mt48lc16m16a2.vhd

vhdl cod for ram.For sp3e

    TRAS2 : VitalBuf (ras_out(2), ras_in(2),  tdevice_TRAS);
    TRAS3 : VitalBuf (ras_out(3), ras_in(3),  tdevice_TRAS);

    ----------------------------------------------------------------------------
    -- Wire Delays
    ----------------------------------------------------------------------------
    WireDelay : BLOCK
    BEGIN

        w_1  : VitalWireDelay (BA0_ipd, BA0, tipd_BA0);
        w_2  : VitalWireDelay (BA1_ipd, BA1, tipd_BA1);
        w_3  : VitalWireDelay (DQML_ipd, DQML, tipd_DQML);
        w_4  : VitalWireDelay (DQMH_ipd, DQMH, tipd_DQMH);
        w_5  : VitalWireDelay (DQ0_ipd, DQ0, tipd_DQ0);
        w_6  : VitalWireDelay (DQ1_ipd, DQ1, tipd_DQ1);
        w_7  : VitalWireDelay (DQ2_ipd, DQ2, tipd_DQ2);
        w_8  : VitalWireDelay (DQ3_ipd, DQ3, tipd_DQ3);
        w_9  : VitalWireDelay (DQ4_ipd, DQ4, tipd_DQ4);
        w_10 : VitalWireDelay (DQ5_ipd, DQ5, tipd_DQ5);
        w_11 : VitalWireDelay (DQ6_ipd, DQ6, tipd_DQ6);
        w_12 : VitalWireDelay (DQ7_ipd, DQ7, tipd_DQ7);
        w_13  : VitalWireDelay (DQ8_ipd, DQ8, tipd_DQ8);
        w_14  : VitalWireDelay (DQ9_ipd, DQ9, tipd_DQ9);
        w_15  : VitalWireDelay (DQ10_ipd, DQ10, tipd_DQ10);
        w_16  : VitalWireDelay (DQ11_ipd, DQ11, tipd_DQ11);
        w_17  : VitalWireDelay (DQ12_ipd, DQ12, tipd_DQ12);
        w_18 : VitalWireDelay (DQ13_ipd, DQ13, tipd_DQ13);
        w_19 : VitalWireDelay (DQ14_ipd, DQ14, tipd_DQ14);
        w_20 : VitalWireDelay (DQ15_ipd, DQ15, tipd_DQ15);
        w_21 : VitalWireDelay (CLK_ipd, CLK, tipd_CLK);
        w_22 : VitalWireDelay (CKE_ipd, CKE, tipd_CKE);
        w_23 : VitalWireDelay (A0_ipd, A0, tipd_A0);
        w_24 : VitalWireDelay (A1_ipd, A1, tipd_A1);
        w_25 : VitalWireDelay (A2_ipd, A2, tipd_A2);
        w_26 : VitalWireDelay (A3_ipd, A3, tipd_A3);
        w_27 : VitalWireDelay (A4_ipd, A4, tipd_A4);
        w_28 : VitalWireDelay (A5_ipd, A5, tipd_A5);
        w_29 : VitalWireDelay (A6_ipd, A6, tipd_A6);
        w_30 : VitalWireDelay (A7_ipd, A7, tipd_A7);
        w_31 : VitalWireDelay (A8_ipd, A8, tipd_A8);
        w_32 : VitalWireDelay (A9_ipd, A9, tipd_A9);
        w_33 : VitalWireDelay (A10_ipd, A10, tipd_A10);
        w_34 : VitalWireDelay (A11_ipd, A11, tipd_A11);
        w_35 : VitalWireDelay (A12_ipd, A12, tipd_A12);
        w_36 : VitalWireDelay (WENeg_ipd, WENeg, tipd_WENeg);
        w_37 : VitalWireDelay (RASNeg_ipd, RASNeg, tipd_RASNeg);
        w_38 : VitalWireDelay (CSNeg_ipd, CSNeg, tipd_CSNeg);
        w_39 : VitalWireDelay (CASNeg_ipd, CASNeg, tipd_CASNeg);

