driver_start: STD_LOGIC := '0';
 
-- Pmod SF3 Driver Read/Write Mode
signal pmod_driver_rw: STD_LOGIC := '0';
 
-- Pmod SF3 Driver Command Byte
signal pmod_driver_command: UNSIGNED(7 downto 0) := (others => '0');
 
-- Pmod SF3 Driver Address
signal pmod_driver_addr_bytes: INTEGER range 0 to 4 := 0;
signal pmod_driver_addr: UNSIGNED(23 downto 0) := (others => '0');
 
-- Pmod SF3 Driver Data
signal pmod_driver_data_bytes: INTEGER range 0 to PMOD_DRIVER_MAX_DATA_BYTES := 0;
signal pmod_driver_data_in: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');
signal pmod_driver_data_out: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');
signal pmod_driver_data_out_ready: STD_LOGIC := '0';
 
-- Pmod SF3 Driver Ready
signal pmod_driver_ready: STD_LOGIC := '0';
 
-- Pmod SF3 Driver SPI using Sys Clock
signal pmod_driver_spi_using_sys_clock: STD_LOGIC := '0';
 
-- Data from Memory Register
signal data_from_mem: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');
 
------------------------------------------------------------------------
-- Module Implementation
------------------------------------------------------------------------
begin
 
    --------------------------------------
        -- Top Pmod SF3 Driver System Clock --
        --------------------------------------
    inst_clk_wiz_0: clk_wiz_0 port map(clk_out1 => pmod_sys_clock, clk_in1 => i_sys_clock);
 
        ---------------------------------------
        -- Top Pmod SF3 Driver State Machine --
        ---------------------------------------
        -- Top Pmod SF3 State
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Reset
                        if (i_reset = '1') then
                                state <= IDLE;
                        else
                                state <= next_state;
                        end if;
 
                end if;
        end process;
 
        -- Top Pmod SF3 Next State
        process(state, i_start, pmod_driver_ready)
        begin
                case state is
                        -- IDLE
                        when IDLE =>    if (i_start = '1') then
                                                                next_state <= CONFIG_READ_VOLATILE_DC;
                                                        else
                                                                next_state <= IDLE;
                                                        end if;
 
            -- Config Read Volatile Dummy Cycles
            when CONFIG_READ_VOLATILE_DC => next_state <= START_READ_VOLATILE_DC;
 
                        -- Start Read Volatile Dummy Cycles
                        when START_READ_VOLATILE_DC =>
                            if (pmod_driver_ready = '0') then
                                                                next_state <= READ_VOLATILE_DC;
                                                        else
                                                                next_state <= START_READ_VOLATILE_DC;
                                                        end if;
 
                        -- Read Volatile Dummy Cycles
                        when READ_VOLATILE_DC =>
                            if (pmod_driver_ready = '1') then
                                                                next_state <= COMPLETED;
                                                        else
                                                                next_state <= READ_VOLATILE_DC;
                                                        end if;
 
                        -- Completed
                        when others => next_state <= COMPLETED;
                end case;
        end process;
 
    ---------------------------
        -- Pmod SF3 Driver Reset --
        ---------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Start Pmod SF3 Driver
                        if (state = IDLE) then
                                pmod_driver_reset <= '1';
                        else
                pmod_driver_reset <= '0';
                        end if;
                end if;
        end process;
 
        ---------------------------
        -- Pmod SF3 Driver Start --
        ---------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Start Pmod SF3 Driver
                        if (state = START_READ_VOLATILE_DC) then
                                pmod_driver_start <= '1';
                        else
                pmod_driver_start <= '0';
                        end if;
                end if;
        end process;
 
        -------------------------------------
        -- Pmod SF3 Driver Read/Write Mode --
        -------------------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Start Pmod SF3 Driver
                        if (state = CONFIG_READ_VOLATILE_DC) then
                                pmod_driver_rw <= PMOD_DRIVER_READ_MODE;
                        end if;
                end if;
        end process;
 
