| /////////////////////////////////////////////////////////////////////////////// |
| // File name : s25fl256s.v |
| /////////////////////////////////////////////////////////////////////////////// |
| /////////////////////////////////////////////////////////////////////////////// |
| // Copyright (C) 2012 Spansion, LLC. |
| // |
| // MODIFICATION HISTORY : |
| // |
| // version: | author: | mod date: | changes made: |
| // V1.0 V.Mancev 19 Nov 09 Initial |
| // R.Prokopovic |
| // V1.1 V.Mancev 04 Mar 10 addr_cnt for second read in |
| // high performance read continuous |
| // mode can change its value only |
| // when CSNeg = '0' |
| // V1.2 V.Mancev 23 Mar 10 During read operations read_out |
| // signal changes its value in |
| // shorter interval |
| // V1.3 V.Mancev 12 Apr 10 HOLD mode corrected |
| // Condition for PP operation |
| // corrected |
| // V1.4 V.Mancev 20 May 10 SRWD bit assignment is corrected |
| // Condition for WRR command in |
| // write_cycle _decode section is |
| // corrected |
| // Blocking assignments for signals |
| // WSTART and PSTART are replaced |
| // with nonblocking assignments |
| // Conditions in Page Program |
| // section are fixed |
| // V1.5 V.Mancev 25 May 10 Conditions in programming |
| // sections are fixed |
| // Timing control sections for |
| // Program and Erase operation are |
| // changed |
| // V1.6 V.Mancev 03 June 10 bus_cycle_state section for |
| // PGSP command is fixed |
| // V1.7 V.Mancev 28 July 10 During the QUAD mode HOLD# input |
| // is not monitored for its normal |
| // function |
| // write cycle decode section is |
| // changed |
| // V1.8 B.Colakovic 24 Aug 10 All redundant signals are removed |
| // from BusCycle process |
| // V1.9 V.Mancev 30 Sep 10 Latest datasheet aligned |
| // B.Colakovic |
| // |
| // V2.0 V.Mancev 05 Nov 10 Hybrid configuration added |
| // |
| // V2.1 V.Mancev 12 Nov 10 QUAD Program operation during Erase |
| // Suspend is added |
| // Warning for Resume to Suspend time |
| // is added |
| // During Erase Suspend, after Program |
| // operation is completed, WEL bit is |
| // cleared |
| // Implemetation of Software Reset is |
| // Changed |
| // V2.2 S.Petrovic 18 Apr 11 Corrected timing in always block |
| // that generates rising_edge_CSNeg_ipd |
| // V2.3 B.Colakovic 05 July 11 Latest datasheet aligned |
| // V2.4 B.Colakovic 14 July 11 Optimization issue is fixed |
| // V2.5 V.Mancev 19 July 11 Timing check issue is fixed |
| // V2.6 V. Mancev 18 Nov 11 Time tHO is changed to 1 ns |
| // (customer's request) |
| // BRWR instruction is corrected |
| // V2.7 S.Petrovic 28 Aug 12 QPP Instruction is allowed on |
| // previously programmed page |
| // V2.8 V. Mancev 13 Feb 13 Reverted restriction for QPP |
| // on programmed page and |
| // added clearing with sector erase |
| // V2.9 S.Petrovic 13 Nov 28 Corrected FSM state transition |
| // started on Power-Up and HW |
| // Reset in StateGen process |
| // V2.10 V. Mancev 13 Dec 20 Corrected DLP read |
| // V2.11 M.Stojanovic 15 May 15 Ignored upper address bits for RD4 |
| // V2.12 M.Stojanovic 15 May 29 Ignored upper address bits for all |
| // commands in QUAD mode |
| // V2.13 M.Stojanovic 16 May 11 During QPP and QPP4 commands |
| // the same page must not be |
| // programmed more than once. However |
| // do not generate P_ERR if this |
| // occurs. |
| // V2.14 M.Krneta 19 May 07 Updated according to the rev *P |
| // (QPP and QPP4 commands changed, |
| // ECCRD command added, |
| // LOCK bit removed) |
| // V2.15 B.Barac 20 Jan 24 Bug 49 fixed, issue with not assigning |
| // sector in commands P4E4 and P4E |
| // |
| /////////////////////////////////////////////////////////////////////////////// |
| // PART DESCRIPTION: |
| // |
| // Library: FLASH |
| // Technology: FLASH MEMORY |
| // Part: S25FL256S |
| // |
| // Description: 256 Megabit Serial Flash Memory |
| // |
| ////////////////////////////////////////////////////////////////////////////// |
| // Comments : |
| // For correct simulation, simulator resolution should be set to 1 ps |
| // A device ordering (trim) option determines whether a feature is enabled |
| // or not, or provide relevant parameters: |
| // -15th character in TimingModel determines if enhanced high |
| // performance option is available |
| // (0,2,3,R,A,B,C,D) EHPLC |
| // (Y,Z,S,T,K,L) Security EHPLC |
| // (4,6,7,8,9,Q) HPLC |
| // -15th character in TimingModel determines if RESET# input |
| // is available |
| // (R,A,B,C,D,Q.6,7,K,L,S,T,M,N,U,V) RESET# is available |
| // (0,2,3,4,8,9,Y.Z.W,X) RESET# is tied to the inactive |
| // state,inside the package. |
| // -16th character in TimingModel determines Sector and Page Size: |
| // (0) Sector Size = 64 kB; Page Size = 256 bytes |
| // Hybrid Top/Bottom sector size architecture |
| // (1) Sector Size = 256 kB; Page Size = 512 bytes |
| // Uniform sector size architecture |
| ////////////////////////////////////////////////////////////////////////////// |
| // Known Bugs: |
| // |
| ////////////////////////////////////////////////////////////////////////////// |
| |
| ////////////////////////////////////////////////////////////////////////////// |
| // MODULE DECLARATION // |
| ////////////////////////////////////////////////////////////////////////////// |
| `timescale 1 ps/1 ps |
| |
| module s25fl256s |
| ( |
| // Data Inputs/Outputs |
| SI , |
| SO , |
| // Controls |
| SCK , |
| CSNeg , |
| RSTNeg , |
| WPNeg , |
| HOLDNeg |
| |
| ); |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Port / Part Pin Declarations |
| /////////////////////////////////////////////////////////////////////////////// |
| |
| inout SI ; |
| inout SO ; |
| |
| input SCK ; |
| input CSNeg ; |
| input RSTNeg ; |
| inout HOLDNeg ; |
| inout WPNeg ; |
| |
| // interconnect path delay signals |
| wire SCK_ipd ; |
| wire SI_ipd ; |
| wire SO_ipd ; |
| |
| wire SI_in ; |
| assign SI_in = SI_ipd ; |
| |
| wire SI_out ; |
| assign SI_out = SI ; |
| |
| wire SO_in ; |
| assign SO_in = SO_ipd ; |
| |
| wire SO_out ; |
| assign SO_out = SO ; |
| |
| wire CSNeg_ipd ; |
| wire HOLDNeg_ipd ; |
| wire WPNeg_ipd ; |
| wire RSTNeg_ipd ; |
| |
| wire HOLDNeg_in ; |
| //Internal pull-up |
| assign HOLDNeg_in = (HOLDNeg_ipd === 1'bx) ? 1'b1 : HOLDNeg_ipd; |
| |
| wire HOLDNeg_out ; |
| assign HOLDNeg_out = HOLDNeg ; |
| |
| wire WPNeg_in ; |
| //Internal pull-up |
| assign WPNeg_in = (WPNeg_ipd === 1'bx) ? 1'b1 : WPNeg_ipd; |
| |
| wire WPNeg_out ; |
| assign WPNeg_out = WPNeg ; |
| |
| wire RSTNeg_in ; |
| //Internal pull-up |
| assign RSTNeg_in = (RSTNeg_ipd === 1'bx) ? 1'b1 : RSTNeg_ipd; |
| |
| // internal delays |
| reg PP_in ; |
| reg PP_out ; |
| reg BP_in ; |
| reg BP_out ; |
| reg SE_in ; |
| reg SE_out ; |
| reg BE_in ; |
| reg BE_out ; |
| reg WRR_in ; |
| reg WRR_out ; |
| reg ERSSUSP_in ; |
| reg ERSSUSP_out ; |
| reg PRGSUSP_in ; |
| reg PRGSUSP_out ; |
| reg PU_in ; |
| reg PU_out ; |
| reg RST_in ; |
| reg RST_out ; |
| reg PPBERASE_in ; |
| reg PPBERASE_out; |
| reg PASSULCK_in ; |
| reg PASSULCK_out; |
| reg PASSACC_in ; |
| reg PASSACC_out; |
| |
| // event control registers |
| reg PRGSUSP_out_event; |
| reg ERSSUSP_out_event; |
| reg Reseted_event; |
| reg SCK_ipd_event; |
| reg next_state_event; |
| |
| reg rising_edge_PoweredUp; |
| reg rising_edge_Reseted; |
| reg rising_edge_PASSULCK_in; |
| reg rising_edge_RES_out; |
| reg rising_edge_PSTART; |
| reg rising_edge_WSTART; |
| reg rising_edge_ESTART; |
| reg rising_edge_RSTNeg; |
| reg rising_edge_RST; |
| reg falling_edge_RSTNeg; |
| reg falling_edge_RST; |
| reg rising_edge_RST_out; |
| reg rising_edge_CSNeg_ipd = 1'b0; |
| reg falling_edge_CSNeg_ipd = 1'b0; |
| reg rising_edge_SCK_ipd = 1'b0; |
| reg falling_edge_SCK_ipd = 1'b0; |
| |
| reg RST ; |
| |
| reg SOut_zd = 1'bZ ; |
| reg SOut_z = 1'bZ ; |
| |
| wire SI_z ; |
| wire SO_z ; |
| |
| reg SIOut_zd = 1'bZ ; |
| reg SIOut_z = 1'bZ ; |
| |
| reg WPNegOut_zd = 1'bZ ; |
| reg HOLDNegOut_zd = 1'bZ ; |
| |
| assign SI_z = SIOut_z; |
| assign SO_z = SOut_z; |
| |
| parameter UserPreload = 1; |
| parameter mem_file_name = "none";//"s25fl256s.mem"; |
| parameter otp_file_name = "s25fl256sOTP.mem";//"none"; |
| |
| parameter TimingModel = "DefaultTimingModel"; |
| |
| parameter PartID = "s25fl256s"; |
| parameter MaxData = 255; |
| parameter MemSize = 28'h1FFFFFF; |
| parameter SecSize256 = 20'h3FFFF; |
| parameter SecSize64 = 16'hFFFF; |
| parameter SecSize4 = 12'hFFF; |
| parameter SecNum64 = 541; |
| parameter SecNum256 = 127; |
| parameter PageNum64 = 20'h3FFFF; |
| parameter PageNum256 = 16'hFFFF; |
| parameter AddrRANGE = 28'h1FFFFFF; |
| parameter HiAddrBit = 31; |
| parameter OTPSize = 1023; |
| parameter OTPLoAddr = 12'h000; |
| parameter OTPHiAddr = 12'h3FF; |
| parameter BYTE = 8; |
| |
| // Manufacturer Identification |
| parameter Manuf_ID = 8'h01; |
| parameter DeviceID = 8'h18; |
| // Electronic Signature |
| parameter ESignature = 8'h18; |
| // Device ID |
| //Manufacturer Identification && Memory Type && Memory Capacity |
| parameter Jedec_ID = 8'h01; |
| parameter DeviceID1 = 8'h02; |
| parameter DeviceID2 = 8'h19; |
| parameter ExtendedBytes = 8'h4D; |
| parameter ExtendedID64 = 8'h01; |
| parameter ExtendedID256 = 8'h00; |
| parameter DieRev = 8'h00; |
| parameter MaskRev = 8'h00; |
| |
| integer PageSize; |
| integer PageNum; |
| integer SecSize; |
| integer b_act = 0; |
| |
| integer ASP_ProtSE = 0; |
| integer Sec_ProtSE = 0; |
| |
| integer EHP; //Enhanced High Performance Mode active |
| |
| integer BAR_ACC = 0; //Bank Register Access active |
| |
| //varaibles to resolve architecture used |
| reg [24*8-1:0] tmp_timing;//stores copy of TimingModel |
| reg [7:0] tmp_char1;//Define EHPLC or HPLC Mode |
| reg [7:0] tmp_char2;//stores "0" or "1" character defining sector/page size |
| integer found = 1'b0; |
| |
| // If speedsimulation is needed uncomment following line |
| |
| `define SPEEDSIM; |
| |
| // powerup |
| reg PoweredUp; |
| |
| // Memory Array Configuration |
| reg BottomBoot = 1'b0; |
| reg TopBoot = 1'b0; |
| reg UniformSec = 1'b0; |
| |
| // FSM control signals |
| reg PDONE ; |
| reg PSTART ; |
| reg PGSUSP ; |
| reg PGRES ; |
| |
| reg TSU ; |
| |
| reg RES_TO_SUSP_MIN_TIME; |
| reg RES_TO_SUSP_TYP_TIME; |
| |
| reg WDONE ; |
| reg WSTART ; |
| |
| reg EDONE ; |
| reg ESTART ; |
| reg ESUSP ; |
| reg ERES ; |
| |
| reg Reseted ; |
| |
| reg PARAM_REGION = 1'b0; |
| |
| // Lock Bit is enabled for customer programming |
| reg WRLOCKENABLE = 1'b1; |
| // Flag that mark if ASP Register is allready programmed |
| reg ASPOTPFLAG = 1'b0; |
| |
| //Flag for Password unlock command |
| reg PASS_UNLOCKED = 1'b0; |
| reg [63:0] PASS_TEMP = 64'hFFFFFFFFFFFFFFFF; |
| |
| reg QUADRD = 1'b0; |
| reg INITIAL_CONFIG = 1'b0; |
| reg CHECK_FREQ = 1'b0; |
| |
| // Programming buffer |
| integer WByte[0:511]; |
| // CFI array |
| integer CFI_array[8'h00:8'h50]; |
| // OTP Memory Array |
| integer OTPMem[OTPLoAddr:OTPHiAddr]; |
| // Flash Memory Array |
| integer Mem[0:AddrRANGE]; |
| |
| // Registers |
| // VDLR Register |
| reg[7:0] VDLR_reg = 8'h00; |
| reg[7:0] VDLR_reg_in = 8'h00; |
| // NVDLR Register |
| reg[7:0] NVDLR_reg = 8'h00; |
| reg[7:0] NVDLR_reg_in = 8'h00; |
| reg start_dlp = 1'b0; |
| |
| // Status Register 1 |
| reg[7:0] Status_reg1 = 8'h00; |
| reg[7:0] Status_reg1_in = 8'h00; |
| |
| wire SRWD ; |
| wire P_ERR; |
| wire E_ERR; |
| wire [2:0]BP; |
| wire WEL; |
| wire WIP; |
| assign SRWD = Status_reg1[7]; |
| assign P_ERR = Status_reg1[6]; |
| assign E_ERR = Status_reg1[5]; |
| assign BP = Status_reg1[4:2]; |
| assign WEL = Status_reg1[1]; |
| assign WIP = Status_reg1[0]; |
| |
| // Status Register 2 |
| reg[7:0] Status_reg2 = 8'h00; |
| reg[7:0] Status_reg2_in = 8'h00; |
| |
| wire ES ; |
| wire PS ; |
| assign ES = Status_reg2[1]; |
| assign PS = Status_reg2[0]; |
| |
| // Configuration Register 1 |
| reg[7:0] Config_reg1 = 8'h00; |
| reg[7:0] Config_reg1_in = 8'h00; |
| |
| wire LC1 ; |
| wire LC0 ; |
| wire TBPROT ; |
| // wire LOCK ; |
| wire BPNV ; |
| wire TBPARM ; |
| wire QUAD ; |
| wire FREEZE ; |
| assign LC1 = Config_reg1[7]; |
| assign LC0 = Config_reg1[6]; |
| assign TBPROT = Config_reg1[5]; |
| // assign LOCK = Config_reg1[4]; |
| assign BPNV = Config_reg1[3]; |
| assign TBPARM = Config_reg1[2]; |
| assign QUAD = Config_reg1[1]; |
| assign FREEZE = Config_reg1[0]; |
| |
| // Autoboot Register |
| reg[31:0] AutoBoot_reg = 32'h00000000; |
| reg[31:0] AutoBoot_reg_in = 32'h00000000; |
| |
| wire ABE; |
| assign ABE = AutoBoot_reg[0]; |
| |
| // Bank Address Register |
| reg [7:0] Bank_Addr_reg = 8'h00; |
| reg [7:0] Bank_Addr_reg_in = 8'h00; |
| |
| wire EXTADD; |
| wire BA24; |
| |
| assign EXTADD = Bank_Addr_reg[7]; |
| assign BA24 = Bank_Addr_reg[0]; |
| |
| // ECC Status Register |
| reg[7:0] ECCSR = 8'h00; |
| |
| wire EECC; |
| wire EECCD; |
| wire ECCDI; |
| |
| assign EECC = ECCSR[2]; |
| assign EECCD = ECCSR[1]; |
| assign ECCDI = ECCSR[0]; |
| |
| // ASP Register |
| reg[15:0] ASP_reg ; |
| reg[15:0] ASP_reg_in; |
| |
| wire RPME ; |
| wire PPBOTP ; |
| wire PWDMLB ; |
| wire PSTMLB ; |
| assign RPME = ASP_reg[5]; |
| assign PPBOTP = ASP_reg[3]; |
| assign PWDMLB = ASP_reg[2]; |
| assign PSTMLB = ASP_reg[1]; |
| |
| // Password register |
| reg[63:0] Password_reg = 64'hFFFFFFFFFFFFFFFF; |
| reg[63:0] Password_reg_in = 64'hFFFFFFFFFFFFFFFF; |
| |
| // PPB Lock Register |
| reg[7:0] PPBL = 8'h00; |
| reg[7:0] PPBL_in = 8'h00; |
| |
| wire PPB_LOCK ; |
| assign PPB_LOCK = PPBL[0]; |
| |
| // PPB Access Register |
| reg[7:0] PPBAR = 8'hFF; |
| reg[7:0] PPBAR_in = 8'hFF; |
| |
| reg[SecNum64:0] PPB_bits = {542{1'b1}}; |
| |
| // DYB Access Register |
| reg[7:0] DYBAR = 8'hFF; |
| reg[7:0] DYBAR_in = 8'hFF; |
| |
| reg[SecNum64:0] DYB_bits = {542{1'b1}}; |
| |
| //The Lock Protection Registers for OTP Memory space |
| reg[7:0] LOCK_BYTE1; |
| reg[7:0] LOCK_BYTE2; |
| reg[7:0] LOCK_BYTE3; |
| reg[7:0] LOCK_BYTE4; |
| |
| // Command Register |
| reg write; |
| reg cfg_write; |
| reg read_out; |
| reg dual = 1'b0; |
| reg rd_fast = 1'b1; |
| reg rd_slow = 1'b0; |
| reg ddr = 1'b0; |
| reg ddr80 = 1'b0; |
| reg ddr_fast = 1'b0; |
| reg hold_mode = 1'b0; |
| reg any_read = 1'b0; |
| reg quad_pg = 1'b0; |
| |
| wire rd ; |
| wire fast_rd ; |
| wire ddrd ; |
| wire fast_ddr ; |
| wire ddrd80 ; |
| |
| wire quadpg ; |
| assign quadpg = quad_pg; |
| |
| wire RD_EQU_1; |
| assign RD_EQU_1 = any_read; |
| |
| wire RD_EQU_0; |
| assign RD_EQU_0 = ~any_read; |
| |
| reg change_TBPARM = 0; |
| |
| reg change_BP = 0; |
| reg [2:0] BP_bits = 3'b0; |
| |
| reg DOUBLE = 1'b0; //Double Data Rate (DDR) flag |
| |
| reg RdPswdProtMode = 1'b0;//Read Password Protection Mode Active flag |
| reg RdPswdProtEnable = 1'b0;//Read Password Protection Mode Support flag |
| |
| integer Byte_number = 0; |
| |
| reg oe = 1'b0; |
| reg oe_z = 1'b0; |
| |
| reg [647:0] CFI_array_tmp ; |
| reg [7:0] CFI_tmp; |
| |
| integer start_delay; |
| reg start_autoboot; |
| integer ABSD; |
| |
| reg change_addr ; |
| integer Address = 0; |
| integer SectorSuspend = 0; |
| |
| //Sector and subsector addresses |
| integer SA = 0; |
| |
| // Sector is protect if Sec_Prot(SecNum) = '1' |
| reg [SecNum64:0] Sec_Prot = {542{1'b0}}; |
| |
| // timing check violation |
| reg Viol = 1'b0; |
| |
| integer WOTPByte; |
| integer AddrLo; |
| integer AddrHi; |
| |
| reg[7:0] old_bit, new_bit; |
| integer old_int, new_int; |
| reg[63:0] old_pass; |
| reg[63:0] new_pass; |
| integer wr_cnt; |
| integer cnt; |
| |
| integer read_cnt = 0; |
| integer byte_cnt = 1; |
| integer read_addr = 0; |
| integer read_addr_tmp = 0; |
| integer Sec_addr = 0; |
| integer SecAddr = 0; |
| integer Page_addr = 0; |
| integer pgm_page = 0; |
| |
| reg[7:0] data_out; |
| reg[647:0] ident_out; |
| |
| time SCK_cycle = 0; |
| time prev_SCK; |
| time start_ddr; |
| time out_time; |
| time SCK_SO_DDR; |
| /////////////////////////////////////////////////////////////////////////////// |
| //Interconnect Path Delay Section |
| /////////////////////////////////////////////////////////////////////////////// |
| buf (SCK_ipd, SCK); |
| buf (SI_ipd, SI); |
| |
| buf (SO_ipd, SO); |
| buf (CSNeg_ipd, CSNeg); |
| buf (HOLDNeg_ipd, HOLDNeg); |
| buf (WPNeg_ipd, WPNeg); |
| buf (RSTNeg_ipd, RSTNeg); |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Propagation delay Section |
| /////////////////////////////////////////////////////////////////////////////// |
| nmos (SI, SI_z , 1); |
| |
| nmos (SO, SO_z , 1); |
| nmos (HOLDNeg, HOLDNegOut_zd , 1); |
| nmos (WPNeg, WPNegOut_zd , 1); |
| |
| wire deg_pin; |
| wire deg_sin; |
| wire deg_holdin; |
| wire deh_pin; |
