Trying to verify Verilog/VHDL designs with formal methods and tools
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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity vai_reg is
generic (
Formal : boolean := true
);
port (
Reset_n_i : in std_logic;
Clk_i : in std_logic;
-- req
Din_i : in std_logic_vector(7 downto 0);
DinValid_i : in std_logic;
DinStart_i : in std_logic;
DinStop_i : in std_logic;
DinAccept_o : out std_logic;
-- ack
Dout_o : out std_logic_vector(7 downto 0);
DoutValid_o : out std_logic;
DoutStart_o : out std_logic;
DoutStop_o : out std_logic;
DoutAccept_i : in std_logic
);
end entity vai_reg;
architecture rtl of vai_reg is
constant C_READ : std_logic_vector(3 downto 0) := x"0";
constant C_WRITE : std_logic_vector(3 downto 0) := x"1";
type t_fsm_state is (IDLE, GET_HEADER, GET_DATA,
SET_DATA, SEND_HEADER, SEND_DATA, SEND_FOOTER);
signal s_fsm_state : t_fsm_state;
type t_register is array(0 to 7) of std_logic_vector(7 downto 0);
signal s_register : t_register;
signal s_header : std_logic_vector(7 downto 0);
signal s_data : std_logic_vector(7 downto 0);
signal s_error : boolean;
signal s_dout_accepted : boolean;
alias a_addr : std_logic_vector(3 downto 0) is s_header(7 downto 4);
begin
s_dout_accepted <= (DoutValid_o and DoutAccept_i) = '1';
process (Reset_n_i, Clk_i) is
begin
if (Reset_n_i = '0') then
DinAccept_o <= '0';
DoutStart_o <= '0';
DoutStop_o <= '0';
DoutValid_o <= '0';
Dout_o <= (others => '0');
s_header <= (others => '0');
s_data <= (others => '0');
s_register <= (others => (others => '0'));
s_error <= false;
s_fsm_state <= IDLE;
elsif (rising_edge(Clk_i)) then
case s_fsm_state is
when IDLE =>
DinAccept_o <= '0';
DoutStart_o <= '0';
DoutStop_o <= '0';
DoutValid_o <= '0';
Dout_o <= (others => '0');
s_header <= (others => '0');
s_data <= (others => '0');
s_error <= false;
DinAccept_o <= '1';
s_fsm_state <= GET_HEADER;
when GET_HEADER =>
if (DinValid_i = '1' and DinStart_i = '1') then
s_header <= Din_i;
if (Din_i(3 downto 0) = C_READ and DinStop_i = '1') then
DinAccept_o <= '0';
s_fsm_state <= GET_DATA;
elsif (Din_i(3 downto 0) = C_WRITE and DinStop_i = '0') then
s_fsm_state <= SET_DATA;
else
DinAccept_o <= '0';
s_fsm_state <= IDLE;
end if;
end if;
when GET_DATA =>
if (unsigned(a_addr) <= 7) then
s_data <= s_register(to_integer(unsigned(a_addr)));
else
s_error <= true;
s_data <= (others => '0');
end if;
s_fsm_state <= SEND_HEADER;
when SET_DATA =>
if (DinValid_i = '1') then
DinAccept_o <= '0';
if (DinStop_i = '1') then
if (unsigned(a_addr) <= 7) then
s_register(to_integer(unsigned(a_addr))) <= Din_i;
else
s_error <= true;
end if;
s_fsm_state <= SEND_HEADER;
else
s_fsm_state <= IDLE;
end if;
end if;
when SEND_HEADER =>
DoutValid_o <= '1';
DoutStart_o <= '1';
Dout_o <= s_header;
if (s_dout_accepted) then
DoutValid_o <= '0';
DoutStart_o <= '0';
if (s_header(3 downto 0) = C_WRITE) then
s_fsm_state <= SEND_FOOTER;
else
s_fsm_state <= SEND_DATA;
end if;
end if;
when SEND_DATA =>
DoutValid_o <= '1';
Dout_o <= s_data;
if (s_dout_accepted) then
DoutValid_o <= '0';
s_fsm_state <= SEND_FOOTER;
end if;
when SEND_FOOTER =>
DoutValid_o <= '1';
DoutStop_o <= '1';
Dout_o <= x"01" when s_error else x"00";
if (s_dout_accepted) then
Dout_o <= (others => '0');
DoutValid_o <= '0';
DoutStop_o <= '0';
s_fsm_state <= IDLE;
end if;
when others => null;
end case;
end if;
end process;
FormalG : if Formal generate
signal s_addr : natural range 0 to 15;
type t_cmd is (READ, WRITE, NOP);
signal s_cmd : t_cmd;
begin
-- VHDL helper logic
process is
begin
wait until rising_edge(Clk_i);
if (s_fsm_state = GET_HEADER) then
if (DinValid_i = '1' and DinStart_i = '1') then
s_cmd <= READ when Din_i(3 downto 0) = x"0" else
WRITE when Din_i(3 downto 0) = x"1" else
NOP;
s_addr <= to_integer(unsigned(Din_i(7 downto 4)));
end if;
end if;
end process;
default clock is rising_edge(Clk_i);
-- RESTRICTIONS
-- Initial reset
INITIAL_RESET : restrict {not Reset_n_i[*2]; Reset_n_i[+]}[*1];
-- CONSTRAINTS
-- Valid stable until accepted
JOB_REQ_VALID_STABLE : assume always
DinValid_i and not DinAccept_o -> next (stable(DinValid_i) until_ DinAccept_o);
-- Start stable until accepted
JOB_REQ_START_STABLE : assume always
DinValid_i and not DinAccept_o -> next (stable(DinStart_i) until_ DinAccept_o);
-- Stop stable until accepted
JOB_REQ_STOP_STABLE : assume always
