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decode.vhd
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-- ******************************************************************
-- ******************************************************************
-- ******************************************************************
-- This file is generated. Changing this file directly is probably
-- not what you want to do. Any changes will be overwritten next time
-- the generator is run.
-- ******************************************************************
-- ******************************************************************
-- ******************************************************************
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.decode_pack.all;
use work.cpu2j0_components_pack.all;
use work.mult_pkg.all;
use work.cpu2j0_pack.all;
entity decode is
port (
clk : in std_logic;
enter_debug : in std_logic;
event_i : in cpu_event_i_t;
ibit : in std_logic_vector(3 downto 0);
if_dr : in std_logic_vector(15 downto 0);
if_stall : in std_logic;
illegal_delay_slot : in std_logic;
illegal_instr : in std_logic;
mac_busy : in std_logic;
mask_int : in std_logic;
rst : in std_logic;
slot : in std_logic;
t_bcc : in std_logic;
buses : out buses_ctrl_t;
debug : out std_logic;
event_ack : out std_logic;
func : out func_ctrl_t;
instr : out instr_ctrl_t;
mac : out mac_ctrl_t;
mem : out mem_ctrl_t;
pc : out pc_ctrl_t;
reg : out reg_ctrl_t;
slp : out std_logic;
sr : out sr_ctrl_t
);
end;
architecture arch of decode is
signal debug_o : std_logic;
signal delay_jump : std_logic;
signal dispatch : std_logic;
signal event_ack_0 : std_logic;
signal ex : pipeline_ex_t;
signal ex_stall : pipeline_ex_stall_t;
signal id : pipeline_id_t;
signal ilevel_cap : std_logic;
signal mac_stall_sense : std_logic;
signal maskint_next : std_logic;
signal maskint_o : std_logic;
signal next_id_stall : std_logic;
signal op : operation_t;
signal pipeline_c : pipeline_t;
signal pipeline_r : pipeline_t;
signal wb : pipeline_wb_t;
signal wb_stall : pipeline_wb_stall_t;
constant STAGE_EX_RESET : pipeline_ex_t := (imm_val => x"00000000", xbus_sel => SEL_IMM, ybus_sel => SEL_IMM, regnum_z => "00000", regnum_x => "00000", regnum_y => "00000", alumanip => SWAP_BYTE, aluinx_sel => SEL_XBUS, aluiny_sel => SEL_YBUS, arith_func => ADD, arith_ci_en => '0', arith_sr_func => ZERO, logic_func => LOGIC_NOT, logic_sr_func => ZERO, mac_busy => '0', ma_wr => '0', mem_lock => '0', mem_size => BYTE);
constant STAGE_WB_RESET : pipeline_wb_t := (regnum_w => "00000", mac_busy => '0');
constant STAGE_EX_STALL_RESET : pipeline_ex_stall_t := (wrpc_z => '0', wrsr_z => '0', ma_issue => '0', wrpr_pc => '0', zbus_sel => SEL_ARITH, sr_sel => SEL_PREV, t_sel => SEL_CLEAR, mem_addr_sel => SEL_XBUS, mem_wdata_sel => SEL_ZBUS, wrreg_z => '0', wrmach => '0', wrmacl => '0', shiftfunc => LOGIC, mulcom1 => '0', mulcom2 => NOP, macsel1 => SEL_XBUS, macsel2 => SEL_YBUS);
constant STAGE_WB_STALL_RESET : pipeline_wb_stall_t := (mulcom1 => '0', wrmach => '0', wrmacl => '0', wrreg_w => '0', wrsr_w => '0', macsel1 => SEL_XBUS, macsel2 => SEL_YBUS, mulcom2 => NOP);
constant PIPELINE_RESET : pipeline_t := (ex1 => STAGE_EX_RESET, ex1_stall => STAGE_EX_STALL_RESET, wb1 => STAGE_WB_RESET, wb2 => STAGE_WB_RESET, wb3 => STAGE_WB_RESET, wb1_stall => STAGE_WB_STALL_RESET, wb2_stall => STAGE_WB_STALL_RESET, wb3_stall => STAGE_WB_STALL_RESET);
begin
maskint_o <= (mask_int or maskint_next);
debug <= debug_o;
core : decode_core
port map (
clk => clk,
debug => debug_o,
delay_jump => delay_jump,
dispatch => dispatch,
enter_debug => enter_debug,
event_ack_0 => event_ack_0,
event_i => event_i,
ex => ex,
ex_stall => ex_stall,