    END BLOCK;

    WENeg_nwv  <= To_UX01(WENeg_ipd);
    RASNeg_nwv <= To_UX01(RASNeg_ipd);
    CSNeg_nwv  <= To_UX01(CSNeg_ipd);
    CASNeg_nwv <= To_UX01(CASNeg_ipd);
    CLK_nwv <= To_UX01(CLK_ipd);
    CKE_nwv <= To_UX01(CKE_ipd);
    BA0_nwv <= To_UX01(BA0_ipd);
    BA1_nwv <= To_UX01(BA1_ipd);
    DQML_nwv <= To_UX01(DQML_ipd);
    DQMH_nwv <= To_UX01(DQMH_ipd);
    DQ0_nwv <= To_UX01(DQ0_ipd);
    DQ1_nwv <= To_UX01(DQ1_ipd);
    DQ2_nwv <= To_UX01(DQ2_ipd);
    DQ3_nwv <= To_UX01(DQ3_ipd);
    DQ4_nwv <= To_UX01(DQ4_ipd);
    DQ5_nwv <= To_UX01(DQ5_ipd);
    DQ6_nwv <= To_UX01(DQ6_ipd);
    DQ7_nwv <= To_UX01(DQ7_ipd);
    DQ8_nwv <= To_UX01(DQ8_ipd);
    DQ9_nwv <= To_UX01(DQ9_ipd);
    DQ10_nwv <= To_UX01(DQ10_ipd);
    DQ11_nwv <= To_UX01(DQ11_ipd);
    DQ12_nwv <= To_UX01(DQ12_ipd);
    DQ13_nwv <= To_UX01(DQ13_ipd);
    DQ14_nwv <= To_UX01(DQ14_ipd);
    DQ15_nwv <= To_UX01(DQ15_ipd);
    A0_nwv  <= To_UX01(A0_ipd);
    A1_nwv  <= To_UX01(A1_ipd);
    A2_nwv  <= To_UX01(A2_ipd);
    A3_nwv  <= To_UX01(A3_ipd);
    A4_nwv  <= To_UX01(A4_ipd);
    A5_nwv  <= To_UX01(A5_ipd);
    A6_nwv  <= To_UX01(A6_ipd);
    A7_nwv  <= To_UX01(A7_ipd);
    A8_nwv  <= To_UX01(A8_ipd);
    A9_nwv  <= To_UX01(A9_ipd);
    A10_nwv <= To_UX01(A10_ipd);
    A11_nwv <= To_UX01(A11_ipd);
    A12_nwv <= To_UX01(A12_ipd);

    ----------------------------------------------------------------------------
    -- Main Behavior Block
    ----------------------------------------------------------------------------
    Main : BLOCK