        -----------------------------
        -- Pmod SF3 Driver Command --
        -----------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Pmod SF3 Read Volatile Dummy Cycles Command
                        if (state = CONFIG_READ_VOLATILE_DC) then
                                pmod_driver_command <= READ_VOLATILE_DC_COMMAND;
                        end if;
                end if;
        end process;
 
        -----------------------------
        -- Pmod SF3 Driver Address --
        -----------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Pmod SF3 Read Volatile Dummy Cycles Address
                        if (state = CONFIG_READ_VOLATILE_DC) then
                                pmod_driver_addr_bytes <= 0;
                pmod_driver_addr <= (others => '0');
                        end if;
                end if;
        end process;
 
    -------------------------------
        -- Pmod SF3 Driver Data Byte --
        -------------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Pmod SF3 Read Volatile Dummy Cycles Data Byte
                        if (state = CONFIG_READ_VOLATILE_DC) then
                                pmod_driver_data_bytes <= 1;
                        end if;
                end if;
        end process;
 
        --------------------------------
        -- Pmod SF3 Driver Data Input --
        --------------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
                        -- Pmod SF3 Read Volatile Dummy Cycles Data Input
                        if (state = CONFIG_READ_VOLATILE_DC) then
                pmod_driver_data_in <= (others => '0');
                        end if;
                end if;
        end process;
 
        ---------------------------------
        -- Pmod SF3 Driver Data Output --
        ---------------------------------
        process(pmod_sys_clock)
        begin
                if rising_edge(pmod_sys_clock) then
 
            -- Reset
            if (state = IDLE) then
                data_from_mem <= (others => '0');
 
            -- Pmod SF3 Read Volatile Dummy Cycles Data Output
                        elsif (state = COMPLETED) and (pmod_driver_data_out_ready = '1') then
                data_from_mem <= pmod_driver_data_out;
                        end if;
                end if;
        end process;
 
        ---------------------
        -- Pmod SF3 Driver --
        ---------------------
        inst_PmodSF3Driver: PmodSF3Driver
        GENERIC map (
            sys_clock => 24_000_000,
            max_data_byte => PMOD_DRIVER_MAX_DATA_BYTES)
 
                PORT map (
                        i_sys_clock => pmod_sys_clock,
                        i_reset => pmod_driver_reset,
                        i_start => pmod_driver_start,
            i_rw => pmod_driver_rw,
            i_command => pmod_driver_command,
            i_addr_bytes => pmod_driver_addr_bytes,
            i_addr => pmod_driver_addr,
            i_data_bytes => pmod_driver_data_bytes,
            i_data => pmod_driver_data_in,
            o_data => pmod_driver_data_out,
            o_data_ready => pmod_driver_data_out_ready,
            o_ready => pmod_driver_ready,
            o_reset => o_reset,
            o_sclk => o_sclk,
            io_dq => io_dq,
            o_ss => o_ss,
            o_spi_using_sys_freq => pmod_driver_spi_using_sys_clock);
 
        -----------------
        -- LEDs Output --
        -----------------
    o_led(7 downto 0) <= data_from_mem;
    o_led(8 downto 8) <= (others => '0');
    o_led(9) <= i_start;
    o_led(10) <= pmod_driver_ready;
    o_led(11) <= '1' when state = IDLE else '0';
    o_led(12) <= '1' when state = CONFIG_READ_VOLATILE_DC else '0';
    o_led(13) <= '1' when state = START_READ_VOLATILE_DC else '0';
    o_led(14) <= '1' when state = READ_VOLATILE_DC else '0';
    o_led(15) <= '1' when state = COMPLETED else '0';
 
end Behavioral;

Browse

Tools

Subversion Repositories pmodsf3driver

[/] [pmodsf3driver/] [trunk/] [hw/] [sources/] [Top_PmodSF3Driver.vhd] - Blame information for rev 2