| wire deh_sout; |
| wire deh_ddr_sout; |
| wire deh_holdin; |
| //VHDL VITAL CheckEnable equivalents |
| wire quad_rd; |
| assign quad_rd = deg_holdin && ~QUAD && (SIOut_z != 1'bz); |
| wire wr_prot; |
| assign wr_prot = SRWD && WEL && ~QUAD; |
| wire dual_rd; |
| assign dual_rd = dual ; |
| wire ddro; |
| assign ddro = ddr && ~ddr80 && ~dual ; |
| wire ddro80; |
| assign ddro80 = ddr && ddr80 && ~dual ; |
| wire ddr_rd; |
| assign ddr_rd = PoweredUp && ddr; |
| wire sdr_rd; |
| assign sdr_rd = PoweredUp && ~ddr; |
| |
| specify |
| // tipd delays: interconnect path delays , mapped to input port delays. |
| // In Verilog is not necessary to declare any tipd_ delay variables, |
| // they can be taken from SDF file |
| // With all the other delays real delays would be taken from SDF file |
| |
| // tpd delays |
| specparam tpd_SCK_SO_normal =1; |
| specparam tpd_CSNeg_SO =1; |
| specparam tpd_HOLDNeg_SO =1; |
| specparam tpd_RSTNeg_SO =1; |
| //DDR operation values |
| specparam tpd_SCK_SO_DDR =1; |
| |
| //tsetup values: setup times |
| specparam tsetup_CSNeg_SCK =1; |
| specparam tsetup_SI_SCK_normal =1; |
| specparam tsetup_WPNeg_CSNeg =1; |
| specparam tsetup_HOLDNeg_SCK =1; |
| specparam tsetup_RSTNeg_CSNeg =1; |
| // DDR operation values |
| specparam tsetup_SI_SCK_DDR =1; |
| specparam tsetup_SI_SCK_DDR_fast =1; |
| specparam tsetup_CSNeg_SCK_DDR =1; |
| |
| //thold values: hold times |
| specparam thold_CSNeg_SCK =1; |
| specparam thold_SI_SCK_normal =1; |
| specparam thold_SO_SCK_normal =1; |
| specparam thold_WPNeg_CSNeg =1; |
| specparam thold_HOLDNeg_SCK =1; |
| specparam thold_CSNeg_RSTNeg =1; |
| // DDR operation values |
| specparam thold_SI_SCK_DDR =1; |
| specparam thold_SI_SCK_DDR_fast =1; |
| specparam thold_CSNeg_SCK_DDR =1; |
| |
| // tpw values: pulse width |
| specparam tpw_SCK_serial_posedge =1; |
| specparam tpw_SCK_dual_posedge =1; |
| specparam tpw_SCK_fast_posedge =1; |
| specparam tpw_SCK_quadpg_posedge =1; |
| specparam tpw_SCK_serial_negedge =1; |
| specparam tpw_SCK_dual_negedge =1; |
| specparam tpw_SCK_fast_negedge =1; |
| specparam tpw_SCK_quadpg_negedge =1; |
| specparam tpw_CSNeg_read_posedge =1; |
| specparam tpw_CSNeg_pgers_posedge =1; |
| specparam tpw_RSTNeg_negedge =1; |
| specparam tpw_RSTNeg_posedge =1; |
| // DDR operation values |
| specparam tpw_SCK_DDR_posedge =1; |
| specparam tpw_SCK_DDR_negedge =1; |
| specparam tpw_SCK_DDR80_posedge =1; |
| specparam tpw_SCK_DDR80_negedge =1; |
| |
| // tperiod min (calculated as 1/max freq) |
| specparam tperiod_SCK_serial_rd =1;// 50 MHz |
| specparam tperiod_SCK_fast_rd =1;//133 MHz |
| specparam tperiod_SCK_dual_rd =1;//104 MHz |
| specparam tperiod_SCK_quadpg =1;// 80 MHz |
| // DDR operation values |
| specparam tperiod_SCK_DDR_rd =1;// 66 MHz |
| specparam tperiod_SCK_DDR80_rd =1;// 80 MHz |
| |
| `ifdef SPEEDSIM |
| // Page Program Operation |
| specparam tdevice_PP_256 = 75e7;//tPP |
| // Page Program Operation |
| specparam tdevice_PP_512 = 75e7;//tPP |
| // Typical Byte Programming Time |
| specparam tdevice_BP = 4e8;//tBP |
| // Sector Erase Operation |
| specparam tdevice_SE64 = 650e7;//tSE |
| // Sector Erase Operation |
| specparam tdevice_SE256 = 1875e7;//tSE |
| // Bulk Erase Operation |
| specparam tdevice_BE = 330e9;//tBE |
| // WRR Cycle Time |
| specparam tdevice_WRR = 1; // 2e9;//tW |
| // Erase Suspend/Erase Resume Time |
| specparam tdevice_ERSSUSP = 45e6;//tESL |
| // Program Suspend/Program Resume Time |
| specparam tdevice_PRGSUSP = 1; // 40e6;// |
| // VCC (min) to CS# Low |
| specparam tdevice_PU = 1; // 3e8;//tPU |
| // PPB Erase Time |
| specparam tdevice_PPBERASE = 15e9;// |
| // Password Unlock Time |
| specparam tdevice_PASSULCK = 1e6;// |
| // Password Unlock to Password Unlock Time |
| specparam tdevice_PASSACC = 100e6; |
| // Data In Setup Max time |
| specparam tdevice_TSU = 300e3; |
| `else |
| // Page Program Operation |
| specparam tdevice_PP_256 = 75e7;//tPP |
| // Page Program Operation |
| specparam tdevice_PP_512 = 75e7;//tPP |
| // Typical Byte Programming Time |
| specparam tdevice_BP = 4e8;//tBP |
| // Sector Erase Operation |
| specparam tdevice_SE64 = 650e9;//tSE |
| // Sector Erase Operation |
| specparam tdevice_SE256 = 1875e9;//tSE |
| // Bulk Erase Operation |
| specparam tdevice_BE = 330e12;//tBE |
| // WRR Cycle Time |
| specparam tdevice_WRR = 2e11;//tW |
| // Erase Suspend/Erase Resume Time |
| specparam tdevice_ERSSUSP = 45e6;//tESL |
| // Program Suspend/Program Resume Time |
| specparam tdevice_PRGSUSP = 40e6;// |
| // VCC (min) to CS# Low |
| specparam tdevice_PU = 3e8;//tPU |
| // PPB Erase Time |
| specparam tdevice_PPBERASE = 15e9;// |
| // Password Unlock Time |
| specparam tdevice_PASSULCK = 1e6;// |
| // Password Unlock to Password Unlock Time |
| specparam tdevice_PASSACC = 100e6; |
| // Data In Setup Max time |
| specparam tdevice_TSU = 300e3; |
| `endif // SPEEDSIM |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Input Port Delays don't require Verilog description |
| /////////////////////////////////////////////////////////////////////////////// |
| // Path delays // |
| /////////////////////////////////////////////////////////////////////////////// |
| if (~ddr) (SCK => SO) = tpd_SCK_SO_normal; |
| if (ddr || rd_fast) (SCK => SO) = tpd_SCK_SO_DDR; |
| |
| if (~ddr && dual) (SCK => SI) = tpd_SCK_SO_normal; |
| if ( ddr && dual) (SCK => SI) = tpd_SCK_SO_DDR; |
| |
| if (~ddr && QUAD)(SCK => HOLDNeg) = tpd_SCK_SO_normal; |
| if ( ddr && QUAD)(SCK => HOLDNeg) = tpd_SCK_SO_DDR; |
| if (~ddr && QUAD)(SCK => WPNeg) = tpd_SCK_SO_normal; |
| if ( ddr && QUAD)(SCK => WPNeg) = tpd_SCK_SO_DDR; |
| |
| if (CSNeg) (CSNeg => SO) = tpd_CSNeg_SO; |
| if (CSNeg && dual) (CSNeg => SI) = tpd_CSNeg_SO; |
| |
| if (CSNeg && QUAD) (CSNeg => HOLDNeg) = tpd_CSNeg_SO; |
| if (CSNeg && QUAD) (CSNeg => WPNeg) = tpd_CSNeg_SO; |
| |
| if (~QUAD) (HOLDNeg => SO) = tpd_HOLDNeg_SO; |
| if (~QUAD && dual) (HOLDNeg => SI) = tpd_HOLDNeg_SO; |
| |
| (RSTNeg => SO) = tpd_RSTNeg_SO; |
| /////////////////////////////////////////////////////////////////////////////// |
| // Timing Violation // |
| /////////////////////////////////////////////////////////////////////////////// |
| $setup ( CSNeg , posedge SCK &&& sdr_rd, |
| tsetup_CSNeg_SCK, Viol); |
| $setup ( CSNeg , posedge SCK &&& ddr_rd, |
| tsetup_CSNeg_SCK_DDR, Viol); |
| $setup ( SI , posedge SCK &&& deg_sin, |
| tsetup_SI_SCK_normal, Viol); |
| $setup ( WPNeg , negedge CSNeg &&& wr_prot, |
| tsetup_WPNeg_CSNeg, Viol); |
| $setup ( HOLDNeg , posedge SCK &&& quad_rd, |
| tsetup_HOLDNeg_SCK, Viol); |
| $setup ( SI , posedge SCK &&& ddro, |
| tsetup_SI_SCK_DDR, Viol); |
| $setup ( SI , negedge SCK &&& ddro, |
| tsetup_SI_SCK_DDR, Viol); |
| $setup ( SI , posedge SCK &&& ddro80, |
| tsetup_SI_SCK_DDR, Viol); |
| $setup ( SI , negedge SCK &&& ddro80, |
| tsetup_SI_SCK_DDR, Viol); |
| |
| $setup ( RSTNeg , negedge CSNeg, |
| tsetup_RSTNeg_CSNeg, Viol); |
| |
| $hold ( posedge SCK &&& sdr_rd , CSNeg, |
| thold_CSNeg_SCK, Viol); |
| $hold ( posedge SCK &&& ddr_rd , CSNeg, |
| thold_CSNeg_SCK_DDR, Viol); |
| $hold ( posedge SCK &&& deg_sin , SI , |
| thold_SI_SCK_normal, Viol); |
| $hold ( negedge SCK &&& deh_sout , SO , |
| thold_SO_SCK_normal, Viol); |
| $hold ( negedge SCK &&& deh_ddr_sout , SO , |
| thold_SO_SCK_normal, Viol); |
| $hold ( posedge SCK &&& deh_ddr_sout , SO , |
| thold_SO_SCK_normal, Viol); |
| $hold ( posedge CSNeg &&& wr_prot , WPNeg , |
| thold_WPNeg_CSNeg, Viol); |
| $hold ( posedge SCK &&& quad_rd , HOLDNeg , |
| thold_HOLDNeg_SCK, Viol); |
| $hold ( posedge SCK &&& ddro , SI, |
| thold_SI_SCK_DDR, Viol); |
| $hold ( negedge SCK &&& ddro , SI, |
| thold_SI_SCK_DDR, Viol); |
| $hold ( posedge SCK &&& ddro80 , SI, |
| thold_SI_SCK_DDR, Viol); |
| $hold ( negedge SCK &&& ddro80 , SI, |
| thold_SI_SCK_DDR, Viol); |
| |
| $hold ( negedge RSTNeg , CSNeg, |
| thold_CSNeg_RSTNeg, Viol); |
| |
| $width ( posedge SCK &&& rd , tpw_SCK_serial_posedge); |
| $width ( negedge SCK &&& rd , tpw_SCK_serial_negedge); |
| $width ( posedge SCK &&& dual_rd , tpw_SCK_dual_posedge); |
| $width ( negedge SCK &&& dual_rd , tpw_SCK_dual_negedge); |
| $width ( posedge SCK &&& fast_rd , tpw_SCK_fast_posedge); |
| $width ( negedge SCK &&& fast_rd , tpw_SCK_fast_negedge); |
| $width ( posedge SCK &&& ddrd , tpw_SCK_DDR_posedge); |
| $width ( negedge SCK &&& ddrd , tpw_SCK_DDR_negedge); |
| $width ( posedge SCK &&& ddrd80 , tpw_SCK_DDR80_posedge); |
| $width ( negedge SCK &&& ddrd80 , tpw_SCK_DDR80_negedge); |
| $width ( posedge SCK &&& quadpg , tpw_SCK_quadpg_posedge); |
| $width ( negedge SCK &&& quadpg , tpw_SCK_quadpg_negedge); |
| |
| $width ( posedge CSNeg &&& RD_EQU_1, tpw_CSNeg_read_posedge); |
| $width ( posedge CSNeg &&& RD_EQU_0, tpw_CSNeg_pgers_posedge); |
| $width ( negedge RSTNeg , tpw_RSTNeg_negedge); |
| $width ( posedge RSTNeg , tpw_RSTNeg_posedge); |
| |
| $period ( posedge SCK &&& rd , tperiod_SCK_serial_rd); |
| $period ( posedge SCK &&& fast_rd , tperiod_SCK_fast_rd); |
| $period ( posedge SCK &&& dual_rd , tperiod_SCK_dual_rd); |
| $period ( posedge SCK &&& quadpg , tperiod_SCK_quadpg); |
| $period ( posedge SCK &&& ddrd , tperiod_SCK_DDR_rd); |
| $period ( posedge SCK &&& ddrd80 , tperiod_SCK_DDR80_rd); |
| |
| endspecify |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Main Behavior Block // |
| /////////////////////////////////////////////////////////////////////////////// |
| // FSM states |
| parameter IDLE = 5'd0; |
| parameter RESET_STATE = 5'd1; |
| parameter AUTOBOOT = 5'd2; |
| parameter WRITE_SR = 5'd3; |
| parameter PAGE_PG = 5'd4; |
| parameter OTP_PG = 5'd5; |
| parameter PG_SUSP = 5'd6; |
| parameter SECTOR_ERS = 5'd7; |
| parameter BULK_ERS = 5'd8; |
| parameter ERS_SUSP = 5'd9; |
| parameter ERS_SUSP_PG = 5'd10; |
| parameter ERS_SUSP_PG_SUSP= 5'd11; |
| parameter PASS_PG = 5'd12; |
| parameter PASS_UNLOCK = 5'd13; |
| parameter PPB_PG = 5'd14; |
| parameter PPB_ERS = 5'd15; |
| parameter AUTOBOOT_PG = 5'd16; |
| parameter ASP_PG = 5'd17; |
| parameter PLB_PG = 5'd18; |
| parameter DYB_PG = 5'd19; |
| parameter NVDLR_PG = 5'd20; |
| |
| reg [4:0] current_state; |
| reg [4:0] next_state; |
| |
| // Instruction type |
| parameter NONE = 7'd0; |
| parameter WRR = 7'd1; |
| parameter PP = 7'd2; |
| parameter READ = 7'd3; |
| parameter WRDI = 7'd4; |
| parameter RDSR = 7'd5; |
| parameter WREN = 7'd6; |
| parameter RDSR2 = 7'd7; |
| parameter FSTRD = 7'd8; |
| parameter FSTRD4 = 7'd9; |
| parameter DDRFR = 7'd10; |
| parameter DDRFR4 = 7'd11; |
| parameter PP4 = 7'd12; |
| parameter RD4 = 7'd13; |
| parameter ABRD = 7'd14; |
| parameter ABWR = 7'd15; |
| parameter BRRD = 7'd16; |
| parameter BRWR = 7'd17; |
| parameter P4E = 7'd19; |
| parameter P4E4 = 7'd20; |
| parameter ASPRD = 7'd21; |
| parameter ASPP = 7'd22; |
| parameter CLSR = 7'd23; |
| parameter QPP = 7'd24; |
| parameter QPP4 = 7'd25; |
| parameter RDCR = 7'd26; |
| parameter DOR = 7'd27; |
| parameter DOR4 = 7'd28; |
| parameter DLPRD = 7'd29; |
| parameter OTPP = 7'd30; |
| parameter PNVDLR = 7'd31; |
| parameter OTPR = 7'd32; |
| parameter WVDLR = 7'd33; |
| parameter BE = 7'd34; |
| parameter QOR = 7'd35; |
| parameter QOR4 = 7'd36; |
| parameter ERSP = 7'd37; |
| parameter ERRS = 7'd38; |
| parameter PGSP = 7'd39; |
| parameter PGRS = 7'd40; |
| parameter REMS = 7'd41; |
| parameter RDID = 7'd42; |
| parameter MPM = 7'd43; |
| parameter PLBWR = 7'd44; |
| parameter PLBRD = 7'd45; |
| parameter RES = 7'd46; |
| parameter DIOR = 7'd47; |
| parameter DIOR4 = 7'd48; |
| parameter DDRDIOR = 7'd49; |
| parameter DDRDIOR4 = 7'd50; |
| parameter SE = 7'd51; |
| parameter SE4 = 7'd52; |
| parameter DYBRD = 7'd53; |
| parameter DYBWR = 7'd54; |
| parameter PPBRD = 7'd55; |
| parameter PPBP = 7'd56; |
| parameter PPBERS = 7'd57; |
| parameter PASSRD = 7'd58; |
| parameter PASSP = 7'd59; |
| parameter PASSU = 7'd60; |
| parameter QIOR = 7'd61; |
| parameter QIOR4 = 7'd62; |
| parameter DDRQIOR = 7'd63; |
| parameter DDRQIOR4 = 7'd64; |
| parameter RESET = 7'd65; |
| parameter MBR = 7'd66; |
| parameter BRAC = 7'd67; |
| parameter ECCRD = 7'd68; |
| |
| reg [6:0] Instruct; |
| |
| //Bus cycle state |
| parameter STAND_BY = 3'd0; |
| parameter OPCODE_BYTE = 3'd1; |
| parameter ADDRESS_BYTES = 3'd2; |
| parameter DUMMY_BYTES = 3'd3; |
| parameter MODE_BYTE = 3'd4; |
| parameter DATA_BYTES = 3'd5; |
| |
| reg [2:0] bus_cycle_state; |
| |
| reg deq_pin; |
| always @(SO_in, SO_z) |
| begin |
| if (SO_in==SO_z) |
| deq_pin=1'b0; |
| else |
| deq_pin=1'b1; |
| end |
| // check when data is generated from model to avoid setuphold check in |
| // this occasion |
| assign deg_pin = deq_pin; |
| assign deh_pin = (deq_pin == 1'b0) && (SO_z != 1'bz); |
| reg deq_sin; |
| always @(SI_in, SIOut_z) |
| begin |
| if (SI_in==SIOut_z) |
| deq_sin=1'b0; |
| else |
| deq_sin=1'b1; |
| end |
| // check when data is generated from model to avoid setuphold check in |
| // this occasion |
| assign deg_sin=deq_sin |
| && (ddr == 1'b0) && (Instruct !== DDRFR) |
| && (Instruct !== DDRFR4) && (Instruct !== DDRDIOR) |
| && (Instruct !== DDRDIOR4) && (Instruct !== DDRQIOR) |
| && (Instruct !== DDRQIOR4) && (SIOut_z != 1'bz); |
| reg deq_sout; |
| always @(SO_out, SIOut_z) |
| begin |
| if (SO_out==SIOut_z) |
| deq_sout=1'b0; |
| else |
| deq_sout=1'b1; |
| end |
| // check when data is generated from model |
| assign deh_sout= (deq_sout == 1'b0) |
| && (ddr == 1'b0) && (SOut_z != 1'bz); |
| assign deh_ddr_sout= (deq_sout == 1'b0) |
| && (ddr == 1'b1) && (SOut_z != 1'bz); |
| |
| reg deq_holdin; |
| always @(HOLDNeg_ipd, HOLDNegOut_zd) |
| begin |
| if (HOLDNeg_ipd==HOLDNegOut_zd) |
| deq_holdin=1'b0; |
| else |
| deq_holdin=1'b1; |
| end |
| // check when data is generated from model to avoid setuphold check in |
| // this occasion |
| assign deg_holdin=deq_holdin; |
| assign deh_holdin=(deq_holdin == 1'b0) && (HOLDNegOut_zd != 1'bz); |
| |
| //Power Up time; |
| initial |
| begin |
| PoweredUp = 1'b0; |
| $display("%0t=>STATUS: SPI FLASH POWER UP Wait Time: %0d:%0d",$time,tdevice_PU,tdevice_PRGSUSP); |
| #tdevice_PU PoweredUp = 1'b1; |
| $display("%0t=>STATUS: SPI FLASH POWER UP",$time,); |
| end |
| |
| initial |
| begin : Init |
| write = 1'b0; |
| cfg_write = 1'b0; |
| read_out = 1'b0; |
| Address = 0; |
| change_addr = 1'b0; |
| cnt = 0; |
| RST = 1'b0; |
| RST_in = 1'b0; |
| RST_out = 1'b1; |
| PDONE = 1'b1; |
| PSTART = 1'b0; |
| PGSUSP = 1'b0; |
| PGRES = 1'b0; |
| PRGSUSP_in = 1'b0; |
| ERSSUSP_in = 1'b0; |
| RES_TO_SUSP_MIN_TIME = 1'b0; |
| RES_TO_SUSP_TYP_TIME = 1'b0; |
| |
| EDONE = 1'b1; |
| ESTART = 1'b0; |
| ESUSP = 1'b0; |
| ERES = 1'b0; |
| |
| WDONE = 1'b1; |
| WSTART = 1'b0; |
| |
| Reseted = 1'b0; |
| |
| Instruct = NONE; |
| bus_cycle_state = STAND_BY; |
| current_state = RESET_STATE; |
| next_state = RESET_STATE; |
| end |
| |
| // initialize memory and load preload files if any |
| initial |
| begin: InitMemory |
| integer i; |
| |
| for (i=0;i<=AddrRANGE;i=i+1) |
| begin |
| Mem[i] = MaxData; |
| end |
| |
| if ((UserPreload) && !(mem_file_name == "none")) |
| begin |
| // Memory Preload |
| //s25fl256s.mem, memory preload file |
| // @aaaaaa - <aaaaaa> stands for address |
| // dd - <dd> is byte to be written at Mem(aaaaaa++) |
| // (aaaaaa is incremented at every load) |
| $display("%m: Loading Memfile : %s",mem_file_name); |
| $readmemh(mem_file_name,Mem); |
| end |
| |
| for (i=OTPLoAddr;i<=OTPHiAddr;i=i+1) |
| begin |
| OTPMem[i] = MaxData; |
| end |
| |
| if (UserPreload && !(otp_file_name == "none")) |
| begin |
| //s25fl256s_otp memory file |
| // / - comment |
| // @aaaaaa - <aaaaaa> stands for address within last defined |
| // sector |
| // dd - <dd> is byte to be written at OTPMem(aaa++) |
| // (aa is incremented at every load) |
| // only first 1-4 columns are loaded. NO empty lines !!!!!!!!!!!!!!!! |
| $readmemh(otp_file_name,OTPMem); |
| end |
| |
| LOCK_BYTE1[7:0] = OTPMem[16]; |
| LOCK_BYTE2[7:0] = OTPMem[17]; |
| LOCK_BYTE3[7:0] = OTPMem[18]; |
| LOCK_BYTE4[7:0] = OTPMem[19]; |
| end |
| |
| // initialize memory and load preload files if any |
| initial |
| begin: InitTimingModel |
| integer i; |
| integer j; |
| //UNIFORM OR HYBRID arch model is used |
| //assumptions: |
| //1. TimingModel has format as S25FL128SXXXXXXXX_X_XXpF |
| //it is important that 16-th character from first one is "0" or "1" |
| //2. TimingModel does not have more then 24 characters |
| tmp_timing = TimingModel;//copy of TimingModel |
| |
| i = 23; |
| while ((i >= 0) && (found != 1'b1))//search for first non null character |
| begin //i keeps position of first non null character |
| j = 7; |
