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microwatt/core.vhdl

276 lines
7.7 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.common.all;
use work.wishbone_types.all;
entity core is
generic (
SIM : boolean := false
);
port (
clk : in std_logic;
rst : in std_logic;
wishbone_insn_in : in wishbone_slave_out;
wishbone_insn_out : out wishbone_master_out;
wishbone_data_in : in wishbone_slave_out;
wishbone_data_out : out wishbone_master_out;
dmi_addr : in std_ulogic_vector(3 downto 0);
dmi_din : in std_ulogic_vector(63 downto 0);
dmi_dout : out std_ulogic_vector(63 downto 0);
dmi_req : in std_ulogic;
dmi_wr : in std_ulogic;
dmi_ack : out std_ulogic;
terminated_out : out std_logic
);
end core;
architecture behave of core is
-- fetch signals
signal fetch1_to_fetch2: Fetch1ToFetch2Type;
signal fetch2_to_decode1: Fetch2ToDecode1Type;
-- icache signals
signal fetch2_to_icache : Fetch2ToIcacheType;
signal icache_to_fetch2 : IcacheToFetch2Type;
-- decode signals
signal decode1_to_decode2: Decode1ToDecode2Type;
signal decode2_to_execute1: Decode2ToExecute1Type;
-- register file signals
signal register_file_to_decode2: RegisterFileToDecode2Type;
signal decode2_to_register_file: Decode2ToRegisterFileType;
signal writeback_to_register_file: WritebackToRegisterFileType;
-- CR file signals
signal decode2_to_cr_file: Decode2ToCrFileType;
signal cr_file_to_decode2: CrFileToDecode2Type;
signal writeback_to_cr_file: WritebackToCrFileType;
-- execute signals
signal execute1_to_execute2: Execute1ToExecute2Type;
signal execute2_to_writeback: Execute2ToWritebackType;
signal execute1_to_fetch1: Execute1ToFetch1Type;
-- load store signals
signal decode2_to_loadstore1: Decode2ToLoadstore1Type;
signal loadstore1_to_loadstore2: Loadstore1ToLoadstore2Type;
signal loadstore2_to_writeback: Loadstore2ToWritebackType;
-- multiply signals
signal decode2_to_multiply: Decode2ToMultiplyType;
signal multiply_to_writeback: MultiplyToWritebackType;
-- local signals
signal fetch1_stall_in : std_ulogic;
signal fetch2_stall_in : std_ulogic;
signal fetch2_stall_out : std_ulogic;
signal decode1_stall_in : std_ulogic;
signal decode2_stall_out : std_ulogic;
signal flush: std_ulogic;
signal complete: std_ulogic;
signal terminate: std_ulogic;
signal core_rst: std_ulogic;
-- Debug actions
signal dbg_core_stop: std_ulogic;
signal dbg_core_rst: std_ulogic;
signal dbg_icache_rst: std_ulogic;
-- Debug status
signal dbg_core_is_stopped: std_ulogic;
-- For sim
signal registers: regfile;
begin
core_rst <= dbg_core_rst or rst;
fetch1_0: entity work.fetch1
generic map (
RESET_ADDRESS => (others => '0')
)
port map (
clk => clk,
rst => core_rst,
stall_in => fetch1_stall_in,
flush_in => flush,
e_in => execute1_to_fetch1,
f_out => fetch1_to_fetch2
);
fetch1_stall_in <= fetch2_stall_out or decode2_stall_out;
fetch2_0: entity work.fetch2
port map (
clk => clk,
rst => core_rst,
stall_in => fetch2_stall_in,
stall_out => fetch2_stall_out,
flush_in => flush,
i_in => icache_to_fetch2,
i_out => fetch2_to_icache,
stop_in => dbg_core_stop,
f_in => fetch1_to_fetch2,
f_out => fetch2_to_decode1
);
fetch2_stall_in <= decode2_stall_out;
icache_0: entity work.icache
generic map(
LINE_SIZE_DW => 8,
NUM_LINES => 16
)
port map(
clk => clk,
rst => rst or dbg_icache_rst,
i_in => fetch2_to_icache,
i_out => icache_to_fetch2,
wishbone_out => wishbone_insn_out,
wishbone_in => wishbone_insn_in
);
decode1_0: entity work.decode1
port map (
clk => clk,
rst => core_rst,
stall_in => decode1_stall_in,
flush_in => flush,
f_in => fetch2_to_decode1,
d_out => decode1_to_decode2
);
decode1_stall_in <= decode2_stall_out;
decode2_0: entity work.decode2
port map (
clk => clk,
rst => core_rst,
stall_out => decode2_stall_out,
flush_in => flush,
complete_in => complete,
stopped_out => dbg_core_is_stopped,
d_in => decode1_to_decode2,
e_out => decode2_to_execute1,
l_out => decode2_to_loadstore1,
m_out => decode2_to_multiply,
r_in => register_file_to_decode2,
r_out => decode2_to_register_file,
c_in => cr_file_to_decode2,
c_out => decode2_to_cr_file
);
register_file_0: entity work.register_file
port map (
clk => clk,
d_in => decode2_to_register_file,
d_out => register_file_to_decode2,
w_in => writeback_to_register_file,
registers_out => registers);
cr_file_0: entity work.cr_file
port map (
clk => clk,
d_in => decode2_to_cr_file,
d_out => cr_file_to_decode2,
w_in => writeback_to_cr_file
);
execute1_0: entity work.execute1
generic map (
SIM => SIM
)
port map (
clk => clk,
flush_out => flush,
e_in => decode2_to_execute1,
f_out => execute1_to_fetch1,
e_out => execute1_to_execute2,
terminate_out => terminate
);
execute2_0: entity work.execute2
port map (
clk => clk,
e_in => execute1_to_execute2,
e_out => execute2_to_writeback
);
loadstore1_0: entity work.loadstore1
port map (
clk => clk,
l_in => decode2_to_loadstore1,
l_out => loadstore1_to_loadstore2
);
loadstore2_0: entity work.loadstore2
port map (
clk => clk,
l_in => loadstore1_to_loadstore2,
w_out => loadstore2_to_writeback,
m_in => wishbone_data_in,
m_out => wishbone_data_out
);
multiply_0: entity work.multiply
port map (
clk => clk,
m_in => decode2_to_multiply,
m_out => multiply_to_writeback
);
writeback_0: entity work.writeback
port map (
clk => clk,
e_in => execute2_to_writeback,
l_in => loadstore2_to_writeback,
m_in => multiply_to_writeback,
w_out => writeback_to_register_file,
c_out => writeback_to_cr_file,
complete_out => complete
);
debug_0: entity work.core_debug
port map (
clk => clk,
rst => rst,
dmi_addr => dmi_addr,
dmi_din => dmi_din,
dmi_dout => dmi_dout,
dmi_req => dmi_req,
dmi_wr => dmi_wr,
dmi_ack => dmi_ack,
core_stop => dbg_core_stop,
core_rst => dbg_core_rst,
icache_rst => dbg_icache_rst,
terminate => terminate,
core_stopped => dbg_core_is_stopped,
nia => fetch1_to_fetch2.nia,
terminated_out => terminated_out
);
-- Dump registers if core terminates
sim_terminate_test: if SIM generate
dump_registers: process(all)
begin
if terminate = '1' then
loop_0: for i in 0 to 31 loop
report "REG " & to_hstring(registers(i));
end loop loop_0;
end if;
end process;
end generate;
end behave;