Line No.	Rev	Author	Line
1	2	ldalmasso	`------------------------------------------------------------------------`
2			`-- Engineer: Dalmasso Loic`
3			`-- Create Date: 11/03/2025`
4			`-- Module Name: Top_PmodSF3Driver`
5			`-- Description:`
6			`-- Top Module including Pmod SF3 Driver for the 32 MB NOR Flash memory MT25QL256ABA.`
7			`--`
8			`-- Ports`
9			`-- Input - i_sys_clock: System Input Clock`
10			`-- Input - i_reset: Module Reset ('0': No Reset, '1': Reset)`
11			`-- Input - i_start: Start Pmod SF3 Transmission ('0': No Start, '1': Start)`
12			`-- Output - o_led: Pmod SF3 Data from Memory`
13			`-- Output - o_reset: Pmod SF3 Reset ('0': Reset, '1': No Reset)`
14			`-- Output - o_sclk: Pmod SF3SPI Serial Clock`
15			`-- In/Out - io_dq: Pmod SF3SPI Data Lines (Simple, Dual or Quad Modes)`
16			`-- Output - o_ss: Pmod SF3 SPI Slave Select Line ('0': Enable, '1': Disable)`
17			`------------------------------------------------------------------------`
18
19			`LIBRARY IEEE;`
20			`USE IEEE.STD_LOGIC_1164.ALL;`
21			`USE IEEE.NUMERIC_STD.ALL;`
22
23			`ENTITY Top_PmodSF3Driver is`
24
25			`PORT(`
26			`i_sys_clock: IN STD_LOGIC;`
27			`i_reset: IN STD_LOGIC;`
28			`i_start: IN STD_LOGIC;`
29			`o_led: OUT UNSIGNED(15 downto 0);`
30			`-- PMode Ports`
31			`o_reset: OUT STD_LOGIC;`
32			`o_sclk: OUT STD_LOGIC;`
33			`io_dq: INOUT STD_LOGIC_VECTOR(3 downto 0);`
34			`o_ss: OUT STD_LOGIC`
35			`);`
36
37			`END Top_PmodSF3Driver;`
38
39			`ARCHITECTURE Behavioral of Top_PmodSF3Driver is`
40
41			`------------------------------------------------------------------------`
42			`-- Component Declarations`
43			`------------------------------------------------------------------------`
44
45			`COMPONENT clk_wiz_0`
46			`PORT(`
47			`clk_out1: OUT STD_LOGIC;`
48			`clk_in1: IN STD_LOGIC`
49			`);`
50
51			`END COMPONENT;`
52
53			`COMPONENT PmodSF3Driver is`
54
55			`GENERIC(`
56			`sys_clock: INTEGER := 100_000_000;`
57			`max_data_byte: INTEGER := 1`
58			`);`
59
60			`PORT(`
61			`i_sys_clock: IN STD_LOGIC;`
62			`i_reset: IN STD_LOGIC;`
63			`i_start: IN STD_LOGIC;`
64			`i_rw: IN STD_LOGIC;`
65			`i_command: IN UNSIGNED(7 downto 0);`
66			`i_addr_bytes: IN INTEGER range 0 to 4;`
67			`i_addr: IN UNSIGNED(23 downto 0);`
68			`i_data_bytes: IN INTEGER range 0 to max_data_byte;`
69			`i_data: IN UNSIGNED((max_data_byte*8)-1 downto 0);`
70			`o_data: OUT UNSIGNED((max_data_byte*8)-1 downto 0);`
71			`o_data_ready: OUT STD_LOGIC;`
72			`o_ready: OUT STD_LOGIC;`
73			`o_reset: OUT STD_LOGIC;`
74			`o_sclk: OUT STD_LOGIC;`
75			`io_dq: INOUT STD_LOGIC_VECTOR(3 downto 0);`
76			`o_ss: OUT STD_LOGIC;`
77			`o_spi_using_sys_freq: OUT STD_LOGIC`
78			`);`
79
80			`END COMPONENT;`
81
82			`------------------------------------------------------------------------`
83			`-- Constant Declarations`
84			`------------------------------------------------------------------------`
85			`-- Pmod SF3 Driver Read/Write Mode`
86			`constant PMOD_DRIVER_READ_MODE: STD_LOGIC := '1';`