| while ((j >= 0) && (found != 1'b1)) |
| begin |
| if (tmp_timing[i*8+j] != 1'd0) |
| found = 1'b1; |
| else |
| j = j-1; |
| end |
| i = i - 1; |
| end |
| i = i +1; |
| if (found)//if non null character is found |
| begin |
| for (j=0;j<=7;j=j+1) |
| begin |
| //EHPLC/HPLC character is 15 |
| tmp_char1[j] = TimingModel[(i-14)*8+j]; |
| //256B/512B Page character is 16 |
| tmp_char2[j] = TimingModel[(i-15)*8+j]; |
| end |
| end |
| if (tmp_char1 == "0" || tmp_char1 == "2" || tmp_char1 == "3" || |
| tmp_char1 == "R" || tmp_char1 == "A" || tmp_char1 == "B" || |
| tmp_char1 == "C" || tmp_char1 == "D" || tmp_char1 == "Y" || |
| tmp_char1 == "Z" || tmp_char1 == "S" || tmp_char1 == "T" || |
| tmp_char1 == "K" || tmp_char1 == "L") |
| begin |
| EHP = 1; |
| if(tmp_char1 == "Z" || tmp_char1 == "S" || tmp_char1 == "T" || |
| tmp_char1 == "K" || tmp_char1 == "L" || tmp_char1 == "Y") |
| begin |
| RdPswdProtEnable = 1; |
| end |
| end |
| else if (tmp_char1 == "4" || tmp_char1 == "6" || tmp_char1 == "7" || |
| tmp_char1 == "8" || tmp_char1 == "9" || tmp_char1 == "Q") |
| begin |
| EHP = 0; |
| end |
| |
| if (tmp_char1 == "0" || tmp_char1 == "2" || tmp_char1 == "3" || |
| tmp_char1 == "R" || tmp_char1 == "A" || tmp_char1 == "B" || |
| tmp_char1 == "C" || tmp_char1 == "D" || tmp_char1 == "4" || |
| tmp_char1 == "6" || tmp_char1 == "7" || tmp_char1 == "8" || |
| tmp_char1 == "9" || tmp_char1 == "Q") |
| begin |
| ASP_reg = 16'hFE7F; |
| ASP_reg_in = 16'hFE7F; |
| end |
| else if (tmp_char1 == "Y" || tmp_char1 == "Z" || tmp_char1 == "S" || |
| tmp_char1 == "T" || tmp_char1 == "K" || tmp_char1 == "L") |
| begin |
| ASP_reg = 16'hFE4F; |
| ASP_reg_in = 16'hFE4F; |
| end |
| |
| if (tmp_char2 == "0") |
| begin |
| PageSize = 255; |
| PageNum = PageNum64; |
| SecSize = SecSize64; |
| end |
| else if (tmp_char2 == "1") |
| begin |
| PageSize = 511; |
| PageNum = PageNum256; |
| SecSize = SecSize256; |
| end |
| end |
| |
| //CFI |
| initial |
| begin: InitCFI |
| integer i; |
| integer j; |
| /////////////////////////////////////////////////////////////////////// |
| // ID-CFI array data |
| /////////////////////////////////////////////////////////////////////// |
| // Manufacturer and Device ID |
| CFI_array[8'h00] = Jedec_ID; |
| CFI_array[8'h01] = DeviceID1; |
| CFI_array[8'h02] = DeviceID2; |
| CFI_array[8'h03] = 8'h00; |
| if (tmp_char2 == "0") |
| // Uniform 64kB sectors |
| CFI_array[8'h04] = ExtendedID64; |
| else if (tmp_char2 == "1") |
| // Uniform 256kB sectors |
| CFI_array[8'h04] = ExtendedID256; |
| CFI_array[8'h05] = 8'h80; |
| CFI_array[8'h06] = 8'h00; |
| CFI_array[8'h07] = 8'h00; |
| CFI_array[8'h08] = 8'h00; |
| CFI_array[8'h09] = 8'h00; |
| CFI_array[8'h0A] = 8'h00; |
| CFI_array[8'h0B] = 8'h00; |
| CFI_array[8'h0C] = 8'h00; |
| CFI_array[8'h0D] = 8'h00; |
| CFI_array[8'h0E] = 8'h00; |
| CFI_array[8'h0F] = 8'h00; |
| // CFI Query Identification String |
| CFI_array[8'h10] = 8'h51; |
| CFI_array[8'h11] = 8'h52; |
| CFI_array[8'h12] = 8'h59; |
| CFI_array[8'h13] = 8'h02; |
| CFI_array[8'h14] = 8'h00; |
| CFI_array[8'h15] = 8'h40; |
| CFI_array[8'h16] = 8'h00; |
| CFI_array[8'h17] = 8'h53; |
| CFI_array[8'h18] = 8'h46; |
| CFI_array[8'h19] = 8'h51; |
| CFI_array[8'h1A] = 8'h00; |
| //CFI system interface string |
| CFI_array[8'h1B] = 8'h27; |
| CFI_array[8'h1C] = 8'h36; |
| CFI_array[8'h1D] = 8'h00; |
| CFI_array[8'h1E] = 8'h00; |
| CFI_array[8'h1F] = 8'h06; |
| if (tmp_char2 == "0") |
| begin |
| // 64kB sector and 256B page |
| CFI_array[8'h20] = 8'h08; |
| CFI_array[8'h21] = 8'h08; |
| end |
| else if (tmp_char2 == "1") |
| begin |
| // 256kB sector and 512B page |
| CFI_array[8'h20] = 8'h09; |
| CFI_array[8'h21] = 8'h09; |
| end |
| CFI_array[8'h22] = 8'h10; |
| CFI_array[8'h23] = 8'h02; |
| CFI_array[8'h24] = 8'h02; |
| CFI_array[8'h25] = 8'h03; |
| CFI_array[8'h26] = 8'h03; |
| // Device Geometry Definition(Uniform Sector Devices) |
| CFI_array[8'h27] = 8'h19; |
| CFI_array[8'h28] = 8'h02; |
| CFI_array[8'h29] = 8'h01; |
| |
| if (tmp_char2 == "0") |
| // 64kB sectors |
| CFI_array[8'h2A] = 8'h08; |
| else if (tmp_char2 == "1") |
| CFI_array[8'h2A] = 8'h09; |
| |
| CFI_array[8'h2B] = 8'h00; |
| if (tmp_char2 == "1") |
| begin |
| CFI_array[8'h2C] = 8'h01; |
| CFI_array[8'h2D] = 8'h7F; |
| CFI_array[8'h2E] = 8'h00; |
| CFI_array[8'h2F] = 8'h00; |
| CFI_array[8'h30] = 8'h04; |
| CFI_array[8'h31] = 8'hFF; |
| CFI_array[8'h32] = 8'hFF; |
| CFI_array[8'h33] = 8'hFF; |
| CFI_array[8'h34] = 8'hFF; |
| end |
| else |
| begin |
| CFI_array[8'h2C] = 8'h02; |
| if (TBPARM) |
| begin |
| // 4KB physical sectors at top |
| CFI_array[8'h2D] = 8'hFD; |
| CFI_array[8'h2E] = 8'h00; |
| CFI_array[8'h2F] = 8'h00; |
| CFI_array[8'h30] = 8'h01; |
| CFI_array[8'h31] = 8'h1F; |
| CFI_array[8'h32] = 8'h01; |
| CFI_array[8'h33] = 8'h10; |
| CFI_array[8'h34] = 8'h00; |
| end |
| else |
| begin |
| // 4KB physical sectors at bottom |
| CFI_array[8'h2D] = 8'h1F; |
| CFI_array[8'h2E] = 8'h00; |
| CFI_array[8'h2F] = 8'h10; |
| CFI_array[8'h30] = 8'h00; |
| CFI_array[8'h31] = 8'hFD; |
| CFI_array[8'h32] = 8'h01; |
| CFI_array[8'h33] = 8'h00; |
| CFI_array[8'h34] = 8'h01; |
| end |
| end |
| CFI_array[8'h35] = 8'hFF; |
| CFI_array[8'h36] = 8'hFF; |
| CFI_array[8'h37] = 8'hFF; |
| CFI_array[8'h38] = 8'hFF; |
| CFI_array[8'h39] = 8'hFF; |
| CFI_array[8'h3A] = 8'hFF; |
| CFI_array[8'h3B] = 8'hFF; |
| CFI_array[8'h3C] = 8'hFF; |
| CFI_array[8'h3D] = 8'hFF; |
| CFI_array[8'h3E] = 8'hFF; |
| CFI_array[8'h3F] = 8'hFF; |
| // CFI Primary Vendor-Specific Extended Query |
| CFI_array[8'h40] = 8'h50; |
| CFI_array[8'h41] = 8'h52; |
| CFI_array[8'h42] = 8'h49; |
| CFI_array[8'h43] = 8'h31; |
| CFI_array[8'h44] = 8'h33; |
| CFI_array[8'h45] = 8'h21; |
| CFI_array[8'h46] = 8'h02; |
| CFI_array[8'h47] = 8'h01; |
| CFI_array[8'h48] = 8'h00; |
| CFI_array[8'h49] = 8'h08; |
| CFI_array[8'h4A] = 8'h00; |
| CFI_array[8'h4B] = 8'h01; |
| CFI_array[8'h4C] = 8'h00; |
| CFI_array[8'h4D] = 8'h00; |
| CFI_array[8'h4E] = 8'h00; |
| CFI_array[8'h4F] = 8'h07; |
| CFI_array[8'h50] = 8'h01; |
| |
| begin |
| for(i=80;i>=0;i=i-1) |
| begin |
| CFI_tmp = CFI_array[8'h00-i+80]; |
| for(j=7;j>=0;j=j-1) |
| begin |
| CFI_array_tmp[8*i+j] = CFI_tmp[j]; |
| end |
| end |
| end |
| |
| end |
| |
| always @(next_state_event or PoweredUp or RST or RST_out or |
| RSTNeg_in or rising_edge_RSTNeg or falling_edge_RST) |
| begin: StateTransition |
| if (PoweredUp) |
| begin |
| if ((RSTNeg_in == 1'b1) && (RST_out == 1'b1)) |
| current_state = #(1000) next_state; |
| else if ((~RSTNeg_in || rising_edge_RSTNeg) && falling_edge_RST) |
| begin |
| // no state transition while RESET# low |
| current_state = RESET_STATE; |
| RST_in = 1'b1; |
| #1000 RST_in = 1'b0; |
| end |
| end |
| end |
| |
| always @(posedge RST_in) |
| begin:Threset |
| RST_out = 1'b0; |
| #(35000000-200000) RST_out = 1'b1; |
| end |
| |
| always @(negedge CSNeg_ipd) |
| begin:CheckCEOnPowerUP |
| if (~PoweredUp) |
| $display ("%0t=> Device is selected during Power Up",$time); |
| end |
| |
| /////////////////////////////////////////////////////////////////////////// |
| //// Internal Delays |
| /////////////////////////////////////////////////////////////////////////// |
| |
| always @(posedge PRGSUSP_in) |
| begin:PRGSuspend |
| PRGSUSP_out = 1'b0; |
| #tdevice_PRGSUSP PRGSUSP_out = 1'b1; |
| end |
| |
| always @(posedge PPBERASE_in) |
| begin:PPBErs |
| PPBERASE_out = 1'b0; |
| #tdevice_PPBERASE PPBERASE_out = 1'b1; |
| end |
| |
| always @(posedge ERSSUSP_in) |
| begin:ERSSuspend |
| ERSSUSP_out = 1'b0; |
| #tdevice_ERSSUSP ERSSUSP_out = 1'b1; |
| end |
| |
| always @(posedge PASSULCK_in) |
| begin:PASSULock |
| PASSULCK_out = 1'b0; |
| #tdevice_PASSULCK PASSULCK_out = 1'b1; |
| end |
| |
| always @(posedge PASSACC_in) |
| begin:PASSAcc |
| PASSACC_out = 1'b0; |
| #tdevice_PASSACC PASSACC_out = 1'b1; |
| end |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // write cycle decode |
| /////////////////////////////////////////////////////////////////////////////// |
| integer opcode_cnt = 0; |
| integer addr_cnt = 0; |
| integer mode_cnt = 0; |
| integer dummy_cnt = 0; |
| integer data_cnt = 0; |
| integer bit_cnt = 0; |
| |
| reg [4095:0] Data_in = 4096'b0; |
| reg [7:0] opcode; |
| reg [7:0] opcode_in; |
| reg [7:0] opcode_tmp; |
| reg [31:0] addr_bytes; |
| reg [31:0] hiaddr_bytes; |
| reg [31:0] Address_in; |
| reg [7:0] mode_bytes; |
| reg [7:0] mode_in; |
| integer Latency_code; |
| integer quad_data_in [0:1023]; |
| reg [3:0] quad_nybble = 4'b0; |
| reg [3:0] Quad_slv; |
| reg [7:0] Byte_slv; |
| |
| always @(rising_edge_CSNeg_ipd or falling_edge_CSNeg_ipd or |
| rising_edge_SCK_ipd or falling_edge_SCK_ipd or |
| current_state) |
| begin: Buscycle |
| integer i; |
| integer j; |
| integer k; |
| time CLK_PER; |
| time LAST_CLK; |
| |
| if (current_state == RESET_STATE) |
| bus_cycle_state = STAND_BY; |
| else |
| begin |
| if (falling_edge_CSNeg_ipd) |
| begin |
| if (bus_cycle_state==STAND_BY) |
| begin |
| Instruct = NONE; |
| write = 1'b1; |
| cfg_write = 0; |
| opcode_cnt = 0; |
| addr_cnt = 0; |
| mode_cnt = 0; |
| dummy_cnt = 0; |
| data_cnt = 0; |
| opcode_tmp = 0; |
| start_dlp = 0; |
| DOUBLE = 1'b0; |
| QUADRD = 1'b0; |
| CLK_PER = 1'b0; |
| LAST_CLK = 1'b0; |
| if (current_state == AUTOBOOT) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| else |
| begin |
| bus_cycle_state = OPCODE_BYTE; |
| end |
| end |
| end |
| |
| if (rising_edge_SCK_ipd) // Instructions, addresses or data present |
| begin // at SI are latched on the rising edge of SCK |
| |
| CLK_PER = $time - LAST_CLK; |
| LAST_CLK = $time; |
| if (CHECK_FREQ) |
| begin |
| if ((CLK_PER < 20000 && Latency_code == 3) || |
| (CLK_PER < 12500 && Latency_code == 0) || |
| (CLK_PER < 11100 && Latency_code == 1) || |
| (CLK_PER < 9600 && Latency_code == 2)) |
| begin |
| $display ("More wait states are required for"); |
| $display ("this clock frequency value"); |
| end |
| if (Instruct == DDRFR || Instruct == DDRFR4 || Instruct == DDRDIOR || |
| Instruct == DDRDIOR4 || Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| if (CLK_PER < 12500) |
| begin |
| ddr80 = 1'b1; |
| end |
| else |
| begin |
| ddr80 = 1'b0; |
| end |
| end |
| CHECK_FREQ = 0; |
| end |
| |
| if (~CSNeg_ipd) |
| begin |
| case (bus_cycle_state) |
| OPCODE_BYTE: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| opcode_in[opcode_cnt] = SI_in; |
| opcode_cnt = opcode_cnt + 1; |
| Latency_code = Config_reg1[7:6]; |
| if (opcode_cnt == BYTE) |
| begin |
| for(i=7;i>=0;i=i-1) |
| begin |
| opcode[i] = opcode_in[7-i]; |
| end |
| case (opcode) |
| 8'b00000110 : // 06h |
| begin |
| Instruct = WREN; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00000100 : // 04h |
| begin |
| Instruct = WRDI; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00000001 : // 01h |
| begin |
| Instruct = WRR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00000011 : // 03h |
| begin |
| Instruct = READ; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b00010011 : // 13h |
| begin |
| Instruct = RD4; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b01001011 : // 4Bh |
| begin |
| Instruct = OTPR; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b00000101 : // 05h |
| begin |
| Instruct = RDSR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00000111 : // 07h |
| begin |
| Instruct = RDSR2; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00110101 : // 35h |
| begin |
| Instruct = RDCR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10010000 : // 90h |
| begin |
| Instruct = REMS; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b10011111 : // 9Fh |
| begin |
| Instruct = RDID; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10101011 : // ABh |
| begin |
| Instruct = RES; |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| 8'b00001011 : // 0Bh |
| begin |
| Instruct = FSTRD; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00001100 : // 0Ch |
| begin |
| Instruct = FSTRD4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00001101 : // 0Dh |
| begin |
| Instruct = DDRFR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00001110 : // 0Eh |
| begin |
| Instruct = DDRFR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00111011 : // 3Bh |
| begin |
| Instruct = DOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00111100 : // 3Ch |
| begin |
| Instruct = DOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b10111011 : // BBh |
| begin |
| Instruct = DIOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b10111100 : // BCh |
| begin |
| Instruct = DIOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b10111101 : // BDh |
| begin |
| Instruct = DDRDIOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b10111110 : // BEh |
| begin |
| Instruct = DDRDIOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b01101011 : // 6Bh |
| begin |
| Instruct = QOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b01101100 : // 6Ch |
| begin |
| Instruct = QOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b11101011 : // EBh |
| begin |
| Instruct = QIOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b11101100 : // ECh |
| begin |
| Instruct = QIOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b11101101 : // EDh |
| begin |
| Instruct = DDRQIOR; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b11101110 : // EEh |
| begin |
| Instruct = DDRQIOR4; |
| bus_cycle_state = ADDRESS_BYTES; |
| CHECK_FREQ = 1'b1; |
| end |
| 8'b00000010 : // 02h |
| begin |
| Instruct = PP; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b00010010 : // 12h |
| begin |
| Instruct = PP4; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b00110010: // 32h |
| begin |
| Instruct = QPP; |
| bus_cycle_state = ADDRESS_BYTES; |
| quad_pg = 1'b1; |
| end |
| 8'b00111000: // 38h |
| begin |
| Instruct = QPP; |
| bus_cycle_state = ADDRESS_BYTES; |
| quad_pg = 1'b1; |
| end |
| 8'b00110100 : // 34h |
| begin |
| Instruct = QPP4; |
| bus_cycle_state = ADDRESS_BYTES; |
| quad_pg = 1'b1; |
| end |
| 8'b01000010 : // 42h |
| begin |
| Instruct = OTPP; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b10000101 : // 85h |
| begin |
| Instruct = PGSP; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10001010 : // 8Ah |
| begin |
| Instruct = PGRS; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11000111 : // C7h |
| begin |
| Instruct = BE; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b01100000 : // 60h |
| begin |
| Instruct = BE; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11011000 : // D8h |
| begin |
| Instruct = SE; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b11011100 : // DCh |
| begin |
| Instruct = SE4; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b01110101 : // 75h |
| begin |
| Instruct = ERSP; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b01111010 : // 7Ah |
| begin |
| Instruct = ERRS; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00010100 : // 14h |
| begin |
| Instruct = ABRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00010101 : // 15h |
| begin |
| Instruct = ABWR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00010110 : // 16h |
| begin |
| Instruct = BRRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00010111 : // 17h |
| begin |
| Instruct = BRWR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00101011 : // 2Bh |
| begin |
| Instruct = ASPRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00101111 : // 2Fh |
| begin |
| Instruct = ASPP; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11100000 : // E0h |
| begin |
| Instruct = DYBRD; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b11100001 : // E1h |
| begin |
| Instruct = DYBWR; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b11100010 : // E2h |
| begin |
| Instruct = PPBRD; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b11100011 : // E3h |
| begin |
| Instruct = PPBP; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b11100100 : // E4h |
| begin |
| Instruct = PPBERS; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10100110 : // A6h |
| begin |
| Instruct = PLBWR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10100111 : // A7h |
| begin |
| Instruct = PLBRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11100111 : // E7h |
| begin |
| Instruct = PASSRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11101000 : // E8h |
| begin |
| Instruct = PASSP; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11101001 : // E9h |
| begin |
| Instruct = PASSU; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11110000 : // F0h |
| begin |
| Instruct = RESET; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00110000 : // 30h |
| begin |
