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[/] [minimips_superscalar/] [trunk/] [sources/] [pps_ex_2.vhd] - Rev 3
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-------------------------------------------------------------------------- -- -- -- -- -- miniMIPS Superscalar Processor : Execution stage 2 -- -- based on miniMIPS Processor -- -- -- -- -- -- Author : Miguel Cafruni -- -- miguel_cafruni@hotmail.com -- -- December 2018 -- -------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; library work; use work.pack_mips.all; use work.alu2; entity pps_ex_2 is port( clock : in std_logic; clock2 : in std_logic; reset : in std_logic; stop_all : in std_logic; -- 07-08-2018 stop_all2 : in std_logic; -- Unconditionnal locking of outputs clear : in std_logic; -- Clear the pipeline stage -- Datas from DI stage DI_bra : in std_logic; -- Branch instruction DI_link : in std_logic; -- Branch with link DI_op1 : in bus32; -- Operand 1 for alu (vem zero quando a instrucao eh um J (jump) DI_op2 : in bus32; -- Operand 2 for alu DI_code_ual : in alu_ctrl_type; -- Alu operation DI_offset : in bus32; -- Offset for address calculation DI_adr_reg_dest : in adr_reg_type; -- Destination register address for the result DI_ecr_reg : in std_logic; -- Effective writing of the result DI_mode : in std_logic; -- Address mode (relative to pc ou index by a register) DI_op_mem : in std_logic; -- Memory operation DI_r_w : in std_logic; -- Type of memory operation (read or write) DI_adr : in bus32; -- Instruction address DI_exc_cause : in bus32; -- Potential cause exception DI_level : in level_type; -- Availability stage of the result for bypassing DI_it_ok : in std_logic; -- Allow hardware interruptions EX_data_hilo : in bus64;--resultado da multiplicacao do pieline 1 EX2_data_hilo : out bus64; -- Synchronous outputs to MEM stage EX_adr : out bus32; -- Instruction address EX_bra_confirm : out std_logic; -- Branch execution confirmation EX_data_ual : out bus32; -- Ual result EX_adresse : out bus32; -- Address calculation result EX_adresse_p2p1 : out bus32; -- resultado do calculo do endereco do desvio + 4 para pipe 1 EX_adr_reg_dest : out adr_reg_type; -- Destination register for the result EX_ecr_reg : out std_logic; -- Effective writing of the result EX_op_mem : out std_logic; -- Memory operation needed EX_r_w : out std_logic; -- Type of memory operation (read or write) EX_exc_cause : out bus32; -- Potential cause exception EX_level : out level_type; -- Availability stage of result for bypassing EX_it_ok : out std_logic -- Allow hardware interruptions ); end entity; architecture rtl of pps_ex_2 is component alu2 port ( clock : in bus1; reset : in bus1; op1 : in bus32; -- Operand 1 op2 : in bus32; -- Operand 2 ctrl : in alu_ctrl_type; -- Operation hilo_p1 : in bus64; hilo_p2p1 : out bus64; res : out bus32; -- Result overflow : out bus1 -- Overflow ); end component; signal res_ual : bus32; -- Alu result output signal base_adr : bus32; -- Output of the address mode mux selection signal pre_ecr_reg : std_logic; -- Output of mux selection for writing command to register signal pre_data_ual : bus32; -- Mux selection of the data to write signal pre_bra_confirm : std_logic; -- Result of the test in alu when branch instruction signal pre_exc_cause : bus32; -- Preparation of the exception detection signal signal overflow_ual : std_logic; -- Dectection of the alu overflow signal ex_address_p2p1 : bus32; signal hilo_p2p1_s : bus64; begin -- Alu instantiation U1_alu_2 : alu2 port map (clock => clock2, reset => reset, op1=>DI_op1, op2=>DI_op2, ctrl=>DI_code_ual, res=>res_ual, overflow=>overflow_ual, hilo_p1=>EX_data_hilo, hilo_p2p1=>hilo_p2p1_s); -- Calculation of the future outputs base_adr <= DI_op1 when DI_mode='0' else DI_adr; pre_ecr_reg <= DI_ecr_reg when DI_link='0' else pre_bra_confirm; pre_data_ual <= res_ual when DI_link='0' else bus32(unsigned(DI_adr) + 8); pre_bra_confirm <= DI_bra and res_ual(0); pre_exc_cause <= DI_exc_cause when DI_exc_cause/=IT_NOEXC else IT_OVERF when overflow_ual='1' else IT_NOEXC; -- Set the synchronous outputs process(clock2) is begin if falling_edge(clock2) then if reset='1' then EX_adr <= (others => '0'); EX_bra_confirm <= '0'; EX_data_ual <= (others => '0'); EX_adresse <= (others => '0'); EX_adr_reg_dest <= (others => '0'); EX_ecr_reg <= '0'; EX_op_mem <= '0'; EX_r_w <= '0'; EX_exc_cause <= IT_NOEXC; EX_level <= LVL_DI; EX_it_ok <= '0'; elsif stop_all2 = '0' then if clear = '1' then -- Clear the stage EX_adr <= DI_adr; EX_bra_confirm <= '0'; EX_data_ual <= (others => '0'); EX_adresse <= (others => '0'); EX_adr_reg_dest <= (others => '0'); EX_ecr_reg <= '0'; EX_op_mem <= '0'; EX_r_w <= '0'; EX_exc_cause <= IT_NOEXC; EX_level <= LVL_DI; EX_it_ok <= '0'; else -- Normal evolution EX_adr <= DI_adr; EX_bra_confirm <= pre_bra_confirm; EX_data_ual <= pre_data_ual; EX_adr_reg_dest <= DI_adr_reg_dest; EX_ecr_reg <= pre_ecr_reg; EX_op_mem <= DI_op_mem; EX_r_w <= DI_r_w; EX_exc_cause <= pre_exc_cause; EX_level <= DI_level; EX_it_ok <= DI_it_ok; EX_adresse <= bus32(unsigned(DI_offset) + unsigned(base_adr)); -- calculo do endereco do branch fora da ULA, [offset + pc atual] (BNE), ou [offset + 0] (J) ex_address_p2p1 <= bus32(unsigned(DI_offset) + unsigned(base_adr)); end if; end if; end if; if rising_edge(clock) then if reset = '1' then EX_adresse_p2p1 <= (others => '0'); EX2_data_hilo <= (others => '0'); elsif stop_all = '0' then -- sinal stop_all do pipe 1 EX2_data_hilo <= hilo_p2p1_s; EX_adresse_p2p1 <= bus32(unsigned(ex_address_p2p1) + 4); --*** endereco alvo para o pipe 1 *** end if; end if; end process; end architecture;
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