87
88			`-- Pmod SF3 Driver Max Data Bytes`
89			`constant PMOD_DRIVER_MAX_DATA_BYTES: INTEGER := 1;`
90
91			`-- Pmod SF3 Read Volatile Dummy Cycles`
92			`constant READ_VOLATILE_DC_COMMAND: UNSIGNED(7 downto 0) := x"85";`
93
94			`------------------------------------------------------------------------`
95			`-- Signal Declarations`
96			`------------------------------------------------------------------------`
97			`-- Top Pmod SF3 Driver States`
98			`TYPE topPmodPSF3State is ( IDLE,`
99			`CONFIG_READ_VOLATILE_DC, START_READ_VOLATILE_DC, READ_VOLATILE_DC,`
100			`COMPLETED);`
101			`signal state: topPmodPSF3State := IDLE;`
102			`signal next_state: topPmodPSF3State;`
103
104			`-- Pmod SF3 System Clock`
105			`signal pmod_sys_clock: STD_LOGIC := '0';`
106
107			`-- Pmod SF3 Driver Reset`
108			`signal pmod_driver_reset: STD_LOGIC := '0';`
109
110			`-- Pmod SF3 Driver Start`
111			`signal pmod_driver_start: STD_LOGIC := '0';`
112
113			`-- Pmod SF3 Driver Read/Write Mode`
114			`signal pmod_driver_rw: STD_LOGIC := '0';`
115
116			`-- Pmod SF3 Driver Command Byte`
117			`signal pmod_driver_command: UNSIGNED(7 downto 0) := (others => '0');`
118
119			`-- Pmod SF3 Driver Address`
120			`signal pmod_driver_addr_bytes: INTEGER range 0 to 4 := 0;`
121			`signal pmod_driver_addr: UNSIGNED(23 downto 0) := (others => '0');`
122
123			`-- Pmod SF3 Driver Data`
124			`signal pmod_driver_data_bytes: INTEGER range 0 to PMOD_DRIVER_MAX_DATA_BYTES := 0;`
125			`signal pmod_driver_data_in: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');`
126			`signal pmod_driver_data_out: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');`
127			`signal pmod_driver_data_out_ready: STD_LOGIC := '0';`
128
129			`-- Pmod SF3 Driver Ready`
130			`signal pmod_driver_ready: STD_LOGIC := '0';`
131
132			`-- Pmod SF3 Driver SPI using Sys Clock`
133			`signal pmod_driver_spi_using_sys_clock: STD_LOGIC := '0';`
134
135			`-- Data from Memory Register`
136			`signal data_from_mem: UNSIGNED((PMOD_DRIVER_MAX_DATA_BYTES*8)-1 downto 0) := (others => '0');`
137
138			`------------------------------------------------------------------------`
139			`-- Module Implementation`
140			`------------------------------------------------------------------------`
141			`begin`
142
143			`--------------------------------------`
144			`-- Top Pmod SF3 Driver System Clock --`
145			`--------------------------------------`
146			`inst_clk_wiz_0: clk_wiz_0 port map(clk_out1 => pmod_sys_clock, clk_in1 => i_sys_clock);`
147
148			`---------------------------------------`
149			`-- Top Pmod SF3 Driver State Machine --`
150			`---------------------------------------`
151			`-- Top Pmod SF3 State`
152			`process(pmod_sys_clock)`
153			`begin`
154			`if rising_edge(pmod_sys_clock) then`
155
156			`-- Reset`
157			`if (i_reset = '1') then`
158			`state <= IDLE;`
159			`else`
160			`state <= next_state;`
161			`end if;`
162
163			`end if;`
164			`end process;`
165
166			`-- Top Pmod SF3 Next State`