| Instruct = CLSR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b00100000 : // 20h |
| begin |
| Instruct = P4E; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b00100001 : // 21h |
| begin |
| Instruct = P4E4; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| 8'b01000001 : // 41h |
| begin |
| Instruct = DLPRD; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b01000011 : // 43h |
| begin |
| Instruct = PNVDLR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b01001010 : // 4Ah |
| begin |
| Instruct = WVDLR; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b10111001 : // B9h |
| begin |
| Instruct = BRAC; |
| bus_cycle_state = DATA_BYTES; |
| end |
| 8'b11111111 : // FFh |
| begin |
| Instruct = MBR; |
| bus_cycle_state = MODE_BYTE; |
| end |
| 8'b00011000 : // 18h |
| begin |
| Instruct = ECCRD; |
| bus_cycle_state = ADDRESS_BYTES; |
| end |
| endcase |
| end |
| end |
| end //end of OPCODE BYTE |
| |
| ADDRESS_BYTES : |
| begin |
| if ((Instruct == DDRFR) || (Instruct == DDRFR4) || |
| (Instruct == DDRDIOR) || (Instruct == DDRDIOR4) || |
| (Instruct == DDRQIOR) || (Instruct == DDRQIOR4)) |
| DOUBLE = 1'b1; |
| else |
| DOUBLE = 1'b0; |
| if ((Instruct == QOR) || (Instruct == QOR4) || |
| (Instruct == QIOR) || (Instruct == QIOR4) || |
| (Instruct == DDRQIOR) || (Instruct == DDRQIOR4)) |
| QUADRD = 1'b1; |
| else |
| QUADRD = 1'b0; |
| if (DOUBLE == 1'b0) |
| begin |
| if (((((Instruct == FSTRD) && (~EXTADD)) || |
| ((Instruct == DOR) && (~EXTADD)) || |
| (Instruct == OTPR)) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) || |
| ((Instruct == QOR) && QUAD && (~EXTADD))) |
| begin |
| //Instruction + 3 Bytes Address + Dummy Byte |
| Address_in[addr_cnt] = SI_in; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 3*BYTE) |
| begin |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes ; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (Instruct==FSTRD || Instruct==DOR || |
| Instruct == QOR) |
| begin |
| if (Latency_code == 3) |
| bus_cycle_state = DATA_BYTES; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if (Instruct==ECCRD) |
| begin |
| //Instruction + 4 Bytes Address + Dummy Byte |
| Address_in[addr_cnt] = SI_in; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 4*BYTE) |
| begin |
| for(i=31;i>=0;i=i-1) |
| begin |
| hiaddr_bytes[31-i] = Address_in[i]; |
| end |
| //High order address bits are ignored |
| Address = {hiaddr_bytes[31:4],4'b0000}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if ((((Instruct==FSTRD4) || |
| (Instruct==DOR4) || |
| ((Instruct==FSTRD) && EXTADD) || |
| ((Instruct==DOR) && EXTADD)) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) || |
| ((Instruct==QOR4) && QUAD) || |
| ((Instruct==QOR) && QUAD && EXTADD)) |
| begin |
| //Instruction + 4 Bytes Address + Dummy Byte |
| Address_in[addr_cnt] = SI_in; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 4*BYTE) |
| begin |
| for(i=31;i>=0;i=i-1) |
| begin |
| hiaddr_bytes[31-i] = Address_in[i]; |
| end |
| //High order address bits are ignored |
| Address = {7'b0000000,hiaddr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (Latency_code == 3) |
| bus_cycle_state = DATA_BYTES; |
| else |
| begin |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| end |
| else if ((Instruct==DIOR) && (~EXTADD) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) |
| begin |
| //DUAL I/O High Performance Read(3 Bytes Addr) |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt + 1] = SI_in; |
| read_cnt = 0; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 3*BYTE/2) |
| begin |
| addr_cnt = 0; |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i]=Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if (((Instruct==DIOR4) || |
| ((Instruct==DIOR) && EXTADD)) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) |
| begin //DUAL I/O High Performance Read(4Bytes Addr) |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt + 1] = SI_in; |
| read_cnt = 0; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 4*BYTE/2) |
| begin |
| addr_cnt = 0; |
| for(i=31;i>=0;i=i-1) |
| begin |
| addr_bytes[31-i] = Address_in[i]; |
| end |
| Address = {7'b0000000,addr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if ((Instruct == QIOR) && (~EXTADD)) |
| begin |
| //QUAD I/O High Performance Read (3Bytes Address) |
| if (QUAD) |
| begin |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| read_cnt = 0; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 3*BYTE/4) |
| begin |
| addr_cnt = 0; |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = MODE_BYTE; |
| end |
| end |
| else |
| bus_cycle_state = STAND_BY; |
| end |
| else if ((Instruct==QIOR4) || ((Instruct==QIOR) |
| && EXTADD)) |
| begin |
| //QUAD I/O High Performance Read (4Bytes Addr) |
| if (QUAD) |
| begin |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| read_cnt = 0; |
| addr_cnt = addr_cnt +1; |
| if (addr_cnt == 4*BYTE/4) |
| begin |
| addr_cnt =0; |
| for(i=31;i>=0;i=i-1) |
| begin |
| hiaddr_bytes[31-i] = Address_in[i]; |
| end |
| //High order address bits are ignored |
| Address = {7'b0000000,hiaddr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = MODE_BYTE; |
| end |
| end |
| else |
| bus_cycle_state = STAND_BY; |
| end |
| else if ((((Instruct==RD4) || (Instruct==PP4) || |
| (Instruct==SE4) ||(Instruct==PPBRD) || |
| (Instruct==DYBRD) ||(Instruct==DYBWR) || |
| (Instruct==PPBP) || (Instruct==P4E4) || |
| ((Instruct==READ) && EXTADD) || |
| ((Instruct==PP) && EXTADD) || |
| ((Instruct==P4E) && EXTADD) || |
| ((Instruct==SE) && EXTADD)) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) || |
| (QUAD && (Instruct==QPP4 || |
| ((Instruct==QPP) && EXTADD)))) |
| begin |
| Address_in[addr_cnt] = SI_in; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 4*BYTE) |
| begin |
| for(i=31;i>=0;i=i-1) |
| begin |
| hiaddr_bytes[31-i] = Address_in[i]; |
| end |
| //High order address bits are ignored |
| Address = {7'b0000000,hiaddr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| else if (((HOLDNeg_in && ~QUAD) || QUAD) && |
| (~EXTADD)) |
| begin |
| Address_in[addr_cnt] = SI_in; |
| addr_cnt = addr_cnt + 1; |
| if (addr_cnt == 3*BYTE) |
| begin |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| end |
| else |
| begin |
| if ((Instruct==DDRFR) && (~EXTADD)) |
| //Fast DDR Read Mode |
| begin |
| Address_in[addr_cnt] = SI_in; |
| if ((addr_cnt/2) <= 16) |
| begin |
| opcode_tmp[addr_cnt/2] = SI_in; |
| end |
| addr_cnt = addr_cnt + 1; |
| read_cnt = 0; |
| end |
| else if ((Instruct==DDRFR4) || |
| ((Instruct==DDRFR) && EXTADD)) |
| begin |
| Address_in[addr_cnt] = SI_in; |
| if ((addr_cnt/2) <= 16) |
| begin |
| opcode_tmp[addr_cnt/2] = SI_in; |
| end |
| addr_cnt = addr_cnt + 1; |
| read_cnt = 0; |
| end |
| else if ((Instruct == DDRDIOR) && (~EXTADD)) |
| begin //Dual I/O DDR Read Mode |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt+1]= SI_in; |
| if ((addr_cnt/2) <= 16) |
| begin |
| opcode_tmp[addr_cnt/2] = SI_in; |
| end |
| addr_cnt = addr_cnt + 1; |
| read_cnt = 0; |
| end |
| else if ((Instruct==DDRDIOR4) || |
| ((Instruct==DDRDIOR) && EXTADD)) |
| begin //Dual I/O DDR Read Mode |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt+1] = SI_in; |
| if ((addr_cnt/2) <= 16) |
| begin |
| opcode_tmp[addr_cnt/2] = SI_in; |
| end |
| addr_cnt = addr_cnt + 1; |
| read_cnt = 0; |
| end |
| else if ((Instruct==DDRQIOR) && (~EXTADD) && QUAD) |
| begin //Quad I/O DDR Read Mode |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| opcode_tmp[addr_cnt/2] = SI_in; |
| addr_cnt = addr_cnt +1; |
| read_cnt = 0; |
| end |
| else if (QUAD && ((Instruct==DDRQIOR4) || |
| ((Instruct==DDRQIOR) && EXTADD))) |
| begin |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| opcode_tmp[addr_cnt/2] = SI_in; |
| addr_cnt = addr_cnt +1; |
| read_cnt = 0; |
| end |
| end |
| end |
| |
| MODE_BYTE : |
| begin |
| if (((Instruct==DIOR) || (Instruct == DIOR4)) |
| && ((HOLDNeg_in && ~QUAD) || QUAD)) |
| begin |
| mode_in[2*mode_cnt] = SO_in; |
| mode_in[2*mode_cnt+1] = SI_in; |
| mode_cnt = mode_cnt + 1; |
| if (mode_cnt == BYTE/2) |
| begin |
| mode_cnt = 0; |
| for(i=7;i>=0;i=i-1) |
| begin |
| mode_bytes[i] = mode_in[7-i]; |
| end |
| if (Latency_code == 0 || Latency_code == 3) |
| bus_cycle_state = DATA_BYTES; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if (((Instruct==QIOR) || (Instruct == QIOR4)) |
| && QUAD) |
| begin |
| mode_in[4*mode_cnt] = HOLDNeg_in; |
| mode_in[4*mode_cnt+1] = WPNeg_in; |
| mode_in[4*mode_cnt+2] = SO_in; |
| mode_in[4*mode_cnt+3] = SI_in; |
| mode_cnt = mode_cnt + 1; |
| if (mode_cnt == BYTE/4) |
| begin |
| mode_cnt = 0; |
| for(i=7;i>=0;i=i-1) |
| begin |
| mode_bytes[i] = mode_in[7-i]; |
| end |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if ((Instruct == DDRFR) || (Instruct == DDRFR4)) |
| mode_in[2*mode_cnt] = SI_in; |
| else if ((Instruct==DDRDIOR) || (Instruct==DDRDIOR4)) |
| begin |
| mode_in[4*mode_cnt] = SO_in; |
| mode_in[4*mode_cnt+1] = SI_in; |
| end |
| else if (((Instruct==DDRQIOR) || (Instruct == DDRQIOR4)) |
| && QUAD) |
| begin |
| mode_in[0] = HOLDNeg_in; |
| mode_in[1] = WPNeg_in; |
| mode_in[2] = SO_in; |
| mode_in[3] = SI_in; |
| end |
| dummy_cnt = 0; |
| end |
| |
| DUMMY_BYTES : |
| begin |
| Return_DLP(Instruct, EHP, Latency_code, |
| dummy_cnt, start_dlp); |
| if (DOUBLE == 1'b1 && (hold_mode==0) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| if ((((Instruct==FSTRD) || (Instruct==FSTRD4) || |
| (Instruct==DOR) || (Instruct==DOR4) || |
| (Instruct==OTPR)) && |
| ((HOLDNeg_in && ~QUAD) || QUAD)) || |
| (((Instruct==QOR)||(Instruct==QOR4)) && QUAD)) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (dummy_cnt == BYTE) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| |
| else if ((Instruct==DDRFR) || (Instruct==DDRFR4)) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (EHP) |
| begin |
| if (((Latency_code == 3) && (dummy_cnt==1)) || |
| ((Latency_code == 0) && (dummy_cnt==2)) || |
| ((Latency_code == 1) && (dummy_cnt==4)) || |
| ((Latency_code == 2) && (dummy_cnt==5))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| else |
| begin |
| if (((Latency_code == 3) && (dummy_cnt==4)) || |
| ((Latency_code == 0) && (dummy_cnt==5)) || |
| ((Latency_code == 1) && (dummy_cnt==6)) || |
| ((Latency_code == 2) && (dummy_cnt==7))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| end |
| else if (Instruct==RES) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (dummy_cnt == 3*BYTE) |
| bus_cycle_state = DATA_BYTES; |
| end |
| else if (Instruct==ECCRD) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (dummy_cnt == BYTE) |
| bus_cycle_state = DATA_BYTES; |
| end |
| else if ((Instruct == DIOR) || (Instruct == DIOR4) |
| && ((HOLDNeg_in && ~QUAD) || QUAD)) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (EHP) |
| begin |
| if (((Latency_code == 1) && (dummy_cnt==1)) || |
| ((Latency_code == 2) && (dummy_cnt==2))) |
| bus_cycle_state = DATA_BYTES; |
| end |
| else |
| begin |
| if (((Latency_code == 3) && (dummy_cnt==4)) || |
| ((Latency_code == 0) && (dummy_cnt==4)) || |
| ((Latency_code == 1) && (dummy_cnt==5)) || |
| ((Latency_code == 2) && (dummy_cnt==6))) |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| else if ((Instruct==DDRDIOR) || (Instruct==DDRDIOR4)) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (EHP) |
| begin |
| if (((Latency_code == 3) && (dummy_cnt==2)) || |
| ((Latency_code == 0) && (dummy_cnt==4)) || |
| ((Latency_code == 1) && (dummy_cnt==5)) || |
| ((Latency_code == 2) && (dummy_cnt==6))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| else |
| begin |
| if (((Latency_code == 3) && (dummy_cnt==4)) || |
| ((Latency_code == 0) && (dummy_cnt==6)) || |
| ((Latency_code == 1) && (dummy_cnt==7)) || |
| ((Latency_code == 2) && (dummy_cnt==8))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| end |
| else if (((Instruct == QIOR) || (Instruct == QIOR4)) |
| && QUAD) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| if (((Latency_code == 3) && (dummy_cnt==1)) || |
| ((Latency_code == 0) && (dummy_cnt==4)) || |
| ((Latency_code == 1) && (dummy_cnt==4)) || |
| ((Latency_code == 2) && (dummy_cnt==5))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| else if (((Instruct==DDRQIOR) || (Instruct==DDRQIOR4)) |
| && QUAD) |
| begin |
| dummy_cnt = dummy_cnt + 1; |
| |
| if (((Latency_code == 3) && (dummy_cnt==3)) || |
| ((Latency_code == 0) && (dummy_cnt==6)) || |
| ((Latency_code == 1) && (dummy_cnt==7)) || |
| ((Latency_code == 2) && (dummy_cnt==8))) |
| begin |
| bus_cycle_state = DATA_BYTES; |
| end |
| end |
| end |
| |
| DATA_BYTES : |
| begin |
| |
| if (DOUBLE == 1'b1 && (hold_mode==0)) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| |
| if ((QUAD) && ((Instruct==QPP) || (Instruct == QPP4))) |
| begin |
| quad_nybble = {HOLDNeg_in, WPNeg_in, SO_in, SI_in}; |
| if (data_cnt > ((PageSize+1)*2-1)) |
| begin |
| //In case of quad mode and QPP, |
| //if more than 512 bytes are sent to the device |
| for(i=0;i<=(PageSize*2-1);i=i+1) |
| begin |
| quad_data_in[i] = quad_data_in[i+1]; |
| end |
| quad_data_in[(PageSize+1)*2-1] = quad_nybble; |
| data_cnt = data_cnt +1; |
| end |
| else |
| begin |
| if (quad_nybble !== 4'bZZZZ) |
| begin |
| quad_data_in[data_cnt] = quad_nybble; |
| end |
| data_cnt = data_cnt +1; |
| end |
| end |
| else if ((~QUADRD) && ((HOLDNeg_in && ~QUAD) || QUAD)) |
| begin |
| if (data_cnt > ((PageSize+1)*8-1)) |
| begin |
| //In case of serial mode and PP, |
| //if more than PageSize are sent to the device |
| //previously latched data are discarded and last |
| //256/512 data bytes are guaranteed to be programmed |
| //correctly within the same page. |
| if (bit_cnt == 0) |
| begin |
| for(i=0;i<=(PageSize*BYTE-1);i=i+1) |
| begin |
| Data_in[i] = Data_in[i+8]; |
| end |
| end |
| Data_in[PageSize*BYTE + bit_cnt] = SI_in; |
| bit_cnt = bit_cnt + 1; |
| if (bit_cnt == 8) |
| begin |
| bit_cnt = 0; |
| end |
| data_cnt = data_cnt + 1; |
| end |
| else |
| begin |
| Data_in[data_cnt] = SI_in; |
| data_cnt = data_cnt + 1; |
| bit_cnt = 0; |
| end |
| end |
| end |
| endcase |
| end |
| end |
| |
| if (falling_edge_SCK_ipd) |
| begin |
| if (~CSNeg_ipd) |
| begin |
| case (bus_cycle_state) |
| ADDRESS_BYTES : |
| begin |
| if (DOUBLE == 1'b1) |
| begin |
| if ((Instruct==DDRFR) && (~EXTADD)) |
| //Fast DDR Read Mode |
| begin |
| Address_in[addr_cnt] = SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 3*BYTE) |
| begin |
| addr_cnt = 0; |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if ((Instruct==DDRFR4) || |
| ((Instruct==DDRFR) && EXTADD)) |
| begin |
| Address_in[addr_cnt] = SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 4*BYTE) |
| begin |
| addr_cnt = 0; |
| for(i=31;i>=0;i=i-1) |
| begin |
| addr_bytes[31-i] = Address_in[i]; |
| end |
| Address = {7'b0000000,addr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| begin |
| bus_cycle_state = DUMMY_BYTES; |
| if (DOUBLE == 1'b1 && (hold_mode==0) |
| && VDLR_reg != 8'b00000000) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| end |
| else if ((Instruct == DDRDIOR) && (~EXTADD)) |
| begin //Dual I/O DDR Read Mode |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt+1]= SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 3*BYTE/2) |
| begin |
| addr_cnt = 0; |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| bus_cycle_state = DUMMY_BYTES; |
| end |
| end |
| else if ((Instruct==DDRDIOR4) || |
| ((Instruct==DDRDIOR) && EXTADD)) |
| begin //Dual I/O DDR Read Mode |
| Address_in[2*addr_cnt] = SO_in; |
| Address_in[2*addr_cnt+1] = SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 4*BYTE/2) |
| begin |
| addr_cnt = 0; |
| for(i=31;i>=0;i=i-1) |
| begin |
| addr_bytes[31-i] = Address_in[i]; |
| end |
| Address = {7'b0000000,addr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| if (EHP) |
| bus_cycle_state = MODE_BYTE; |
| else |
| begin |
| bus_cycle_state = DUMMY_BYTES; |
| if (DOUBLE == 1'b1 && (hold_mode==0) |
| && VDLR_reg != 8'b00000000) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| end |
| else if ((Instruct==DDRQIOR) && (~EXTADD) && QUAD) |
| begin //Quad I/O DDR Read Mode |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 3*BYTE/4) |
| begin |
| addr_cnt = 0; |
| for(i=23;i>=0;i=i-1) |
| begin |
| addr_bytes[23-i] = Address_in[i]; |
| end |
| addr_bytes[31:25] = 7'b0000000; |
| addr_bytes[24] = Bank_Addr_reg[0]; |
| Address = addr_bytes; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = MODE_BYTE; |
| end |
| end |
| else if (QUAD && ((Instruct==DDRQIOR4) || |
| ((Instruct==DDRQIOR) && EXTADD))) |
| begin |
| Address_in[4*addr_cnt] = HOLDNeg_in; |
| Address_in[4*addr_cnt+1] = WPNeg_in; |