        PORT (
            BAIn            : IN    std_logic_vector(1 downto 0);
            DQMLIn           : IN    std_ulogic := 'X';
            DQMHIn           : IN    std_ulogic := 'X';
            DataIn          : IN    std_logic_vector(15 downto 0);
            DataOut         : OUT   std_logic_vector(15 downto 0)
                                                     := (others => 'Z');
            CLKIn           : IN    std_ulogic := 'X';
            CKEIn           : IN    std_ulogic := 'X';
            AddressIn       : IN    std_logic_vector(12 downto 0);
            WENegIn         : IN    std_ulogic := 'X';
            RASNegIn        : IN    std_ulogic := 'X';
            CSNegIn         : IN    std_ulogic := 'X';
            CASNegIn        : IN    std_ulogic := 'X'
        );
        PORT MAP (
            BAIn(0)     => BA0_nwv,
            BAIn(1)     => BA1_nwv,
            DQMHIn    => DQMH_nwv,
            DQMLIn    => DQML_nwv,
            DataOut(0)  =>  DQ0,
            DataOut(1)  =>  DQ1,
            DataOut(2)  =>  DQ2,
            DataOut(3)  =>  DQ3,
            DataOut(4)  =>  DQ4,
            DataOut(5)  =>  DQ5,
            DataOut(6)  =>  DQ6,
            DataOut(7)  =>  DQ7,
            DataOut(8)  =>  DQ8,
            DataOut(9)  =>  DQ9,
            DataOut(10) =>  DQ10,
            DataOut(11) =>  DQ11,
            DataOut(12) =>  DQ12,
            DataOut(13) =>  DQ13,
            DataOut(14) =>  DQ14,
            DataOut(15) =>  DQ15,
            DataIn(0)   =>  DQ0_nwv,
            DataIn(1)   =>  DQ1_nwv,
            DataIn(2)   =>  DQ2_nwv,
            DataIn(3)   =>  DQ3_nwv,
            DataIn(4)   =>  DQ4_nwv,
            DataIn(5)   =>  DQ5_nwv,
            DataIn(6)   =>  DQ6_nwv,
            DataIn(7)   =>  DQ7_nwv,
            DataIn(8)   =>  DQ8_nwv,
            DataIn(9)   =>  DQ9_nwv,
            DataIn(10)  =>  DQ10_nwv,
            DataIn(11)  =>  DQ11_nwv,
            DataIn(12)  =>  DQ12_nwv,
            DataIn(13)  =>  DQ13_nwv,
            DataIn(14)  =>  DQ14_nwv,
            DataIn(15)  =>  DQ15_nwv,
            CLKIn => CLK_nwv,
            CKEIn => CKE_nwv,
            AddressIn(0) => A0_nwv,
            AddressIn(1) => A1_nwv,
            AddressIn(2) => A2_nwv,
            AddressIn(3) => A3_nwv,
            AddressIn(4) => A4_nwv,
            AddressIn(5) => A5_nwv,
            AddressIn(6) => A6_nwv,
            AddressIn(7) => A7_nwv,
            AddressIn(8) => A8_nwv,
            AddressIn(9) => A9_nwv,
            AddressIn(10) => A10_nwv,
            AddressIn(11) => A11_nwv,
            AddressIn(12) => A12_nwv,
            WENegIn  => WENeg_nwv,
            RASNegIn => RASNeg_nwv,
            CSNegIn  => CSNeg_nwv,
            CASNegIn => CASNeg_nwv
        );

        -- Type definition for state machine
        TYPE mem_state IS (pwron,
                           precharge,
                           idle,
                           mode_set,
                           self_refresh,
                           self_refresh_rec,
                           auto_refresh,
                           pwrdwn,
                           bank_act,
                           bank_act_pwrdwn,
                           write,
                           write_suspend,
                           read,
                           read_suspend,
                           write_auto_pre,
                           read_auto_pre
                          );

        TYPE statebanktype IS array (hi_bank downto 0) of mem_state;

        SIGNAL statebank : statebanktype;

        SIGNAL CAS_Lat  : NATURAL RANGE 0 to 3 := 0;
        SIGNAL D_zd     : std_logic_vector(15 DOWNTO 0);

    BEGIN

    PoweredUp <= true after tpowerup;

    ----------------------------------------------------------------------------
    -- Main Behavior Process
    ----------------------------------------------------------------------------
        Behavior : PROCESS (BAIn, DQMLIn, DQMHIn, DataIn, CLKIn,
                            CKEIn, AddressIn, WENegIn, RASNegIn, CSNegIn,
                            CASNegIn, PoweredUp)

            -- Type definition for commands
            TYPE command_type is (desl,
                                  nop,
                                  bst,
                                  read,
                                  writ,
                                  act,
                                  pre,
                                  mrs,
                                  ref
                                 );

            -- Timing Check Variables
            VARIABLE Tviol_BA_CLK       : X01 := '0';
            VARIABLE TD_BA_CLK          : VitalTimingDataType;