167			`process(state, i_start, pmod_driver_ready)`
168			`begin`
169			`case state is`
170			`-- IDLE`
171			`when IDLE => if (i_start = '1') then`
172			`next_state <= CONFIG_READ_VOLATILE_DC;`
173			`else`
174			`next_state <= IDLE;`
175			`end if;`
176
177			`-- Config Read Volatile Dummy Cycles`
178			`when CONFIG_READ_VOLATILE_DC => next_state <= START_READ_VOLATILE_DC;`
179
180			`-- Start Read Volatile Dummy Cycles`
181			`when START_READ_VOLATILE_DC =>`
182			`if (pmod_driver_ready = '0') then`
183			`next_state <= READ_VOLATILE_DC;`
184			`else`
185			`next_state <= START_READ_VOLATILE_DC;`
186			`end if;`
187
188			`-- Read Volatile Dummy Cycles`
189			`when READ_VOLATILE_DC =>`
190			`if (pmod_driver_ready = '1') then`
191			`next_state <= COMPLETED;`
192			`else`
193			`next_state <= READ_VOLATILE_DC;`
194			`end if;`
195
196			`-- Completed`
197			`when others => next_state <= COMPLETED;`
198			`end case;`
199			`end process;`
200
201			`---------------------------`
202			`-- Pmod SF3 Driver Reset --`
203			`---------------------------`
204			`process(pmod_sys_clock)`
205			`begin`
206			`if rising_edge(pmod_sys_clock) then`
207
208			`-- Start Pmod SF3 Driver`
209			`if (state = IDLE) then`
210			`pmod_driver_reset <= '1';`
211			`else`
212			`pmod_driver_reset <= '0';`
213			`end if;`
214			`end if;`
215			`end process;`
216
217			`---------------------------`
218			`-- Pmod SF3 Driver Start --`
219			`---------------------------`
220			`process(pmod_sys_clock)`
221			`begin`
222			`if rising_edge(pmod_sys_clock) then`
223
224			`-- Start Pmod SF3 Driver`
225			`if (state = START_READ_VOLATILE_DC) then`
226			`pmod_driver_start <= '1';`
227			`else`
228			`pmod_driver_start <= '0';`
229			`end if;`
230			`end if;`
231			`end process;`
232
233			`-------------------------------------`
234			`-- Pmod SF3 Driver Read/Write Mode --`
235			`-------------------------------------`
236			`process(pmod_sys_clock)`
237			`begin`
238			`if rising_edge(pmod_sys_clock) then`
239
240			`-- Start Pmod SF3 Driver`
241			`if (state = CONFIG_READ_VOLATILE_DC) then`
242			`pmod_driver_rw <= PMOD_DRIVER_READ_MODE;`
243			`end if;`
244			`end if;`
245			`end process;`
246
247			`-----------------------------`
248			`-- Pmod SF3 Driver Command --`
249			`-----------------------------`
250			`process(pmod_sys_clock)`
251			`begin`
252			`if rising_edge(pmod_sys_clock) then`
253
254			`-- Pmod SF3 Read Volatile Dummy Cycles Command`
255			`if (state = CONFIG_READ_VOLATILE_DC) then`
256			`pmod_driver_command <= READ_VOLATILE_DC_COMMAND;`
257			`end if;`
258			`end if;`
259			`end process;`
260
261			`-----------------------------`
262			`-- Pmod SF3 Driver Address --`
263			`-----------------------------`
264			`process(pmod_sys_clock)`
265			`begin`
266			`if rising_edge(pmod_sys_clock) then`
267
268			`-- Pmod SF3 Read Volatile Dummy Cycles Address`
269			`if (state = CONFIG_READ_VOLATILE_DC) then`
270			`pmod_driver_addr_bytes <= 0;`