| Address_in[4*addr_cnt+2] = SO_in; |
| Address_in[4*addr_cnt+3] = SI_in; |
| if (addr_cnt != 0) |
| begin |
| addr_cnt = addr_cnt + 1; |
| end |
| read_cnt = 0; |
| if (addr_cnt == 4*BYTE/4) |
| begin |
| addr_cnt = 0; |
| for(i=31;i>=0;i=i-1) |
| begin |
| addr_bytes[31-i] = Address_in[i]; |
| end |
| Address = {7'b0000000,addr_bytes[24:0]}; |
| change_addr = 1'b1; |
| #1 change_addr = 1'b0; |
| bus_cycle_state = MODE_BYTE; |
| end |
| end |
| end |
| end |
| |
| MODE_BYTE : |
| begin |
| if ((Instruct == DDRFR) || (Instruct == DDRFR4)) |
| begin |
| mode_in[2*mode_cnt+1] = SI_in; |
| mode_cnt = mode_cnt + 1; |
| if (mode_cnt == BYTE/2) |
| begin |
| mode_cnt = 0; |
| for(i=7;i>=0;i=i-1) |
| begin |
| mode_bytes[i] = mode_in[7-i]; |
| end |
| bus_cycle_state = DUMMY_BYTES; |
| Return_DLP(Instruct, EHP, Latency_code, |
| dummy_cnt, start_dlp); |
| if (DOUBLE == 1'b1 && (hold_mode==0) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| else if ((Instruct==DDRDIOR) || (Instruct==DDRDIOR4)) |
| begin |
| mode_in[4*mode_cnt+2] = SO_in; |
| mode_in[4*mode_cnt+3] = SI_in; |
| mode_cnt = mode_cnt + 1; |
| if (mode_cnt == BYTE/4) |
| begin |
| mode_cnt = 0; |
| for(i=7;i>=0;i=i-1) |
| begin |
| mode_bytes[i] = mode_in[7-i]; |
| end |
| bus_cycle_state = DUMMY_BYTES; |
| Return_DLP(Instruct, EHP, Latency_code, |
| dummy_cnt, start_dlp); |
| if (DOUBLE == 1'b1 && (hold_mode==0) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| else if ((Instruct==DDRQIOR) || (Instruct==DDRQIOR4)) |
| begin |
| mode_in[4] = HOLDNeg_in; |
| mode_in[5] = WPNeg_in; |
| mode_in[6] = SO_in; |
| mode_in[7] = SI_in; |
| for(i=7;i>=0;i=i-1) |
| begin |
| mode_bytes[i] = mode_in[7-i]; |
| end |
| bus_cycle_state = DUMMY_BYTES; |
| Return_DLP(Instruct, EHP, Latency_code, |
| dummy_cnt, start_dlp); |
| if (DOUBLE == 1'b1 && (hold_mode==0) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| |
| DATA_BYTES: |
| begin |
| if (hold_mode==0) |
| begin |
| if (DOUBLE == 1'b1 ) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| |
| end |
| else |
| begin |
| if ((Instruct==READ) || (Instruct==RD4) || |
| (Instruct==FSTRD)|| (Instruct==FSTRD4)|| |
| (Instruct==RDSR) || (Instruct==RDSR2) || |
| (Instruct==RDCR) || (Instruct==OTPR) || |
| (Instruct==DOR) || (Instruct==DOR4) || |
| (Instruct==DIOR)|| (Instruct==DIOR4)|| |
| (Instruct==ABRD) || (Instruct==BRRD) || |
| (Instruct==ASPRD)|| (Instruct==DYBRD) || |
| (Instruct==PPBRD)|| (Instruct == ECCRD) || |
| (Instruct==PASSRD)|| (Instruct==RDID)|| |
| (Instruct==RES) || (Instruct==REMS) || |
| (Instruct==PLBRD)|| (Instruct==DLPRD) || |
| (current_state == AUTOBOOT && |
| start_delay == 0) || |
| (((Instruct==QOR) || (Instruct==QIOR) || |
| (Instruct==QOR4) || |
| (Instruct==QIOR4)) && QUAD)) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| end |
| |
| DUMMY_BYTES: |
| begin |
| if (hold_mode==0) |
| begin |
| Return_DLP(Instruct, EHP, Latency_code, |
| dummy_cnt, start_dlp); |
| |
| if (DOUBLE == 1'b1 && VDLR_reg != 8'b00000000 && |
| start_dlp) |
| begin |
| read_out = 1'b1; |
| #10 read_out = 1'b0; |
| end |
| end |
| end |
| |
| endcase |
| end |
| end |
| |
| if (rising_edge_CSNeg_ipd) |
| begin |
| if (bus_cycle_state != DATA_BYTES) |
| begin |
| if (bus_cycle_state == ADDRESS_BYTES && opcode_tmp == 8'hFF) |
| begin |
| Instruct = MBR; |
| end |
| bus_cycle_state = STAND_BY; |
| end |
| else |
| begin |
| if (bus_cycle_state == DATA_BYTES) |
| begin |
| if (((mode_bytes[7:4] == 4'b1010) && |
| (Instruct==DIOR || Instruct==DIOR4 || |
| Instruct==QIOR || Instruct==QIOR4)) || |
| ((mode_bytes[7:4] == ~mode_bytes[3:0]) && |
| (Instruct == DDRFR || Instruct == DDRFR4 || |
| Instruct == DDRDIOR || Instruct == DDRDIOR4 || |
| Instruct == DDRQIOR || Instruct == DDRQIOR4))) |
| bus_cycle_state = ADDRESS_BYTES; |
| else |
| bus_cycle_state = STAND_BY; |
| |
| case (Instruct) |
| WREN, |
| WRDI, |
| BE, |
| SE, |
| SE4, |
| P4E, |
| P4E4, |
| CLSR, |
| BRAC, |
| RESET, |
| PPBERS, |
| PPBP, |
| PLBWR, |
| PGSP, |
| PGRS, |
| ERSP, |
| ERRS: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 0) |
| write = 1'b0; |
| end |
| end |
| |
| WRR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 8) |
| //If CS# is driven high after eight |
| //cycle,only the Status Register is |
| //written to. |
| begin |
| write = 1'b0; |
| if (BAR_ACC == 0) |
| begin |
| for(i=0;i<=7;i=i+1) |
| begin |
| Status_reg1_in[i]= |
| Data_in[7-i]; |
| end |
| end |
| else |
| begin |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| for(i=0;i<=7;i=i+1) |
| begin |
| Bank_Addr_reg_in[i]= |
| Data_in[7-i]; |
| end |
| end |
| end |
| end |
| else if (data_cnt == 16) |
| //After the 16th cycle both the |
| //Status and Configuration Registers |
| //are written to. |
| begin |
| write = 1'b0; |
| if (BAR_ACC == 0) |
| begin |
| cfg_write = 1'b1; |
| for(i=0;i<=7;i=i+1) |
| begin |
| Status_reg1_in[i]= |
| Data_in[7-i]; |
| Config_reg1_in[i]= |
| Data_in[15-i]; |
| end |
| end |
| else |
| begin |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| for(i=0;i<=7;i=i+1) |
| begin |
| Bank_Addr_reg_in[i]= |
| Data_in[7-i]; |
| end |
| end |
| end |
| end |
| end |
| end |
| |
| PP, |
| PP4, |
| OTPP: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt > 0) |
| begin |
| if ((data_cnt % 8) == 0) |
| begin |
| write = 1'b0; |
| for(i=0;i<=PageSize;i=i+1) |
| begin |
| for(j=7;j>=0;j=j-1) |
| begin |
| if ((Data_in[(i*8)+(7-j)]) |
| !== 1'bX) |
| begin |
| Byte_slv[j] = |
| Data_in[(i*8)+(7-j)]; |
| end |
| end |
| WByte[i] = Byte_slv; |
| end |
| |
| if (data_cnt > (PageSize+1)*BYTE) |
| Byte_number = PageSize; |
| else |
| Byte_number = |
| ((data_cnt/8) - 1); |
| end |
| end |
| end |
| end |
| |
| QPP, |
| QPP4: |
| begin |
| if (data_cnt >0) |
| begin |
| if ((data_cnt % 2) == 0) |
| begin |
| write = 1'b0; |
| quad_pg = 1'b0; |
| for(i=0;i<=PageSize;i=i+1) |
| begin |
| for(j=1;j>=0;j=j-1) |
| begin |
| Quad_slv = |
| quad_data_in[(i*2)+(1-j)]; |
| if (j==1) |
| Byte_slv[7:4] = Quad_slv; |
| else if (j==0) |
| Byte_slv[3:0] = Quad_slv; |
| end |
| WByte[i] = Byte_slv; |
| end |
| if (data_cnt > (PageSize+1)*2) |
| Byte_number = PageSize; |
| else |
| Byte_number = ((data_cnt/2)-1); |
| end |
| end |
| end |
| |
| ABWR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 32) |
| begin |
| write = 1'b0; |
| for(j=0;j<=31;j=j+1) |
| begin |
| AutoBoot_reg_in[j] = Data_in[31-j]; |
| end |
| end |
| end |
| end |
| |
| BRWR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 8) |
| begin |
| write = 1'b0; |
| for(j=0;j<=7;j=j+1) |
| begin |
| Bank_Addr_reg_in[j] = Data_in[7-j]; |
| end |
| end |
| end |
| end |
| |
| ASPP: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 16) |
| begin |
| write = 1'b0; |
| for(j=0;j<=15;j=j+1) |
| begin |
| ASP_reg_in[j] = Data_in[15-j]; |
| end |
| end |
| end |
| end |
| |
| DYBWR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 8) |
| begin |
| write = 1'b0; |
| for(j=0;j<=7;j=j+1) |
| begin |
| DYBAR_in[j] = Data_in[7-j]; |
| end |
| end |
| end |
| end |
| |
| PNVDLR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 8) |
| begin |
| write = 1'b0; |
| for(j=0;j<=7;j=j+1) |
| begin |
| NVDLR_reg_in[j] = Data_in[7-j]; |
| end |
| end |
| end |
| end |
| |
| WVDLR: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 8) |
| begin |
| write = 1'b0; |
| for(j=0;j<=7;j=j+1) |
| begin |
| VDLR_reg_in[j] = Data_in[7-j]; |
| end |
| end |
| end |
| end |
| |
| PASSP: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 64) |
| begin |
| write = 1'b0; |
| for(j=1;j<=8;j=j+1) |
| begin |
| for(k=1;k<=8;k=k+1) |
| begin |
| Password_reg_in[j*8-k] = |
| Data_in[8*(j-1)+k-1]; |
| end |
| end |
| end |
| end |
| end |
| |
| PASSU: |
| begin |
| if ((HOLDNeg_in && ~QUAD) || QUAD) |
| begin |
| if (data_cnt == 64) |
| begin |
| write = 1'b0; |
| for(j=1;j<=8;j=j+1) |
| begin |
| for(k=1;k<=8;k=k+1) |
| begin |
| PASS_TEMP[j*8-k] = |
| Data_in[8*(j-1)+k-1]; |
| end |
| end |
| end |
| end |
| end |
| endcase |
| end |
| end |
| end |
| end |
| end |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Timing control for the Page Program |
| /////////////////////////////////////////////////////////////////////////////// |
| time pob; |
| time elapsed_pgm; |
| time elapsed_tsu; |
| time start_pgm; |
| time start_tsu; |
| time duration_pgm; |
| time duration_tsu; |
| event pdone_event; |
| |
| always @(rising_edge_PSTART) |
| begin |
| if ((Instruct == PP) || (Instruct == PP4) || (Instruct == OTPP) || |
| (Instruct == QPP) || (Instruct == QPP4)) |
| if (PageSize == 255) |
| begin |
| pob = tdevice_PP_256; |
| end |
| else |
| begin |
| pob = tdevice_PP_512; |
| end |
| else |
| pob = tdevice_BP; |
| if ((rising_edge_PSTART) && PDONE) |
| begin |
| elapsed_pgm = 0; |
| duration_pgm = pob; |
| PDONE = 1'b0; |
| ->pdone_event; |
| start_pgm = $time; |
| end |
| end |
| |
| always @(posedge PGSUSP) |
| begin |
| if (PGSUSP && (~PDONE)) |
| begin |
| disable pdone_process; |
| elapsed_pgm = $time - start_pgm; |
| duration_pgm = pob - elapsed_pgm; |
| PDONE = 1'b0; |
| end |
| end |
| |
| always @(posedge PGRES) |
| begin |
| start_pgm = $time; |
| ->pdone_event; |
| end |
| |
| always @(pdone_event) |
| begin:pdone_process |
| PDONE = 1'b0; |
| #duration_pgm PDONE = 1'b1; |
| end |
| |
| always @(SI) |
| begin |
| if ((Instruct == PGSP) || (Instruct == PGRS) || |
| (Instruct == ERSP) || (Instruct == ERRS)) |
| begin |
| start_tsu = $time; |
| end |
| end |
| |
| always @(posedge SCK) |
| begin |
| if ((Instruct == PGSP) || (Instruct == PGRS) || |
| (Instruct == ERSP) || (Instruct == ERRS)) |
| begin |
| elapsed_tsu = $time - start_tsu; |
| duration_tsu = tdevice_TSU - elapsed_tsu; |
| if (duration_tsu > 0) |
| begin |
| TSU = 1'b0; |
| end |
| else |
| begin |
| TSU = 1'b1; |
| $display("Warning at", $time); |
| $display("tSU max time violation"); |
| end |
| end |
| end |
| /////////////////////////////////////////////////////////////////////////////// |
| // Timing control for the Write Status Register |
| /////////////////////////////////////////////////////////////////////////////// |
| time wob; |
| always @(posedge WSTART) |
| begin:wdone_process |
| wob = tdevice_WRR; |
| if (WSTART && WDONE) |
| begin |
| WDONE = 1'b0; |
| #wob WDONE = 1'b1; |
| end |
| end |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Reset Timing |
| /////////////////////////////////////////////////////////////////////////////// |
| |
| time startlo; |
| time starthi; |
| time durationlo; |
| time durationhi; |
| |
| always @(negedge RSTNeg_in or Instruct) |
| begin |
| if (~RSTNeg_in) |
| begin |
| RST = 1'b1; |
| #200000 RST = 1'b0; // 200 ns |
| end |
| else if (Instruct == RESET) |
| begin |
| Reseted = 1'b0; |
| #10000 Reseted = 1'b1; // 10 ns |
| end |
| end |
| |
| always @(RST_in or rising_edge_Reseted) // Reset done,program terminated |
| begin |
| if ((RST_in && ~RST) || (rising_edge_Reseted)) |
| disable pdone_process; |
| disable edone_process; |
| disable wdone_process; |
| PDONE = 1'b1; |
| EDONE = 1'b1; |
| WDONE = 1'b1; |
| end |
| |
| /////////////////////////////////////////////////////////////////////////////// |
| // Timing control for the Bulk Erase |
| /////////////////////////////////////////////////////////////////////////////// |
| time seo; |
| time beo; |
| event edone_event; |
| time elapsed_ers; |
| time start_ers; |
| time duration_ers; |
| |
| always @(rising_edge_ESTART) |
| begin |
| if (UniformSec) |
| begin |
| seo = tdevice_SE256; |
| end |
| else |
| begin |
| seo = tdevice_SE64; |
| end |
| beo = tdevice_BE; |
| if ((rising_edge_ESTART) && EDONE) |
| begin |
| if (Instruct == BE) |
| begin |
| duration_ers = beo; |
| end |
| else |
| begin |
| duration_ers = seo; |
| end |
| elapsed_ers = 0; |
| EDONE = 1'b0; |
| ->edone_event; |
| start_ers = $time; |
| end |
| end |
| |
| always @(posedge ESUSP) |
| begin |
| if (ESUSP && (~EDONE)) |
| begin |
| disable edone_process; |
| elapsed_ers = $time - start_ers; |
| duration_ers = seo - elapsed_ers; |
| EDONE = 1'b0; |
| end |
| end |
| |
| always @(posedge ERES) |
| begin |
| if (ERES && (~EDONE)) |
| begin |
| start_ers = $time; |
| ->edone_event; |
| end |
| end |
| |
| always @(edone_event) |
| begin : edone_process |
| EDONE = 1'b0; |
| #duration_ers EDONE = 1'b1; |
| end |
| |
| /////////////////////////////////////////////////////////////////// |
| // Process for clock frequency determination |
| /////////////////////////////////////////////////////////////////// |
| always @(posedge SCK_ipd) |
| begin : clock_period |
| if (SCK_ipd) |
| begin |
| SCK_cycle = $time - prev_SCK; |
| prev_SCK = $time; |
| end |
| end |
| |
| // ///////////////////////////////////////////////////////////////////////// |
| // // Main Behavior Process |
| // // combinational process for next state generation |
| // ///////////////////////////////////////////////////////////////////////// |
| |
| reg rising_edge_PDONE = 1'b0; |
| reg rising_edge_EDONE = 1'b0; |
| reg rising_edge_WDONE = 1'b0; |
| reg falling_edge_write = 1'b0; |
| reg falling_edge_PPBERASE_in = 1'b0; |
| reg falling_edge_PASSULCK_in = 1'b0; |
| |
| integer i; |
| integer j; |
| |
| always @(rising_edge_PoweredUp or falling_edge_write or |
| falling_edge_RSTNeg or rising_edge_PDONE or rising_edge_WDONE or |
| rising_edge_EDONE or ERSSUSP_out_event or rising_edge_RSTNeg or |
| PRGSUSP_out_event or rising_edge_CSNeg_ipd or rising_edge_RST_out |
| or falling_edge_PPBERASE_in or falling_edge_PASSULCK_in or RST_out) |
| begin: StateGen1 |
| |
| integer sect; |
| |
| if (rising_edge_PoweredUp && RSTNeg_in && RST_out) |
| begin |
| if (ABE == 1 && RPME !== 0 ) |
| begin |
| next_state = AUTOBOOT; |
| read_cnt = 0; |
| byte_cnt = 1; |
| read_addr = {AutoBoot_reg[31:9], 9'b0}; |
| start_delay = AutoBoot_reg[8:1]; |
| start_autoboot = 0; |
| ABSD = AutoBoot_reg[8:1]; |
| end |
| else |
| next_state = IDLE; |
| end |
| else if (PoweredUp) |
| begin |
| if (RST_out == 1'b0) |
| next_state = current_state; |
| else if (falling_edge_write && Instruct == RESET) |
| begin |
| if (ABE == 1 && RPME !== 0) |
| begin |
| read_cnt = 0; |
| byte_cnt = 1; |
| read_addr = {AutoBoot_reg[31:9], 9'b0}; |
| start_delay = AutoBoot_reg[8:1]; |
| ABSD = AutoBoot_reg[8:1]; |
| start_autoboot = 0; |
| next_state = AUTOBOOT; |
| end |
| else |
| next_state = IDLE; |
| end |
| else |
| begin |
| case (current_state) |
| RESET_STATE : |
| begin |
| if ((rising_edge_RST_out && RSTNeg_in) || |
| (rising_edge_RSTNeg && RST_out)) |
| begin |
| if (ABE == 1 && RPME!== 0) |
| begin |
| next_state = AUTOBOOT; |
| read_cnt = 0; |
| byte_cnt = 1; |
| read_addr = {AutoBoot_reg[31:9],9'b0}; |
| start_delay = AutoBoot_reg[8:1]; |
| start_autoboot = 0; |
| ABSD = AutoBoot_reg[8:1]; |
| end |
| else |
| next_state = IDLE; |
| end |
| end |
| |
| IDLE : |
| begin |
| if (falling_edge_write && RdPswdProtMode == 0) |
| begin |
| if (Instruct == WRR && WEL == 1 && BAR_ACC == 0 |
| && (((~(SRWD == 1 && ~WPNeg_in))&& ~QUAD) || QUAD)) |
| // can not execute if HPM is entered or |
| // if WEL bit is zero |
| if (((TBPROT==1 && Config_reg1_in[5]==1'b0) || |
| (TBPARM==1 && Config_reg1_in[2]==1'b0) || |
| (BPNV ==1 && Config_reg1_in[3]==1'b0)) && |
| cfg_write) |
| begin |
| $display ("WARNING: Changing value of "); |
| $display ("Configuration Register OTP "); |
| $display ("bit from 1 to 0 is not"); |
| $display ("allowed!!!"); |
| end |
| else |
| begin |
| next_state = WRITE_SR; |
| end |
| else if (Instruct == WRR && BAR_ACC == 1) |
| begin |
| // Write to the lower address bits of the BAR |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| next_state = IDLE; |
| end |
| end |
| else if ((Instruct == PP || Instruct == QPP || |
| Instruct == PP4 || Instruct == QPP4) && |
| WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| if (Sec_Prot[sect]== 0 && PPB_bits[sect]== 1 && |
| DYB_bits[sect]== 1) |
| begin |
| next_state = PAGE_PG; |
| end |
| end |
| else if (Instruct==OTPP && WEL==1 && FREEZE==0) |
| begin |
| if (((((Address>=16'h0010 && Address<=16'h0013) |
| ||(Address>=16'h0020 && Address<=16'h00FF)) |
| && LOCK_BYTE1[Address/32] == 1) || |
| ((Address>=16'h0100 && Address<=16'h01FF) |
| && LOCK_BYTE2[(Address-16'h0100)/32]==1) || |
| ((Address>=16'h0200 && Address<=16'h02FF) |
| && LOCK_BYTE3[(Address-16'h0200)/32]==1) || |
| ((Address>=16'h0300 && Address<=16'h03FF) |
| && LOCK_BYTE4[(Address-16'h0300)/32] == 1)) |
| && (Address + Byte_number <= OTPHiAddr)) |
| next_state = OTP_PG; |
| end |
| else if ((Instruct == SE || Instruct == SE4) |
| && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| if (UniformSec || (TopBoot && sect < 510) || |
| (BottomBoot && sect > 31)) |
