+-- `Deep Thought', a softcore CPU implemented on a FPGA
+--
+-- Copyright (C) 2010 Markus Hofstaetter <markus.manrow@gmx.at>
+-- Copyright (C) 2010 Martin Perner <e0725782@student.tuwien.ac.at>
+-- Copyright (C) 2010 Stefan Rebernig <stefan.rebernig@gmail.com>
+-- Copyright (C) 2010 Manfred Schwarz <e0725898@student.tuwien.ac.at>
+-- Copyright (C) 2010 Bernhard Urban <lewurm@gmail.com>
+--
+-- This program is free software: you can redistribute it and/or modify
+-- it under the terms of the GNU General Public License as published by
+-- the Free Software Foundation, either version 3 of the License, or
+-- (at your option) any later version.
+--
+-- This program is distributed in the hope that it will be useful,
+-- but WITHOUT ANY WARRANTY; without even the implied warranty of
+-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+-- GNU General Public License for more details.
+--
+-- You should have received a copy of the GNU General Public License
+-- along with this program. If not, see <http://www.gnu.org/licenses/>.
+
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.numeric_std.all;
use work.common_pkg.all;
use work.core_pkg.all;
+use work.extension_pkg.all;
entity core_top is
port(
--System input pins
- sys_clk : in std_logic;
- sys_res : in std_logic;
-
- to_next_stage : out dec_op
+ sys_res : in std_logic;
+ soft_res : in std_logic;
+ sys_clk_in : in std_logic;
+-- result : out gp_register_t;
+-- reg_wr_data : out gp_register_t
+ -- uart
+ bus_tx : out std_logic;
+ bus_rx : in std_logic;
+ led2 : out std_logic
+ --sseg0 : out std_logic_vector(0 to 6);
+ --sseg1 : out std_logic_vector(0 to 6);
+ --sseg2 : out std_logic_vector(0 to 6);
+ --sseg3 : out std_logic_vector(0 to 6)
);
end core_top;
architecture behav of core_top is
+ constant SYNC_STAGES : integer := 2;
+ constant RESET_VALUE : std_logic := '0';
+
+ signal sys_clk : std_logic;
+
+ signal jump_result : instruction_addr_t;
signal jump_result_pin : instruction_addr_t;
signal prediction_result_pin : instruction_addr_t;
signal branch_prediction_bit_pin : std_logic;
signal alu_jump_bit_pin : std_logic;
signal instruction_pin : instruction_word_t;
+ signal prog_cnt_pin : instruction_addr_t;
signal reg_w_addr_pin : std_logic_vector(REG_ADDR_WIDTH-1 downto 0);
signal reg_wr_data_pin : gp_register_t;
signal reg_we_pin : std_logic;
+ signal to_next_stage : dec_op;
-- signal reg1_rd_data_pin : gp_register_t;
-- signal reg2_rd_data_pin : gp_register_t;
+ signal result_pin : gp_register_t;--reg
+ signal result_addr_pin : gp_addr_t;--reg
+ signal addr_pin : word_t; --memaddr
+ signal data_pin : gp_register_t; --mem data --ureg
+ signal alu_jump_pin : std_logic;--reg
+ signal brpr_pin : std_logic; --reg
+ signal wr_en_pin : std_logic;--regop --reg
+ signal dmem_pin : std_logic;--memop
+ signal dmem_wr_en_pin : std_logic;
+ signal hword_pin : std_logic;
+ signal byte_s_pin : std_logic;
+
+ signal gpm_in_pin : extmod_rec;
+ signal gpm_out_pin : gp_register_t;
+ signal nop_pin : std_logic;
+
+ signal sync, sync2 : std_logic_vector(1 to SYNC_STAGES);
+ signal sys_res_n, soft_res_n : std_logic;
+ signal int_req : interrupt_t;
+
+ signal new_im_data : std_logic;
+ signal im_addr, im_data : gp_register_t;
+
+ signal vers, vers_nxt : exec2wb_rec;
+
+
+ component pll
+ PORT
+ (
+ inclk0 : IN STD_LOGIC := '0';
+ c0 : OUT STD_LOGIC
+ );
+ end component;
begin
+ pll_inst : pll PORT MAP (
+ inclk0 => sys_clk_in,
+ c0 => sys_clk
+ );
+
+
fetch_st : fetch_stage
generic map (
port map (
--System inputs
clk => sys_clk, --: in std_logic;
- reset => sys_res, --: in std_logic;
-
+ reset => sys_res_n, --: in std_logic;
+ s_reset => soft_res_n,
--Data inputs
jump_result => jump_result_pin, --: in instruction_addr_t;
prediction_result => prediction_result_pin, --: in instruction_addr_t;
branch_prediction_bit => branch_prediction_bit_pin, --: in std_logic;
alu_jump_bit => alu_jump_bit_pin, --: in std_logic;