271			`pmod_driver_addr <= (others => '0');`
272			`end if;`
273			`end if;`
274			`end process;`
275
276			`-------------------------------`
277			`-- Pmod SF3 Driver Data Byte --`
278			`-------------------------------`
279			`process(pmod_sys_clock)`
280			`begin`
281			`if rising_edge(pmod_sys_clock) then`
282
283			`-- Pmod SF3 Read Volatile Dummy Cycles Data Byte`
284			`if (state = CONFIG_READ_VOLATILE_DC) then`
285			`pmod_driver_data_bytes <= 1;`
286			`end if;`
287			`end if;`
288			`end process;`
289
290			`--------------------------------`
291			`-- Pmod SF3 Driver Data Input --`
292			`--------------------------------`
293			`process(pmod_sys_clock)`
294			`begin`
295			`if rising_edge(pmod_sys_clock) then`
296
297			`-- Pmod SF3 Read Volatile Dummy Cycles Data Input`
298			`if (state = CONFIG_READ_VOLATILE_DC) then`
299			`pmod_driver_data_in <= (others => '0');`
300			`end if;`
301			`end if;`
302			`end process;`
303
304			`---------------------------------`
305			`-- Pmod SF3 Driver Data Output --`
306			`---------------------------------`
307			`process(pmod_sys_clock)`
308			`begin`
309			`if rising_edge(pmod_sys_clock) then`
310
311			`-- Reset`
312			`if (state = IDLE) then`
313			`data_from_mem <= (others => '0');`
314
315			`-- Pmod SF3 Read Volatile Dummy Cycles Data Output`
316			`elsif (state = COMPLETED) and (pmod_driver_data_out_ready = '1') then`
317			`data_from_mem <= pmod_driver_data_out;`
318			`end if;`
319			`end if;`
320			`end process;`
321
322			`---------------------`
323			`-- Pmod SF3 Driver --`
324			`---------------------`
325			`inst_PmodSF3Driver: PmodSF3Driver`
326			`GENERIC map (`
327			`sys_clock => 24_000_000,`
328			`max_data_byte => PMOD_DRIVER_MAX_DATA_BYTES)`
329
330			`PORT map (`
331			`i_sys_clock => pmod_sys_clock,`
332			`i_reset => pmod_driver_reset,`
333			`i_start => pmod_driver_start,`
334			`i_rw => pmod_driver_rw,`
335			`i_command => pmod_driver_command,`
336			`i_addr_bytes => pmod_driver_addr_bytes,`
337			`i_addr => pmod_driver_addr,`
338			`i_data_bytes => pmod_driver_data_bytes,`
339			`i_data => pmod_driver_data_in,`
340			`o_data => pmod_driver_data_out,`
341			`o_data_ready => pmod_driver_data_out_ready,`
342			`o_ready => pmod_driver_ready,`
343			`o_reset => o_reset,`
344			`o_sclk => o_sclk,`
345			`io_dq => io_dq,`
346			`o_ss => o_ss,`
347			`o_spi_using_sys_freq => pmod_driver_spi_using_sys_clock);`
348
349			`-----------------`
350			`-- LEDs Output --`
351			`-----------------`
352			`o_led(7 downto 0) <= data_from_mem;`
353			`o_led(8 downto 8) <= (others => '0');`
354			`o_led(9) <= i_start;`
355			`o_led(10) <= pmod_driver_ready;`
356			`o_led(11) <= '1' when state = IDLE else '0';`
357			`o_led(12) <= '1' when state = CONFIG_READ_VOLATILE_DC else '0';`
358			`o_led(13) <= '1' when state = START_READ_VOLATILE_DC else '0';`
359			`o_led(14) <= '1' when state = READ_VOLATILE_DC else '0';`
360			`o_led(15) <= '1' when state = COMPLETED else '0';`
361
362			`end Behavioral;`