| begin |
| if (Sec_Prot[sect]== 0 && PPB_bits[sect]== 1 |
| && DYB_bits[sect]== 1) |
| next_state = SECTOR_ERS; |
| end |
| else if ((TopBoot && sect >= 510) || |
| (BottomBoot && sect <= 31)) |
| begin |
| if (Sec_ProtSE == 32 && ASP_ProtSE == 32) |
| //Sector erase command is applied to a |
| //64 KB range that includes 4 KB sectors. |
| next_state = SECTOR_ERS; |
| end |
| end |
| else if ((Instruct == P4E || Instruct == P4E4) |
| && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| if (UniformSec || (TopBoot && sect < 510) || |
| (BottomBoot && sect > 31)) |
| begin |
| $display("The instruction is applied to"); |
| $display("a sector that is larger than"); |
| $display("4 KB."); |
| $display("Instruction is ignored!!!"); |
| end |
| else |
| begin |
| if (Sec_Prot[sect]== 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| next_state = SECTOR_ERS; |
| end |
| end |
| else if (Instruct == BE && WEL == 1 && |
| (Status_reg1[4]== 0 && Status_reg1[3]== 0 && |
| Status_reg1[2]== 0)) |
| next_state = BULK_ERS; |
| else if (Instruct == ABWR && WEL == 1) |
| //Autoboot Register Write Command |
| next_state = AUTOBOOT_PG; |
| else if (Instruct == BRWR) |
| //Bank Register Write Command |
| next_state = IDLE; |
| else if (Instruct == ASPP && WEL == 1) |
| begin |
| //ASP Register Program Command |
| if (~(ASPOTPFLAG)) |
| next_state = ASP_PG; |
| end |
| else if (Instruct == PLBWR && WEL == 1 && |
| RdPswdProtEnable == 0) |
| next_state = PLB_PG; |
| else if (Instruct == PASSP && WEL == 1) |
| begin |
| if (~(PWDMLB== 0 && PSTMLB== 1)) |
| next_state = PASS_PG; |
| end |
| else if (Instruct == PASSU && WEL && ~WIP) |
| next_state = PASS_UNLOCK; |
| else if (Instruct == PPBP && WEL == 1) |
| next_state <= PPB_PG; |
| else if (Instruct == PPBERS && WEL && PPBOTP) |
| next_state <= PPB_ERS; |
| else if (Instruct == DYBWR && WEL == 1) |
| next_state = DYB_PG; |
| else if (Instruct == PNVDLR && WEL == 1) |
| next_state = NVDLR_PG; |
| else |
| next_state = IDLE; |
| end |
| if (falling_edge_write && RdPswdProtMode == 1 && ~WIP) |
| begin |
| if (Instruct == PASSU) |
| next_state = PASS_UNLOCK; |
| end |
| end |
| |
| AUTOBOOT : |
| begin |
| if (rising_edge_CSNeg_ipd) |
| next_state = IDLE; |
| end |
| |
| WRITE_SR : |
| begin |
| if (rising_edge_WDONE) |
| next_state = IDLE; |
| end |
| |
| PAGE_PG : |
| begin |
| if (PRGSUSP_out_event && PRGSUSP_out == 1) |
| next_state = PG_SUSP; |
| else if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| PG_SUSP : |
| begin |
| if (falling_edge_write) |
| begin |
| if (Instruct == BRWR) |
| //Bank Register Write Command |
| next_state = PG_SUSP; |
| else if (Instruct == PGRS) |
| next_state = PAGE_PG; |
| end |
| end |
| |
| OTP_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| BULK_ERS : |
| begin |
| if (rising_edge_EDONE) |
| next_state = IDLE; |
| end |
| |
| SECTOR_ERS : |
| begin |
| if (ERSSUSP_out_event && ERSSUSP_out == 1) |
| next_state = ERS_SUSP; |
| else if (rising_edge_EDONE) |
| next_state = IDLE; |
| end |
| |
| ERS_SUSP : |
| begin |
| if (falling_edge_write) |
| begin |
| if ((Instruct == PP || Instruct == QPP || |
| Instruct == PP4 || Instruct == QPP4) && |
| WEL == 1) |
| begin |
| if ((PARAM_REGION && |
| SectorSuspend != Address/(SecSize+1)) || |
| (~PARAM_REGION && SectorSuspend != |
| Address/(SecSize+1)+30*b_act)) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| if (PPB_bits[sect]== 1 && |
| DYB_bits[sect]== 1) |
| begin |
| next_state = ERS_SUSP_PG; |
| end |
| end |
| end |
| else if (Instruct == BRWR) |
| begin |
| //Bank Register Write Command |
| next_state = ERS_SUSP; |
| end |
| else if (Instruct == DYBWR && WEL == 1) |
| next_state = DYB_PG; |
| else if (Instruct == ERRS) |
| next_state = SECTOR_ERS; |
| end |
| end |
| |
| ERS_SUSP_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = ERS_SUSP; |
| else if (PRGSUSP_out_event && PRGSUSP_out == 1) |
| next_state = ERS_SUSP_PG_SUSP; |
| end |
| |
| ERS_SUSP_PG_SUSP : |
| begin |
| if (rising_edge_PDONE) |
| next_state = ERS_SUSP; |
| if (falling_edge_write) |
| begin |
| if (Instruct == BRWR) |
| begin |
| next_state = ERS_SUSP_PG_SUSP; |
| end |
| else if (Instruct == PGRS) |
| begin |
| next_state = ERS_SUSP_PG; |
| end |
| end |
| end |
| |
| PASS_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| PASS_UNLOCK : |
| begin |
| if (falling_edge_PASSULCK_in) |
| next_state = IDLE; |
| end |
| |
| PPB_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| PPB_ERS : |
| begin |
| if (falling_edge_PPBERASE_in) |
| next_state = IDLE; |
| end |
| |
| AUTOBOOT_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| PLB_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| DYB_PG : |
| begin |
| if (rising_edge_PDONE) |
| if (ES) |
| next_state = ERS_SUSP; |
| else |
| next_state = IDLE; |
| end |
| |
| ASP_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| NVDLR_PG : |
| begin |
| if (rising_edge_PDONE) |
| next_state = IDLE; |
| end |
| |
| endcase |
| end |
| end |
| end |
| |
| /////////////////////////////////////////////////////////////////////////// |
| //FSM Output generation and general functionality |
| /////////////////////////////////////////////////////////////////////////// |
| reg rising_edge_read_out = 1'b0; |
| reg Instruct_event = 1'b0; |
| reg change_addr_event = 1'b0; |
| reg current_state_event = 1'b0; |
| reg rising_edge_DP_out = 1'b0; |
| |
| integer WData [0:511]; |
| integer WOTPData; |
| integer Addr; |
| integer Addr_tmp; |
| |
| always @(Instruct_event) |
| begin |
| read_cnt = 0; |
| byte_cnt = 1; |
| rd_fast = 1'b1; |
| dual = 1'b0; |
| rd_slow = 1'b0; |
| any_read = 1'b0; |
| end |
| |
| always @(rising_edge_read_out) |
| begin |
| if (rising_edge_read_out == 1'b1) |
| begin |
| if (PoweredUp == 1'b1) |
| begin |
| oe_z = 1'b1; |
| #1000 oe_z = 1'b0; |
| oe = 1'b1; |
| #1000 oe = 1'b0; |
| end |
| end |
| end |
| |
| always @(change_addr_event) |
| begin |
| if (change_addr_event) |
| begin |
| read_addr = Address; |
| end |
| end |
| |
| always @(posedge PASSACC_out) |
| begin |
| Status_reg1[0] = 1'b0; //WIP |
| PASSACC_in = 1'b0; |
| end |
| |
| always @(Instruct or posedge start_autoboot or oe or current_state_event or |
| falling_edge_write or posedge PDONE or posedge WDONE or oe_z or |
| posedge EDONE or ERSSUSP_out or rising_edge_Reseted or |
| rising_edge_PoweredUp or rising_edge_CSNeg_ipd or PRGSUSP_out or |
| Address) |
| begin: Functionality |
| integer i,j; |
| integer sect; |
| |
| if (rising_edge_PoweredUp) |
| begin |
| //the default condition after power-up |
| //The Bank Address Register is loaded to all zeroes |
| Bank_Addr_reg = 8'h0; |
| //The Configuration Register FREEZE bit is cleared. |
| Config_reg1[0] = 0; |
| //The WEL bit is cleared. |
| Status_reg1[1] = 0; |
| //When BPNV is set to '1'. the BP2-0 bits in Status Register are |
| //volatile and will be reset binary 111 after power-on reset |
| if (BPNV == 1 && FREEZE == 0 ) //&& LOCK == 0 |
| begin |
| Status_reg1[4] = 1'b0;// BP2 |
| Status_reg1[3] = 1'b0;// BP1 |
| Status_reg1[2] = 1'b0;// BP0 |
| BP_bits = {Status_reg1[4],Status_reg1[3],Status_reg1[2]}; |
| change_BP = 1'b1; |
| #1000 change_BP = 1'b0; |
| end |
| |
| //As shipped from the factory, all devices default ASP to the |
| //Persistent Protection mode, with all sectors unprotected, |
| //when power is applied. The device programmer or host system must |
| //then choose which sector protection method to use. |
| //For Persistent Protection mode, PPBLOCK defaults to "1" |
| PPBL[0] = 1'b1; |
| |
| //All the DYB power-up in the unprotected state |
| DYB_bits = {542{1'b1}}; |
| |
| end |
| |
| if (Instruct == RESET) |
| begin |
| //EXTADD is cleared to “0” |
| Bank_Addr_reg[7] = 1'b0; |
| //P_ERR bit is cleared |
| Status_reg1[6] = 1'b0; |
| //E_ERR bit is cleared |
| Status_reg1[5] = 1'b0; |
| //The WEL bit is cleared. |
| Status_reg1[1] = 1'b0; |
| //The WIP bit is cleared. |
| Status_reg1[0] = 1'b0; |
| //The ES bit is cleared. |
| Status_reg2[1] = 1'b0; |
| //The PS bit is cleared. |
| Status_reg2[0] = 1'b0; |
| //When BPNV is set to '1'. the BP2-0 bits in Status |
| //Register are volatile and will be reseted after |
| //reset command |
| if (BPNV == 1 && FREEZE == 0) //&& LOCK== 0 |
| begin |
| Status_reg1[4] = 1'b1; |
| Status_reg1[3] = 1'b1; |
| Status_reg1[2] = 1'b1; |
| |
| BP_bits = {Status_reg1[4],Status_reg1[3], |
| Status_reg1[2]}; |
| change_BP = 1'b1; |
| #1000 change_BP = 1'b0; |
| end |
| end |
| |
| case (current_state) |
| IDLE : |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| ASP_ProtSE = 0; |
| Sec_ProtSE = 0; |
| |
| if (BottomBoot) |
| begin |
| for (j=31;j>=0;j=j-1) |
| begin |
| if (PPB_bits[j] == 1 && DYB_bits[j] == 1) |
| begin |
| ASP_ProtSE = ASP_ProtSE + 1; |
| end |
| if (Sec_Prot[j] == 0) |
| begin |
| Sec_ProtSE = Sec_ProtSE + 1; |
| end |
| end |
| end |
| else if (TopBoot) |
| begin |
| for (j=541;j>=510;j=j-1) |
| begin |
| if (PPB_bits[j] == 1 && DYB_bits[j] == 1) |
| begin |
| ASP_ProtSE = ASP_ProtSE + 1; |
| end |
| if (Sec_Prot[j] == 0) |
| begin |
| Sec_ProtSE = Sec_ProtSE + 1; |
| end |
| end |
| end |
| |
| if (falling_edge_write && RdPswdProtMode == 1) |
| begin |
| if(Instruct == PASSU) |
| begin |
| if (~WIP) |
| begin |
| PASSULCK_in = 1; |
| Status_reg1[0] = 1'b1; //WIP |
| end |
| else |
| begin |
| $display ("The PASSU command cannot be accepted"); |
| $display (" any faster than once every 100us"); |
| end |
| end |
| else if (Instruct == CLSR) |
| begin |
| //The Clear Status Register Command resets bit SR1[5] |
| //(Erase Fail Flag) and bit SR1[6] (Program Fail Flag) |
| Status_reg1[5] = 0; |
| Status_reg1[6] = 0; |
| end |
| end |
| |
| if (falling_edge_write && RdPswdProtMode == 0) |
| begin |
| read_cnt = 0; |
| byte_cnt = 1; |
| if (Instruct == WREN) |
| Status_reg1[1] = 1'b1; |
| else if (Instruct == WRDI) |
| Status_reg1[1] = 0; |
| else if ((Instruct == WRR) && WEL == 1 && WDONE == 1 && |
| BAR_ACC == 0) |
| begin |
| if (((~(SRWD == 1 && ~WPNeg_in))&& ~QUAD) || QUAD) |
| begin |
| if (((TBPROT==1 && Config_reg1_in[5]==1'b0) || |
| (TBPARM==1 && Config_reg1_in[2]==1'b0) || |
| (BPNV ==1 && Config_reg1_in[3]==1'b0)) && |
| cfg_write) |
| begin |
| // P_ERR bit is set to 1 |
| Status_reg1[6] = 1'b1; |
| end |
| else |
| begin |
| // can not execute if Hardware Protection Mode |
| // is entered or if WEL bit is zero |
| WSTART = 1'b1; |
| WSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| end |
| else |
| Status_reg1[1] = 0; |
| end |
| else if ((Instruct == PP || Instruct == PP4) && WEL ==1 && |
| PDONE == 1 ) |
| begin |
| ReturnSectorID(sect,Address); |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| PGSUSP = 0; |
| PGRES = 0; |
| INITIAL_CONFIG = 1; |
| Status_reg1[0] = 1'b1; |
| SA = sect; |
| Addr = Address; |
| Addr_tmp= Address; |
| wr_cnt = Byte_number; |
| for (i=wr_cnt;i>=0;i=i-1) |
| begin |
| if (Viol != 0) |
| WData[i] = -1; |
| else |
| WData[i] = WByte[i]; |
| end |
| end |
| else |
| begin |
| //P_ERR bit will be set when the user attempts to |
| //to program within a protected main memory sector |
| Status_reg1[6] = 1'b1; //P_ERR |
| Status_reg1[1] = 1'b0; //WEL |
| end |
| end |
| else if ((Instruct == QPP || Instruct == QPP4) && WEL ==1 && |
| PDONE == 1 ) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| PGSUSP = 0; |
| PGRES = 0; |
| INITIAL_CONFIG = 1; |
| // QPP_page[pgm_page] = 1'b1; |
| Status_reg1[0] = 1'b1; |
| SA = sect; |
| Addr = Address; |
| Addr_tmp= Address; |
| wr_cnt = Byte_number; |
| for (i=wr_cnt;i>=0;i=i-1) |
| begin |
| if (Viol != 0) |
| WData[i] = -1; |
| else |
| WData[i] = WByte[i]; |
| end |
| end |
| else |
| begin |
| //P_ERR bit will be set when the user attempts to |
| //to program within a protected main memory sector |
| Status_reg1[6] = 1'b1; //P_ERR |
| Status_reg1[1] = 1'b0; //WEL |
| end |
| end |
| else if (Instruct == OTPP && WEL == 1) |
| begin |
| // As long as the FREEZE bit remains cleared to a logic |
| // '0' the OTP address space is programmable. |
| if (FREEZE == 0) |
| begin |
| if (((((Address>= 16'h0010 && Address<= 16'h0013) || |
| (Address >= 16'h0020 && Address <= 16'h00FF)) |
| && LOCK_BYTE1[Address/32] == 1) || |
| ((Address >= 16'h0100 && Address <= 16'h01FF) |
| && LOCK_BYTE2[(Address-16'h0100)/32] == 1) || |
| ((Address >= 16'h0200 && Address <= 16'h02FF) |
| && LOCK_BYTE3[(Address-16'h0200)/32] == 1) || |
| ((Address >= 16'h0300 && Address <= 16'h03FF) |
| && LOCK_BYTE4[(Address-16'h0300)/32] == 1)) && |
| (Address + Byte_number <= OTPHiAddr)) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| Addr = Address; |
| Addr_tmp= Address; |
| wr_cnt = Byte_number; |
| for (i=wr_cnt;i>=0;i=i-1) |
| begin |
| if (Viol != 0) |
| WData[i] = -1; |
| else |
| WData[i] = WByte[i]; |
| end |
| end |
| else if ((Address < 8'h10 || (Address > 8'h13 && |
| Address < 8'h20) || Address > 12'h3FF )) |
| begin |
| Status_reg1[6] = 1'b1;//P_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| if (Address < 8'h20) |
| begin |
| $display ("Given address is "); |
| $display ("in reserved address range"); |
| end |
| else if (Address > 12'h3FF) |
| begin |
| $display ("Given address is "); |
| $display ("out of OTP address range"); |
| end |
| end |
| else |
| begin |
| //P_ERR bit will be set when the user attempts to |
| // to program within locked OTP region |
| Status_reg1[6] = 1'b1;//P_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| else |
| begin |
| //P_ERR bit will be set when the user attempts to |
| //to program within locked OTP region |
| Status_reg1[6] = 1'b1;//P_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| else if ((Instruct == SE || Instruct == SE4) && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| if (UniformSec || (TopBoot && sect < 510) || |
| (BottomBoot && sect > 31)) |
| begin |
| SectorSuspend = sect; |
| PARAM_REGION = 0; |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| begin |
| ESTART = 1'b1; |
| ESTART <= #5 1'b0; |
| ESUSP = 0; |
| ERES = 0; |
| INITIAL_CONFIG = 1; |
| Status_reg1[0] = 1'b1; |
| Addr = Address; |
| end |
| else |
| begin |
| //E_ERR bit will be set when the user attempts to |
| //erase an individual protected main memory sector |
| Status_reg1[5] = 1'b1;//E_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| else if ((TopBoot && sect >= 510) || |
| (BottomBoot && sect <= 31)) |
| begin |
| if (Sec_ProtSE == 32 && ASP_ProtSE == 32) |
| //Sector erase command is applied to a 64 KB range |
| //that includes 4 KB sectors |
| begin |
| if (TopBoot) |
| begin |
| SectorSuspend = 510 + (541 - sect)/16; |
| end |
| else |
| begin |
| SectorSuspend = sect/16; |
| end |
| PARAM_REGION = 1; |
| ESTART = 1'b1; |
| ESTART <= #5 1'b0; |
| ESUSP = 0; |
| ERES = 0; |
| INITIAL_CONFIG = 1; |
| Status_reg1[0] = 1'b1; |
| Addr = Address; |
| end |
| else |
| begin |
| //E_ERR bit will be set when the user attempts to |
| //erase an individual protected main memory sector |
| Status_reg1[5] = 1'b1;//E_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| end |
| else if ((Instruct == P4E || Instruct == P4E4) && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| if (UniformSec || (TopBoot && sect < 510) || |
| (BottomBoot && sect > 31)) |
| begin |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| else |
| begin |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| //A P4E instruction applied to a sector |
| //that has been Write Protected through the |
| //Block Protect Bits or ASP will not be |
| //executed and will set the E_ERR status |
| begin |
| ESTART = 1'b1; |
| ESTART <= #5 1'b0; |
| ESUSP = 0; |
| ERES = 0; |
| INITIAL_CONFIG = 1; |
| Status_reg1[0] = 1'b1; |
| Addr = Address; |
| end |
| else |
| begin |
| //E_ERR bit will be set when the user attempts to |
| //erase an individual protected main memory sector |
| Status_reg1[5] = 1'b1;//E_ERR |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| end |
| else if (Instruct == BE && WEL == 1) |
| begin |
| if (Status_reg1[4]== 0 && Status_reg1[3]== 0 && |
| Status_reg1[2]== 0) |
| begin |
| ESTART = 1'b1; |
| ESTART <= #5 1'b0; |
| ESUSP = 0; |
| ERES = 0; |
| INITIAL_CONFIG = 1; |
| Status_reg1[0] = 1'b1; |
| end |
| else |
| begin |
| //The Bulk Erase command will not set E_ERR if a |
| //protected sector is found during the command |
| //execution. |
| Status_reg1[1] = 1'b0;//WEL |
| end |
| end |
| else if (Instruct == PASSP && WEL == 1) |
| begin |
| if (~(PWDMLB== 0 && PSTMLB== 1)) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else |
| begin |
| $display ("Password programming is not allowed"); |
| $display (" in Password Protection Mode."); |
| end |
| end |