DinValid_i and not DinAccept_o -> next (stable(DinStop_i) until_ DinAccept_o);
-- Data stable until accepted
JOB_REQ_DIN_STABLE : assume always
DinValid_i and not DinAccept_o -> next (stable(Din_i) until_ DinAccept_o);
-- ASSERTIONS
-- Reset values
AFTER_RESET : assert always
not Reset_n_i
->
s_fsm_state = IDLE and
not DinAccept_o and
not DoutStart_o and
not DoutStop_o and
not DoutValid_o and
s_register = (0 to 7 => x"00");
-- FSM states in valid range
FSM_STATES_VALID : assert always
s_fsm_state = IDLE or s_fsm_state = GET_HEADER or
s_fsm_state = GET_DATA or s_fsm_state = SET_DATA or
s_fsm_state = SEND_HEADER or s_fsm_state = SEND_DATA or
s_fsm_state = SEND_FOOTER;
-- Discard jobs with invalid command
INV_CMD_DISCARD : assert always
s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) /= x"0" and Din_i(3 downto 0) /= x"1"
->
next s_fsm_state = IDLE;
-- Discard read job with invalid stop flags
READ_INV_FLAGS_DISCARD : assert always
s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) = x"0" and DinStop_i = '0'
->
next s_fsm_state = IDLE;
-- Discard write job with invalid stop flags
WRITE_INV_FLAGS_DISCARD : assert always
s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) = x"1" and DinStop_i = '1'
->
next s_fsm_state = IDLE;
-- After a valid job read request,
-- a job read acknowledge has to follow
READ_VALID_ACK : assert always
{s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) = x"0" and DinStop_i = '1'}
|=>
{-- Job ack header cycle
not DoutValid_o [*];
DoutValid_o and DoutStart_o and not DoutAccept_i [*];
DoutValid_o and DoutStart_o and DoutAccept_i;
-- Job ack data cycle
not DoutValid_o [*];
DoutValid_o and not DoutStart_o and not DoutStop_o and not DoutAccept_i [*];
DoutValid_o and not DoutStart_o and not DoutStop_o and DoutAccept_i;
-- Job ack footer cycle
not DoutValid_o [*];
DoutValid_o and DoutStop_o};
-- After a valid job write request,
-- a job read acknowledge has to follow
WRITE_VALID_ACK : assert always
{s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) = x"1" and DinStop_i = '0';
not DinValid_i [*];
DinValid_i and DinStop_i}
|=>
{-- Job ack header cycle
not DoutValid_o [*];
DoutValid_o and DoutStart_o and not DoutAccept_i [*];
DoutValid_o and DoutStart_o and DoutAccept_i;
-- Job ack footer cycle
not DoutValid_o [*];
DoutValid_o and DoutStop_o};
-- Start & stop flag have to be exclusive
JOB_ACK_NEVER_START_STOP : assert never
DoutStart_o and DoutStop_o;
-- Start & Stop have to be active together with valid
JOB_ACK_START_STOP_VALID : assert always
DoutStart_o or DoutStop_o -> DoutValid_o;
-- Valid has to be stable until accepted
JOB_ACK_VALID_STABLE : assert always
DoutValid_o and not DoutAccept_i -> next (stable(DoutValid_o) until_ DoutAccept_i);
-- Start has to be stable until accepted
JOB_ACK_START_STABLE : assert always
DoutValid_o and not DoutAccept_i -> next (stable(DoutStart_o) until_ DoutAccept_i);
-- Stop has to be stable until accepted
JOB_ACK_STOP_STABLE : assert always
DoutValid_o and not DoutAccept_i -> next (stable(DoutStop_o) until_ DoutAccept_i);
-- Data has to be stable until accepted
JOB_ACK_DOUT_STABLE : assert always
DoutValid_o and not DoutAccept_i -> next (stable(Dout_o) until_ DoutAccept_i);
-- Data from selected address has to be read
READ_DATA : assert always
DoutValid_o and not DoutStart_o and not DoutStop_o and s_addr <= 7
->
Dout_o = s_register(s_addr);
-- 0 has to be read when invalid address is given
READ_DATA_INV_ADDR : assert always
DoutValid_o and not DoutStart_o and not DoutStop_o and s_addr > 7
->
Dout_o = x"00";
-- Register has to be written at given address with given data
-- when correct job req write occurs
WRITE_DATA : assert always
-- Job req header cycle
{s_fsm_state = GET_HEADER and DinValid_i = '1' and DinStart_i = '1' and
Din_i(3 downto 0) = x"1" and unsigned(Din_i(7 downto 4)) <= 7 and DinStop_i = '0';
-- Job req data / footer cycle
not DinValid_i [*];
DinValid_i and not DinStart_i and DinStop_i and not DinAccept_o [*];
DinValid_i and not DinStart_i and DinStop_i and DinAccept_o}
|=>
{s_register(s_addr) = prev(Din_i)};
-- FUNCTIONAL COVERAGE
FOOTER_VALID : cover {DoutValid_o = '1' and DoutStop_o = '1' and Dout_o = 8x"0"};
FOOTER_ERR : cover {DoutValid_o = '1' and DoutStop_o = '1' and Dout_o = 8x"1"};
end generate FormalG;
end architecture rtl;