            VARIABLE Tviol_DQML_CLK      : X01 := '0';
            VARIABLE TD_DQML_CLK         : VitalTimingDataType;

            VARIABLE Tviol_DQMH_CLK      : X01 := '0';
            VARIABLE TD_DQMH_CLK         : VitalTimingDataType;

            VARIABLE Tviol_D0_CLK       : X01 := '0';
            VARIABLE TD_D0_CLK          : VitalTimingDataType;

            VARIABLE Tviol_CKE_CLK      : X01 := '0';
            VARIABLE TD_CKE_CLK         : VitalTimingDataType;

            VARIABLE Tviol_Address_CLK  : X01 := '0';
            VARIABLE TD_Address_CLK     : VitalTimingDataType;

            VARIABLE Tviol_WENeg_CLK    : X01 := '0';
            VARIABLE TD_WENeg_CLK       : VitalTimingDataType;

            VARIABLE Tviol_RASNeg_CLK   : X01 := '0';
            VARIABLE TD_RASNeg_CLK      : VitalTimingDataType;

            VARIABLE Tviol_CSNeg_CLK    : X01 := '0';
            VARIABLE TD_CSNeg_CLK       : VitalTimingDataType;

            VARIABLE Tviol_CASNeg_CLK   : X01 := '0';
            VARIABLE TD_CASNeg_CLK      : VitalTimingDataType;

            VARIABLE Pviol_CLK     : X01 := '0';
            VARIABLE PD_CLK        : VitalPeriodDataType := VitalPeriodDataInit;

            -- Memory array declaration
            TYPE MemStore IS ARRAY (0 to 2*depth-1) OF INTEGER
                             RANGE  -2 TO 255;

            TYPE MemBlock IS ARRAY (0 to 3) OF MemStore;
            TYPE Burst_type IS (sequential, interleave);
            TYPE Write_Burst_type IS (programmed, single);
            TYPE sequence IS ARRAY (0 to 7) OF NATURAL RANGE 0 to 7;
            TYPE seqtab   IS ARRAY (0 to 7) OF sequence;
            TYPE MemLoc   IS ARRAY (0 to 3) OF std_logic_vector(22 DOWNTO 0);
            TYPE burst_counter  IS ARRAY (0 to 3) OF NATURAL RANGE 0 to 513;
            TYPE StartAddr_type IS ARRAY (0 to 3) OF NATURAL RANGE 0 TO 7;
            TYPE Burst_Inc_type IS ARRAY (0 to 3) OF NATURAL RANGE 0 TO 511;
            TYPE BaseLoc_type   IS ARRAY (0 to 3) OF NATURAL RANGE 0 TO depth;
            SUBTYPE OutWord IS std_logic_vector(15 DOWNTO 0);

            CONSTANT seq0 : sequence := (0 & 1 & 2 & 3 & 4 & 5 & 6 & 7);
            CONSTANT seq1 : sequence := (1 & 0 & 3 & 2 & 5 & 4 & 7 & 6);
            CONSTANT seq2 : sequence := (2 & 3 & 0 & 1 & 6 & 7 & 4 & 5);
            CONSTANT seq3 : sequence := (3 & 2 & 1 & 0 & 7 & 6 & 5 & 4);
            CONSTANT seq4 : sequence := (4 & 5 & 6 & 7 & 0 & 1 & 2 & 3);
            CONSTANT seq5 : sequence := (5 & 4 & 7 & 6 & 1 & 0 & 3 & 2);
            CONSTANT seq6 : sequence := (6 & 7 & 4 & 5 & 2 & 3 & 0 & 1);
            CONSTANT seq7 : sequence := (7 & 6 & 5 & 4 & 3 & 2 & 1 & 0);
            CONSTANT intab : seqtab := (seq0, seq1, seq2, seq3, seq4, seq5,
                                        seq6, seq7);

            FILE mem_file       : text IS mem_file_name;
            VARIABLE MemData    : MemBlock;