| else if (Instruct == PASSU && WEL) |
| begin |
| if (~WIP) |
| begin |
| PASSULCK_in = 1; |
| Status_reg1[0] = 1'b1; //WIP |
| end |
| else |
| begin |
| $display ("The PASSU command cannot be accepted"); |
| $display (" any faster than once every 100us"); |
| end |
| end |
| else if (Instruct == BRWR) |
| begin |
| Bank_Addr_reg[7] = Bank_Addr_reg_in[7]; |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| else if (Instruct == WRR && BAR_ACC == 1) |
| begin |
| // Write to the lower address bits of the BAR |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| end |
| else if (Instruct == ASPP && WEL == 1) |
| begin |
| if (~(ASPOTPFLAG)) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else |
| begin |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; |
| $display ("Once the Protection Mode is selected,"); |
| $display ("no further changes to the ASP "); |
| $display ("register is allowed."); |
| end |
| end |
| else if (Instruct == ABWR && WEL == 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == PPBP && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == PPBERS && WEL == 1) |
| begin |
| if (PPBOTP) |
| begin |
| PPBERASE_in = 1'b1; |
| Status_reg1[0] = 1'b1; |
| end |
| else |
| begin |
| Status_reg1[5] = 1'b1; |
| end |
| end |
| else if (Instruct == PLBWR && WEL == 1 && |
| RdPswdProtEnable == 0) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == DYBWR && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == PNVDLR && WEL == 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == WVDLR && WEL == 1) |
| begin |
| VDLR_reg = VDLR_reg_in; |
| Status_reg1[1] = 1'b0; |
| end |
| else if (Instruct == CLSR) |
| begin |
| //The Clear Status Register Command resets bit SR1[5] |
| //(Erase Fail Flag) and bit SR1[6] (Program Fail Flag) |
| Status_reg1[5] = 0; |
| Status_reg1[6] = 0; |
| end |
| |
| if (Instruct == BRAC && P_ERR == 0 && E_ERR == 0) |
| begin |
| BAR_ACC = 1; |
| end |
| else |
| begin |
| BAR_ACC = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| if (Instruct == READ || Instruct == RD4 || |
| Instruct == RES || |
| (Instruct == DLPRD && RdPswdProtMode == 0)) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DDRDIOR || Instruct == DDRDIOR4 || |
| ((Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| && QUAD)) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| ((Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4) |
| && QUAD)) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| else if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == ECCRD) |
| begin |
| //Read ECC Register |
| SOut_zd = ECCSR[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == READ || Instruct == RD4 || |
| Instruct == FSTRD || Instruct == FSTRD4 || |
| Instruct == DDRFR || Instruct == DDRFR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| if ((Instruct == DDRFR || Instruct == DDRFR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) is enabled |
| // Optional DLP |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| |
| end |
| else |
| begin |
| read_addr_tmp = read_addr; |
| SecAddr = read_addr/(SecSize+1) ; |
| Sec_addr = read_addr - SecAddr*(SecSize+1); |
| SecAddr = ReturnSectorIDRdPswdMd(TBPROT); |
| read_addr = Sec_addr + SecAddr*(SecSize+1); |
| if (RdPswdProtMode == 0) |
| begin |
| read_addr = read_addr_tmp; |
| end |
| if (Mem[read_addr] !== -1) |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| end |
| else |
| begin |
| SOut_zd = 8'bx; |
| end |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == DDRDIOR || Instruct == DDRDIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((Instruct == DDRDIOR || Instruct == DDRDIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 0; |
| end |
| end |
| else |
| begin |
| read_addr_tmp = read_addr; |
| SecAddr = read_addr/(SecSize+1) ; |
| Sec_addr = read_addr - SecAddr*(SecSize+1); |
| SecAddr = ReturnSectorIDRdPswdMd(TBPROT); |
| read_addr = Sec_addr + SecAddr*(SecSize+1); |
| if (RdPswdProtMode == 0) |
| read_addr = read_addr_tmp; |
| |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-2*read_cnt]; |
| SIOut_zd = data_out[6-2*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if ((Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4 || |
| Instruct == DDRQIOR || Instruct == DDRQIOR4 ) |
| && QUAD) |
| begin |
| //Read Memory array |
| if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((Instruct == DDRQIOR || Instruct == DDRQIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) is enabled |
| // Optional DLP |
| data_out[7:0] = VDLR_reg; |
| HOLDNegOut_zd = data_out[7-read_cnt]; |
| WPNegOut_zd = data_out[7-read_cnt]; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| read_addr_tmp = read_addr; |
| SecAddr = read_addr/(SecSize+1) ; |
| Sec_addr = read_addr - SecAddr*(SecSize+1); |
| SecAddr = ReturnSectorIDRdPswdMd(TBPROT); |
| read_addr = Sec_addr + SecAddr*(SecSize+1); |
| if (RdPswdProtMode == 0) |
| read_addr = read_addr_tmp; |
| |
| data_out[7:0] = Mem[read_addr]; |
| HOLDNegOut_zd = data_out[7-4*read_cnt]; |
| WPNegOut_zd = data_out[6-4*read_cnt]; |
| SOut_zd = data_out[5-4*read_cnt]; |
| SIOut_zd = data_out[4-4*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == OTPR) |
| begin |
| if(read_addr>=OTPLoAddr && read_addr<=OTPHiAddr |
| && RdPswdProtMode == 0) |
| begin |
| //Read OTP Memory array |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| data_out[7:0] = OTPMem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| read_addr = read_addr + 1; |
| end |
| end |
| else if ((read_addr > OTPHiAddr)||(RdPswdProtMode==1)) |
| begin |
| //OTP Read operation will not wrap to the |
| //starting address after the OTP address is at |
| //its maximum or Read Password Protection Mode |
| //is selected instead, the data beyond the |
| //maximum OTP address will be undefined. |
| SOut_zd = 1'bX; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (Instruct == REMS) |
| begin |
| //Read Manufacturer and Device ID |
| if (read_addr % 2 == 0) |
| begin |
| data_out[7:0] = Manuf_ID; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| read_addr = read_addr + 1; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = DeviceID; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| read_addr = 0; |
| end |
| end |
| end |
| else if (Instruct == RDID) |
| begin |
| ident_out = CFI_array_tmp; |
| if(read_cnt < 648) |
| begin |
| SOut_zd = ident_out[647-read_cnt]; |
| read_cnt = read_cnt + 1; |
| end |
| else |
| begin |
| //Continued shifting of output beyond the end of |
| //the defined ID-CFI address space will |
| //provide undefined data. |
| SOut_zd = 1'bX; |
| end |
| end |
| else if (Instruct == RES) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| data_out = ESignature; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == DLPRD && RdPswdProtMode == 0) |
| begin |
| //Read DLP |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = VDLR_reg[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == ABRD && RdPswdProtMode == 0) |
| begin |
| //Read AutoBoot register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = AutoBoot_reg_in[31-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 32) |
| read_cnt = 0; |
| end |
| else if (Instruct == BRRD && RdPswdProtMode == 0) |
| begin |
| //Read Bank Address Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = Bank_Addr_reg[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == ASPRD && RdPswdProtMode == 0) |
| begin |
| //Read ASP Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = ASP_reg[15-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 16) |
| read_cnt = 0; |
| end |
| else if (Instruct == PASSRD && RdPswdProtMode == 0) |
| begin |
| //Read Password Register |
| if (~(PWDMLB == 0 && PSTMLB == 1)) |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = |
| Password_reg[(8*byte_cnt-1)-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| byte_cnt = byte_cnt + 1; |
| if (byte_cnt == 9) |
| byte_cnt = 1; |
| end |
| end |
| end |
| else if (Instruct == PLBRD) |
| begin |
| //Read PPB Lock Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = PPBL[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == DYBRD) |
| begin |
| //Read DYB Access Register |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| DYBAR[7:0] = 8'bXXXXXXXX; |
| |
| if (RdPswdProtMode == 0) |
| begin |
| if (DYB_bits[sect] == 1) |
| DYBAR[7:0] = 8'hFF; |
| else |
| begin |
| DYBAR[7:0] = 8'h0; |
| end |
| end |
| SOut_zd = DYBAR[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == PPBRD) |
| begin |
| //Read PPB Access Register |
| ReturnSectorID(sect,Address); |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| PPBAR[7:0] = 8'bXXXXXXXX; |
| if (RdPswdProtMode == 0) |
| begin |
| if (PPB_bits[sect] == 1) |
| PPBAR[7:0] = 8'hFF; |
| else |
| begin |
| PPBAR[7:0] = 8'h0; |
| end |
| end |
| SOut_zd = PPBAR[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| end |
| |
| AUTOBOOT: |
| begin |
| if (start_autoboot == 1) |
| begin |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (QUAD == 1) |
| begin |
| if (ABSD > 0) //If ABSD > 0, |
| begin //max SCK frequency is 104MHz |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else // If ABSD = 0, max SCK frequency is 50 MHz |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| data_out[7:0] = Mem[read_addr]; |
| HOLDNegOut_zd = data_out[7-4*read_cnt]; |
| WPNegOut_zd = data_out[6-4*read_cnt]; |
| SOut_zd = data_out[5-4*read_cnt]; |
| SIOut_zd = data_out[4-4*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| read_addr = read_addr + 1; |
| end |
| end |
| else |
| begin |
| if (ABSD > 0) //If ABSD > 0, |
| begin //max SCK frequency is 133MHz |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else // If ABSD = 0, max SCK frequency is 50 MHz |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (oe_z) |
| begin |
| if (QUAD == 1) |
| begin |
| if (ABSD > 0) //If ABSD > 0, |
| begin //max SCK frequency is 104MHz |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else // If ABSD = 0, max SCK frequency is 50 MHz |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| end |
| else |
| begin |
| if (ABSD > 0) //If ABSD > 0, |
| begin //max SCK frequency is 133MHz |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else // If ABSD = 0, max SCK frequency is 50 MHz |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| end |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| end |
| end |
| |
| WRITE_SR: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (WDONE == 1) |
| begin |
| Status_reg1[0] = 1'b0; //WIP |
| Status_reg1[1] = 1'b0; //WEL |
| //SRWD bit |
| Status_reg1[7] = Status_reg1_in[7]; //MSB first |
| |
| // if (LOCK == 0) |
| // begin |
| if (FREEZE == 0) |
| //The Freeze Bit, when set to 1, locks the current |
| //state of the BP2-0 bits in Status Register, |
| //the TBPROT and TBPARM bits in the Config Register |
| //As long as the FREEZE bit remains cleared to logic |
| //'0', the other bits of the Configuration register |
| //including FREEZE are writeable. |
| begin |
| Status_reg1[4] = Status_reg1_in[4];//BP2 |
| Status_reg1[3] = Status_reg1_in[3];//BP1 |
| Status_reg1[2] = Status_reg1_in[2];//BP0 |
| |
| BP_bits = {Status_reg1[4],Status_reg1[3], |
| Status_reg1[2]}; |
| if (TBPROT == 1'b0 && INITIAL_CONFIG == 1'b0) |
| begin |
| Config_reg1[5] = Config_reg1_in[5];//TBPROT |
| end |
| if (TBPARM == 1'b0 && INITIAL_CONFIG == 1'b0 && |
| tmp_char2 == "0") |
| begin |
| Config_reg1[2] = Config_reg1_in[2];//TBPARM |
| change_TBPARM = 1'b1; |
| #1000 change_TBPARM = 1'b0; |
| end |
| change_BP = 1'b1; |
| #1000 change_BP = 1'b0; |
| end |
| // end |
| |
| Config_reg1[7] = Config_reg1_in[7];//LC1 |
| Config_reg1[6] = Config_reg1_in[6];//LC0 |
| Config_reg1[1] = Config_reg1_in[1];//QUAD |
| |
| if (FREEZE == 1'b0) |
| begin |
| Config_reg1[0] = Config_reg1_in[0];//FREEZE |
| end |
| |
| // if (WRLOCKENABLE== 1'b1 && LOCK == 1'b0) |
| // begin |
| // Config_reg1[4] = Config_reg1_in[4];//LOCK |
| // WRLOCKENABLE = 1'b0; |
| // end |
| if (BPNV == 1'b0) |
| begin |
| Config_reg1[3] = Config_reg1_in[3];//BPNV |
| end |
| end |
| end |
| |
| PAGE_PG : |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if(current_state_event && current_state == PAGE_PG) |
| begin |
| if (~PDONE) |
| begin |
| ADDRHILO_PG(AddrLo, AddrHi, Addr); |
| cnt = 0; |
| |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| new_int = WData[i]; |
| old_int = Mem[Addr + i - cnt]; |
| if (new_int > -1) |
| begin |
| new_bit = new_int; |
| if (old_int > -1) |
| begin |
| old_bit = old_int; |
| for(j=0;j<=7;j=j+1) |
| begin |
| if (~old_bit[j]) |
| new_bit[j]=1'b0; |
| end |
| new_int=new_bit; |
| end |
| WData[i]= new_int; |
| end |
| else |
| begin |
| WData[i] = -1; |
| end |
| |
| Mem[Addr + i - cnt] = - 1; |
| if ((Addr + i) == AddrHi) |
| begin |
| |
| Addr = AddrLo; |
| cnt = i + 1; |
| end |
| end |
| end |
| cnt = 0; |
| end |
| |
| if (PDONE) |
| begin |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| quad_pg = 0; |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| Mem[Addr_tmp + i - cnt] = WData[i]; |
| if ((Addr_tmp + i) == AddrHi) |
| begin |
| Addr_tmp = AddrLo; |
| cnt = i + 1; |
| end |
| end |
| end |
| |
| if (Instruct) |
| begin |
| if (Instruct == PGSP && ~PRGSUSP_in) |
| begin |
| if (~RES_TO_SUSP_MIN_TIME) |
| begin |
| PGSUSP = 1'b1; |
| PGSUSP <= #5 1'b0; |
| PRGSUSP_in = 1'b1; |
| if (RES_TO_SUSP_TYP_TIME) |
| begin |
| $display("Typical periods are needed for ", |
| "Program to progress to completion"); |
| end |
| end |
| else |
| begin |
| $display("Minimum for tPRS is not satisfied! ", |
| "PGSP command is ignored"); |
| end |
| end |
| end |
| end |
| |
| PG_SUSP: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| |
| if (PRGSUSP_out && PRGSUSP_in) |
| begin |
| PRGSUSP_in = 1'b0; |
| //The RDY/BSY bit in the Status Register will indicate that |
| //the device is ready for another operation. |
| Status_reg1[0] = 1'b0; |
| //The Program Suspend (PS) bit in the Status Register will |
| //be set to the logical “1” state to indicate that the |
| //program operation has been suspended. |
| Status_reg2[0] = 1'b1; |
| PDONE = 1'b1; |
| end |
| |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == BRRD) |
| begin |
| //Read Bank Address Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = Bank_Addr_reg[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| //Read Array Operations |
| else if (Instruct == READ || Instruct == RD4 || |
| Instruct == FSTRD || Instruct == FSTRD4 || |
| Instruct == DDRFR || Instruct == DDRFR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| if (pgm_page != read_addr / (PageSize+1)) |
| begin |
| if ((Instruct == DDRFR || Instruct == DDRFR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| |
| end |
| end |
| else |
| begin |
| SOut_zd = 8'bxxxxxxxx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == DDRDIOR || Instruct == DDRDIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if (pgm_page != read_addr / (PageSize+1)) |
| begin |
| if ((Instruct == DDRDIOR || Instruct == DDRDIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-2*read_cnt]; |
| SIOut_zd = data_out[6-2*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4 || |
| Instruct == DDRQIOR || Instruct == DDRQIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if (pgm_page != read_addr / (PageSize+1)) |
| begin |
| if ((Instruct == DDRQIOR || Instruct == DDRQIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| HOLDNegOut_zd= data_out[7-read_cnt]; |
| WPNegOut_zd = data_out[7-read_cnt]; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| HOLDNegOut_zd = data_out[7-4*read_cnt]; |
| WPNegOut_zd = data_out[6-4*read_cnt]; |
| SOut_zd = data_out[5-4*read_cnt]; |
| SIOut_zd = data_out[4-4*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| HOLDNegOut_zd = 1'bx; |
| WPNegOut_zd = 1'bx; |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| end |
| else if (oe_z) |
| begin |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (falling_edge_write) |
| begin |
| if (Instruct == BRWR) |
| begin |
| Bank_Addr_reg[7] = Bank_Addr_reg_in[7]; |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| else if (Instruct == WRR && BAR_ACC == 1) |
| begin |
| // Write to the lower address bits of the BAR |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| end |
| else if (Instruct == PGRS) |
| begin |
| Status_reg2[0] = 1'b0; |
| Status_reg1[0] = 1'b1; |
| PGRES = 1'b1; |
| PGRES <= #5 1'b0; |
| RES_TO_SUSP_MIN_TIME = 1'b1; |
| RES_TO_SUSP_MIN_TIME <= #60000 1'b0;//60 ns |
| RES_TO_SUSP_TYP_TIME = 1'b1; |
| RES_TO_SUSP_TYP_TIME <= #100000000 1'b0;//100us |
| end |
| |
| if (Instruct == BRAC && P_ERR == 0 && E_ERR == 0 && |
| RdPswdProtMode == 0) |