ibit => ibit,
id => id,
if_dr => if_dr,
if_stall => if_stall,
ilevel_cap => ilevel_cap,
illegal_delay_slot => illegal_delay_slot,
illegal_instr => illegal_instr,
mac_busy => mac_busy,
mac_stall_sense => mac_stall_sense,
maskint_next => maskint_o,
p => pipeline_r,
rst => rst,
slot => slot,
t_bcc => t_bcc,
event_ack => event_ack,
if_issue => instr.issue,
ifadsel => instr.addr_sel,
ilevel => sr.ilevel,
incpc => pc.inc,
next_id_stall => next_id_stall,
op => op
);
table : decode_table
port map (
clk => clk,
next_id_stall => next_id_stall,
op => op,
t_bcc => t_bcc,
debug => debug_o,
delay_jump => delay_jump,
dispatch => dispatch,
event_ack_0 => event_ack_0,
ex => ex,
ex_stall => ex_stall,
id => id,
ilevel_cap => ilevel_cap,
mac_s_latch => mac.s_latch,
mac_stall_sense => mac_stall_sense,
maskint_next => maskint_next,
slp => slp,
wb => wb,
wb_stall => wb_stall
);
-- pipeline controls signals
process(ex, ex_stall, wb, wb_stall, next_id_stall, pipeline_r, slot)
variable pipe : pipeline_t;
begin
pipe := pipeline_r;
if slot = '1' then
pipe.wb3 := pipe.wb2;
pipe.wb2 := pipe.wb1;
pipe.wb1 := wb;
pipe.ex1 := ex;
pipe.wb3_stall := pipe.wb2_stall;
pipe.wb2_stall := pipe.wb1_stall;
if next_id_stall = '1' then
pipe.ex1_stall := STAGE_EX_STALL_RESET;
pipe.wb1_stall := STAGE_WB_STALL_RESET;
else
pipe.ex1_stall := ex_stall;
pipe.wb1_stall := wb_stall;
end if;
end if;
pipeline_c <= pipe;
end process;
process(clk, rst)
begin
if rst = '1' then
pipeline_r <= PIPELINE_RESET;
elsif (clk = '1' and clk'event) then
pipeline_r <= pipeline_c;
end if;
end process;
-- assign outputs
func.alu.inx_sel <= pipeline_r.ex1.aluinx_sel;
func.alu.iny_sel <= pipeline_r.ex1.aluiny_sel;
func.alu.manip <= pipeline_r.ex1.alumanip;
func.arith.ci_en <= pipeline_r.ex1.arith_ci_en;
func.arith.func <= pipeline_r.ex1.arith_func;
func.arith.sr <= pipeline_r.ex1.arith_sr_func;
buses.imm_val <= pipeline_r.ex1.imm_val;
func.logic_func <= pipeline_r.ex1.logic_func;
func.logic_sr <= pipeline_r.ex1.logic_sr_func;
mem.wr <= pipeline_r.ex1.ma_wr;
mem.lock <= pipeline_r.ex1.mem_lock;
mem.size <= pipeline_r.ex1.mem_size;
reg.num_w <= pipeline_r.wb3.regnum_w;
-- Make read regnum valid at the end of decode, allow clocked read regfile
reg.num_x <= ex.regnum_x;
reg.num_y <= ex.regnum_y;
-- reg.num_x <= pipeline_r.ex1.regnum_x;
-- reg.num_y <= pipeline_r.ex1.regnum_y;
reg.num_z <= pipeline_r.ex1.regnum_z;
buses.x_sel <= pipeline_r.ex1.xbus_sel;
buses.y_sel <= pipeline_r.ex1.ybus_sel;
mem.issue <= pipeline_r.ex1_stall.ma_issue;
mem.addr_sel <= pipeline_r.ex1_stall.mem_addr_sel;
mem.wdata_sel <= pipeline_r.ex1_stall.mem_wdata_sel;
func.shift <= pipeline_r.ex1_stall.shiftfunc;
sr.t <= pipeline_r.ex1_stall.t_sel;
pc.wr_z <= pipeline_r.ex1_stall.wrpc_z;
pc.wrpr <= pipeline_r.ex1_stall.wrpr_pc;
reg.wr_z <= pipeline_r.ex1_stall.wrreg_z;
buses.z_sel <= pipeline_r.ex1_stall.zbus_sel;
reg.wr_w <= pipeline_r.wb3_stall.wrreg_w;
-- assign combined outputs
mac.com1 <= (pipeline_r.ex1_stall.mulcom1 or pipeline_r.wb3_stall.mulcom1);
mac.wrmach <= (pipeline_r.ex1_stall.wrmach or pipeline_r.wb3_stall.wrmach);
mac.wrmacl <= (pipeline_r.ex1_stall.wrmacl or pipeline_r.wb3_stall.wrmacl);
mac.sel1 <= pipeline_r.ex1_stall.macsel1 when (pipeline_r.ex1_stall.mulcom1 or pipeline_r.ex1_stall.wrmach) = '1' else pipeline_r.wb3_stall.macsel1;
mac.sel2 <= pipeline_r.ex1_stall.macsel2 when (pipeline_r.ex1_stall.mulcom2 /= NOP or pipeline_r.ex1_stall.wrmacl = '1') else pipeline_r.wb3_stall.macsel2;
mac.com2 <= pipeline_r.ex1_stall.mulcom2 when pipeline_r.ex1_stall.mulcom2 /= NOP else pipeline_r.wb3_stall.mulcom2;
sr.sel <= SEL_WBUS when pipeline_r.wb3_stall.wrsr_w = '1' else pipeline_r.ex1_stall.sr_sel;
end;