-
+ int_req => int_req,
+ -- instruction memory program port :D
+ new_im_data_in => new_im_data,
+ im_addr => im_addr,
+ im_data => im_data,
--Data outputs
- instruction => instruction_pin --: out instruction_word_t
+ instruction => instruction_pin, --: out instruction_word_t
+ prog_cnt => prog_cnt_pin,
+ led2 => led2
);
decode_st : decode_stage
port map (
--System inputs
clk => sys_clk, --: in std_logic;
- reset => sys_res, -- : in std_logic;
+ reset => sys_res_n and soft_res_n, -- : in std_logic;
--Data inputs
instruction => instruction_pin, --: in instruction_word_t;
+ prog_cnt => prog_cnt_pin,
reg_w_addr => reg_w_addr_pin, --: in std_logic_vector(REG_ADDR_WIDTH-1 downto 0);
reg_wr_data => reg_wr_data_pin, --: in gp_register_t;
reg_we => reg_we_pin, --: in std_logic;
+ nop => nop_pin,
--Data outputs
branch_prediction_res => prediction_result_pin, --: instruction_word_t;
to_next_stage => to_next_stage
);
-
+ exec_st : execute_stage
+ generic map('0')
+ port map(sys_clk, sys_res_n and soft_res_n, to_next_stage, reg_wr_data_pin, reg_we_pin, reg_w_addr_pin, gpm_in_pin, result_pin, result_addr_pin,addr_pin,
+ data_pin, alu_jump_pin,brpr_pin, wr_en_pin, dmem_pin,dmem_wr_en_pin,hword_pin,byte_s_pin, gpm_out_pin);
+
+
+ vers_nxt.result <= result_pin;
+ vers_nxt.result_addr <= result_addr_pin;
+ vers_nxt.address <= addr_pin;
+ vers_nxt.ram_data <= data_pin;
+ vers_nxt.alu_jmp <= alu_jump_pin;
+ vers_nxt.br_pred <= brpr_pin;
+ vers_nxt.write_en <= wr_en_pin;
+ vers_nxt.dmem_en <= dmem_pin;
+ vers_nxt.dmem_write_en <= dmem_wr_en_pin;
+ vers_nxt.hword <= hword_pin;
+ vers_nxt.byte_s <= byte_s_pin;
+
+-- writeback_st : writeback_stage
+-- generic map('0', '1')
+-- port map(sys_clk, sys_res, result_pin, result_addr_pin, addr_pin, data_pin, alu_jump_pin, brpr_pin,
+-- wr_en_pin, dmem_pin, dmem_wr_en_pin, hword_pin, byte_s_pin,
+-- reg_wr_data_pin, reg_we_pin, reg_w_addr_pin, jump_result_pin, alu_jump_bit_pin,bus_tx, sseg0, sseg1, sseg2, sseg3);
+--
+
+ writeback_st : writeback_stage
+ generic map('0', '1', "altera", 5208)
+ port map(sys_clk, sys_res_n and soft_res_n, vers_nxt.result, vers_nxt.result_addr, vers_nxt.address, vers_nxt.ram_data, vers_nxt.alu_jmp, vers_nxt.br_pred,
+ vers_nxt.write_en, vers_nxt.dmem_en, vers_nxt.dmem_write_en, vers_nxt.hword, vers_nxt.byte_s,
+ reg_wr_data_pin, reg_we_pin, reg_w_addr_pin, jump_result_pin, alu_jump_bit_pin,bus_tx, bus_rx,
+ -- instruction memory program port :D
+ new_im_data, im_addr, im_data,
+ --sseg0, sseg1, sseg2, sseg3,
+ int_req);
+
+
+syn: process(sys_clk, sys_res, soft_res)
+
+begin
+
+ if sys_res = '1' then
+-- vers.result <= (others => '0');
+-- vers.result_addr <= (others => '0');
+-- vers.address <= (others => '0');
+-- vers.ram_data <= (others => '0');
+-- vers.alu_jmp <= '0';
+-- vers.br_pred <= '0';
+-- vers.write_en <= '0';
+-- vers.dmem_en <= '0';
+-- vers.dmem_write_en <= '0';
+-- vers.hword <= '0';
+-- vers.byte_s <= '0';
+
+ sync <= (others => '0');
+ sync2 <= (others => '0');
+
+ elsif rising_edge(sys_clk) then
+-- vers <= vers_nxt;
+ sync(1) <= not sys_res;
+ for i in 2 to SYNC_STAGES loop
+ sync(i) <= sync(i - 1);
+ end loop;
+ sync2(1) <= not soft_res;
+ for i in 2 to SYNC_STAGES loop
+ sync2(i) <= sync2(i - 1);
+ end loop;
+ end if;
+
+
+end process;
+
+sys_res_n <= sync(SYNC_STAGES);
+soft_res_n <= sync2(SYNC_STAGES);
+
--init : process(all)
--begin
- jump_result_pin <= (others => '0');
- alu_jump_bit_pin <= '0';
- reg_w_addr_pin <= (others => '0');
- reg_wr_data_pin <= (others => '0');
- reg_we_pin <= '0';
+-- jump_result_pin <= (others => '0');
+-- alu_jump_bit_pin <= '0';
+-- reg_w_addr_pin <= (others => '0');
+-- reg_wr_data_pin <= (others => '0');
+-- reg_we_pin <= '0';
--end process;
+-- result <= result_pin;
+ nop_pin <= (alu_jump_bit_pin); -- xor brpr_pin);
+
+ jump_result <= prog_cnt_pin; --jump_result_pin;
+-- sys_res <= '1';
+
+-- reg_wr_data <= reg_wr_data_pin;
end behav;