| begin |
| BAR_ACC = 1; |
| end |
| else |
| begin |
| BAR_ACC = 0; |
| end |
| end |
| end |
| |
| ERS_SUSP_PG_SUSP: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| |
| if (PRGSUSP_out && PRGSUSP_in) |
| begin |
| PRGSUSP_in = 1'b0; |
| //The RDY/BSY bit in the Status Register will indicate that |
| //the device is ready for another operation. |
| Status_reg1[0] = 1'b0; |
| //The Program Suspend (PS) bit in the Status Register will |
| //be set to the logical “1” state to indicate that the |
| //program operation has been suspended. |
| Status_reg2[0] = 1'b1; |
| end |
| |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == BRRD) |
| begin |
| //Read Bank Address Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = Bank_Addr_reg[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| //Read Array Operations |
| else if (Instruct == READ || Instruct == RD4 || |
| Instruct == FSTRD || Instruct == FSTRD4 || |
| Instruct == DDRFR || Instruct == DDRFR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| if ((SectorSuspend != read_addr/(SecSize+1)) && |
| (pgm_page != read_addr / (PageSize+1))) |
| begin |
| if ((Instruct == DDRFR || Instruct == DDRFR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| |
| end |
| end |
| else |
| begin |
| SOut_zd = 8'bxxxxxxxx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == DDRDIOR || Instruct == DDRDIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((SectorSuspend != read_addr/(SecSize+1)) && |
| (pgm_page != read_addr / (PageSize+1))) |
| begin |
| if ((Instruct == DDRDIOR || Instruct == DDRDIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-2*read_cnt]; |
| SIOut_zd = data_out[6-2*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4 || |
| Instruct == DDRQIOR || Instruct == DDRQIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((SectorSuspend != read_addr/(SecSize+1)) && |
| (pgm_page != read_addr / (PageSize+1))) |
| begin |
| if ((Instruct == DDRQIOR || Instruct == DDRQIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| HOLDNegOut_zd =data_out[7-read_cnt]; |
| WPNegOut_zd = data_out[7-read_cnt]; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| HOLDNegOut_zd = data_out[7-4*read_cnt]; |
| WPNegOut_zd = data_out[6-4*read_cnt]; |
| SOut_zd = data_out[5-4*read_cnt]; |
| SIOut_zd = data_out[4-4*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| HOLDNegOut_zd = 1'bx; |
| WPNegOut_zd = 1'bx; |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| end |
| else if (oe_z) |
| begin |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (falling_edge_write) |
| begin |
| if (Instruct == BRWR) |
| begin |
| Bank_Addr_reg[7] = Bank_Addr_reg_in[7]; |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| else if (Instruct == WRR && BAR_ACC == 1) |
| begin |
| // Write to the lower address bits of the BAR |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| end |
| else if (Instruct == PGRS) |
| begin |
| Status_reg2[0] = 1'b0; |
| Status_reg1[0] = 1'b1; |
| PGRES = 1'b1; |
| PGRES <= #5 1'b0; |
| RES_TO_SUSP_MIN_TIME = 1'b1; |
| RES_TO_SUSP_MIN_TIME <= #60000 1'b0;//60 ns |
| RES_TO_SUSP_TYP_TIME = 1'b1; |
| RES_TO_SUSP_TYP_TIME <= #100000000 1'b0;//100us |
| end |
| |
| if (Instruct == BRAC && P_ERR == 0 && E_ERR == 0 && |
| RdPswdProtMode == 0) |
| begin |
| BAR_ACC = 1; |
| end |
| else |
| begin |
| BAR_ACC = 0; |
| end |
| end |
| end |
| |
| OTP_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if(current_state_event && current_state == OTP_PG) |
| begin |
| if (~PDONE) |
| begin |
| if (Address + wr_cnt <= OTPHiAddr) |
| begin |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| new_int = WData[i]; |
| old_int = OTPMem[Addr + i]; |
| if (new_int > -1) |
| begin |
| new_bit = new_int; |
| if (old_int > -1) |
| begin |
| old_bit = old_int; |
| for(j=0;j<=7;j=j+1) |
| begin |
| if (~old_bit[j]) |
| new_bit[j] = 1'b0; |
| end |
| new_int = new_bit; |
| end |
| WData[i] = new_int; |
| end |
| else |
| begin |
| WData[i] = -1; |
| end |
| OTPMem[Addr + i] = -1; |
| end |
| end |
| else |
| begin |
| $display ("Programming will reach over "); |
| $display ("address limit of OTP array"); |
| end |
| end |
| end |
| |
| if (PDONE) |
| begin |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| OTPMem[Addr + i] = WData[i]; |
| end |
| LOCK_BYTE1 = OTPMem[16]; |
| LOCK_BYTE2 = OTPMem[17]; |
| LOCK_BYTE3 = OTPMem[18]; |
| LOCK_BYTE4 = OTPMem[19]; |
| end |
| end |
| |
| SECTOR_ERS: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if(current_state_event && current_state == SECTOR_ERS) |
| begin |
| if (~EDONE) |
| begin |
| ADDRHILO_SEC(AddrLo, AddrHi, Addr); |
| for (i=AddrLo;i<=AddrHi;i=i+1) |
| begin |
| Mem[i] = -1; |
| end |
| end |
| end |
| |
| if (EDONE == 1) |
| begin |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| for (i=AddrLo;i<=AddrHi;i=i+1) |
| begin |
| Mem[i] = MaxData; |
| |
| pgm_page = i / (PageSize+1); |
| // QPP_page[pgm_page] = 1'b0; |
| end |
| end |
| else if (Instruct == ERSP && ~ERSSUSP_in) |
| begin |
| ESUSP = 1'b1; |
| ESUSP <= #5 1'b0; |
| ERSSUSP_in = 1'b1; |
| if (RES_TO_SUSP_TYP_TIME) |
| begin |
| $display("Typical periods are needed for ", |
| "Program to progress to completion"); |
| end |
| end |
| end |
| |
| BULK_ERS: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if(current_state_event && current_state == BULK_ERS) |
| begin |
| if (~EDONE) |
| begin |
| for (i=0;i<=AddrRANGE;i=i+1) |
| begin |
| ReturnSectorID(sect,i); |
| if (PPB_bits[sect] == 1 && DYB_bits[sect] == 1) |
| begin |
| Mem[i] = -1; |
| end |
| end |
| |
| end |
| end |
| |
| if (EDONE == 1) |
| begin |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| for (i=0;i<=AddrRANGE;i=i+1) |
| begin |
| ReturnSectorID(sect,i); |
| if (PPB_bits[sect] == 1 && DYB_bits[sect] == 1) |
| begin |
| Mem[i] = MaxData; |
| |
| pgm_page = i / (PageSize+1); |
| // QPP_page[pgm_page] = 1'b0; |
| end |
| end |
| end |
| end |
| |
| ERS_SUSP: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (ERSSUSP_out == 1) |
| begin |
| ERSSUSP_in = 0; |
| //The Erase Suspend (ES) bit in the Status Register will |
| //be set to the logical “1” state to indicate that the |
| //erase operation has been suspended. |
| Status_reg2[1] = 1'b1; |
| //The WIP bit in the Status Register will indicate that |
| //the device is ready for another operation. |
| Status_reg1[0] = 1'b0; |
| end |
| |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == DYBRD) |
| begin |
| //Read DYB Access Register |
| ReturnSectorID(sect,Address); |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (DYB_bits[sect] == 1) |
| DYBAR[7:0] = 8'hFF; |
| else |
| begin |
| DYBAR[7:0] = 8'h0; |
| end |
| SOut_zd = DYBAR[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == BRRD) |
| begin |
| //Read Bank Address Register |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| SOut_zd = Bank_Addr_reg[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == PPBRD) |
| begin |
| //Read PPB Access Register |
| ReturnSectorID(sect,Address); |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| PPBAR[7:0] = 8'bXXXXXXXX; |
| if (RdPswdProtMode == 0) |
| begin |
| if (PPB_bits[sect] == 1) |
| PPBAR[7:0] = 8'hFF; |
| else |
| begin |
| PPBAR[7:0] = 8'h0; |
| end |
| end |
| SOut_zd = PPBAR[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == READ || Instruct == RD4 || |
| Instruct == FSTRD || Instruct == FSTRD4 || |
| Instruct == DDRFR || Instruct == DDRFR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| if ((PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)) || |
| (~PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)+30*b_act)) |
| begin |
| if ((Instruct == DDRFR || Instruct == DDRFR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| SOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == DDRDIOR || Instruct == DDRDIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)) || |
| (~PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)+30*b_act)) |
| begin |
| if ((Instruct == DDRDIOR || Instruct == DDRDIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| SOut_zd = data_out[7-2*read_cnt]; |
| SIOut_zd = data_out[6-2*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 4) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else if (Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4 || |
| Instruct == DDRQIOR || Instruct == DDRQIOR4 ) |
| begin |
| //Read Memory array |
| if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| if ((PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)) || |
| (~PARAM_REGION && |
| SectorSuspend != read_addr/(SecSize+1)+30*b_act)) |
| begin |
| if ((Instruct == DDRQIOR || Instruct == DDRQIOR4) && |
| (VDLR_reg != 8'b00000000) && start_dlp) |
| begin |
| // Data Learning Pattern (DLP) |
| // is enabled Optional DLP |
| data_out[7:0] = VDLR_reg; |
| HOLDNegOut_zd= data_out[7-read_cnt]; |
| WPNegOut_zd = data_out[7-read_cnt]; |
| SOut_zd = data_out[7-read_cnt]; |
| SIOut_zd = data_out[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| begin |
| read_cnt = 0; |
| start_dlp = 1'b0; |
| end |
| end |
| else |
| begin |
| data_out[7:0] = Mem[read_addr]; |
| HOLDNegOut_zd = data_out[7-4*read_cnt]; |
| WPNegOut_zd = data_out[6-4*read_cnt]; |
| SOut_zd = data_out[5-4*read_cnt]; |
| SIOut_zd = data_out[4-4*read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| else |
| begin |
| HOLDNegOut_zd = 1'bx; |
| WPNegOut_zd = 1'bx; |
| SOut_zd = 1'bx; |
| SIOut_zd = 1'bx; |
| if (read_cnt == 2) |
| begin |
| read_cnt = 0; |
| if (read_addr == AddrRANGE) |
| read_addr = 0; |
| else |
| read_addr = read_addr + 1; |
| end |
| end |
| end |
| end |
| else if (oe_z) |
| begin |
| if (Instruct == READ || Instruct == RD4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b1; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else if (Instruct == DOR || Instruct == DOR4 || |
| Instruct == DIOR || Instruct == DIOR4 || |
| Instruct == QOR || Instruct == QOR4 || |
| Instruct == QIOR || Instruct == QIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b0; |
| end |
| else if (Instruct == DDRQIOR || Instruct == DDRQIOR4) |
| begin |
| rd_fast = 1'b0; |
| rd_slow = 1'b0; |
| dual = 1'b1; |
| ddr = 1'b1; |
| end |
| else |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| end |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (falling_edge_write) |
| begin |
| if ((Instruct == PP || Instruct == PP4) && WEL == 1) |
| begin |
| if ((PARAM_REGION && |
| SectorSuspend != Address/(SecSize+1)) || |
| (~PARAM_REGION && |
| SectorSuspend != Address/(SecSize+1)+30*b_act)) |
| begin |
| ReturnSectorID(sect,Address); |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| PGSUSP = 0; |
| PGRES = 0; |
| Status_reg1[0] = 1'b1; |
| SA = sect; |
| Addr = Address; |
| Addr_tmp= Address; |
| wr_cnt = Byte_number; |
| for (i=wr_cnt;i>=0;i=i-1) |
| begin |
| if (Viol != 0) |
| WData[i] = -1; |
| else |
| WData[i] = WByte[i]; |
| end |
| end |
| else |
| begin |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; |
| end |
| end |
| else |
| begin |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; |
| end |
| end |
| else if ((Instruct == QPP || Instruct == QPP4) && WEL == 1) |
| begin |
| if ((PARAM_REGION && |
| SectorSuspend != Address/(SecSize+1)) || |
| (~PARAM_REGION && |
| SectorSuspend != Address/(SecSize+1)+30*b_act)) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| |
| if (Sec_Prot[sect] == 0 && |
| PPB_bits[sect]== 1 && DYB_bits[sect]== 1) |
| begin |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| PGSUSP = 0; |
| PGRES = 0; |
| Status_reg1[0] = 1'b1; |
| // QPP_page[pgm_page] = 1'b1; |
| SA = sect; |
| Addr = Address; |
| Addr_tmp= Address; |
| wr_cnt = Byte_number; |
| for (i=wr_cnt;i>=0;i=i-1) |
| begin |
| if (Viol != 0) |
| WData[i] = -1; |
| else |
| WData[i] = WByte[i]; |
| end |
| end |
| else |
| begin |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; |
| end |
| end |
| else |
| begin |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; |
| end |
| end |
| else if (Instruct == WREN) |
| Status_reg1[1] = 1'b1; |
| else if (Instruct == CLSR) |
| begin |
| //The Clear Status Register Command resets bit SR1[5] |
| //(Erase Fail Flag) and bit SR1[6] (Program Fail Flag) |
| Status_reg1[5] = 0; |
| Status_reg1[6] = 0; |
| end |
| else if (Instruct == BRWR) |
| begin |
| Bank_Addr_reg[7] = Bank_Addr_reg_in[7]; |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| else if (Instruct == WRR && BAR_ACC == 1) |
| begin |
| // Write to the lower address bits of the BAR |
| if (P_ERR == 0 && E_ERR == 0) |
| begin |
| Bank_Addr_reg[0] = Bank_Addr_reg_in[0]; |
| if(Bank_Addr_reg_in[1] == 1) |
| begin |
| $display ("WARNING: Changing values of "); |
| $display ("Bank Address Register"); |
| $display ("BA25 is not allowed!!!"); |
| end |
| end |
| end |
| else if (Instruct == DYBWR && WEL == 1) |
| begin |
| ReturnSectorID(sect,Address); |
| pgm_page = Address / (PageSize+1); |
| PSTART = 1'b1; |
| PSTART <= #5 1'b0; |
| Status_reg1[0] = 1'b1; |
| end |
| else if (Instruct == ERRS) |
| begin |
| Status_reg2[1] = 1'b0; |
| Status_reg1[0] = 1'b1; |
| if (BottomBoot) |
| begin |
| if (PARAM_REGION) |
| begin |
| Addr = SectorSuspend*(SecSize+1); |
| end |
| else |
| begin |
| Addr = (SectorSuspend-30)*(SecSize+1); |
| end |
| end |
| else |
| begin |
| Addr = SectorSuspend*(SecSize+1); |
| end |
| ADDRHILO_SEC(AddrLo, AddrHi, Addr); |
| ERES = 1'b1; |
| ERES <= #5 1'b0; |
| RES_TO_SUSP_TYP_TIME = 1'b1; |
| RES_TO_SUSP_TYP_TIME <= #100000000 1'b0;//100us |
| end |
| |
| if (Instruct == BRAC && P_ERR == 0 && E_ERR == 0 && |
| RdPswdProtMode == 0) |
| begin |
| BAR_ACC = 1; |
| end |
| else |
| begin |
| BAR_ACC = 0; |
| end |
| end |
| end |
| |
| ERS_SUSP_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if(current_state_event && current_state == ERS_SUSP_PG) |
| begin |
| if (~PDONE) |
| begin |
| ADDRHILO_PG(AddrLo, AddrHi, Addr); |
| cnt = 0; |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| new_int = WData[i]; |
| old_int = Mem[Addr + i - cnt]; |
| if (new_int > -1) |
| begin |
| new_bit = new_int; |
| if (old_int > -1) |
| begin |
| old_bit = old_int; |
| for(j=0;j<=7;j=j+1) |
| begin |
| if (~old_bit[j]) |
| new_bit[j] = 1'b0; |
| end |
| new_int = new_bit; |
| end |
| WData[i] = new_int; |
| end |
| else |
| begin |
| WData[i] = -1; |
| end |
| |
| if ((Addr + i) == AddrHi) |
| begin |
| Addr = AddrLo; |
| cnt = i + 1; |
| end |
| end |
| end |
| cnt =0; |
| end |
| |
| if(PDONE == 1) |
| begin |
| Status_reg1[0] = 1'b0;//WIP |
| Status_reg1[1] = 1'b0;//WEL |
| for (i=0;i<=wr_cnt;i=i+1) |
| begin |
| Mem[Addr_tmp + i - cnt] = WData[i]; |
| if ((Addr_tmp + i) == AddrHi ) |
| begin |
| Addr_tmp = AddrLo; |
| cnt = i + 1; |
| end |
| end |
| end |
| |
| if (Instruct) |
| begin |
| if (Instruct == PGSP && ~PRGSUSP_in) |
| begin |
| if (~RES_TO_SUSP_MIN_TIME) |
| begin |
| PGSUSP = 1'b1; |
| PGSUSP <= #5 1'b0; |
| PRGSUSP_in = 1'b1; |
| if (RES_TO_SUSP_TYP_TIME) |
| begin |
| $display("Typical periods are needed for ", |
| "Program to progress to completion"); |
| end |
| end |
| else |
| begin |
| $display("Minimum for tPRS is not satisfied! ", |
| "PGSP command is ignored"); |
| end |
| end |
| end |
| end |
| |
| PASS_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| new_pass = Password_reg_in; |
| old_pass = Password_reg; |
| for (i=0;i<=63;i=i+1) |
| begin |
| if (old_pass[j] == 0) |
| new_pass[j] = 0; |
| end |
| |
| if (PDONE == 1) |
| begin |
| Password_reg = new_pass; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| |
| PASS_UNLOCK: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PASS_TEMP == Password_reg) |
| begin |
| PASS_UNLOCKED = 1'b1; |
| end |
| else |
| begin |
| PASS_UNLOCKED = 1'b0; |
| end |
| if (PASSULCK_out == 1'b1) |
| begin |
| if ((PASS_UNLOCKED == 1'b1) && (~PWDMLB)) |
| begin |
| PPBL[0] = 1'b1; |
| Status_reg1[0] = 1'b0; //WIP |
| end |
| else |
| begin |
| Status_reg1[6] = 1'b1; |
| $display ("Incorrect Password"); |
| PASSACC_in = 1'b1; |
| end |
| Status_reg1[1] = 1'b0; |
| PASSULCK_in = 1'b0; |
| end |
| end |
| |
| PPB_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| if (PPB_LOCK !== 0) |
| begin |
| PPB_bits[sect]= 1'b0; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| else |
| begin |
| Status_reg1[5] = 1'b0; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| end |
| |
| PPB_ERS: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PPBERASE_out == 1'b1) |
| begin |
| if ((PPB_LOCK !== 0) && PPBOTP) |
| begin |
| PPB_bits = {542{1'b1}}; |
| end |
| else |
| begin |
| Status_reg1[5] = 1'b1; |
| end |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| PPBERASE_in = 1'b0; |
| end |
| end |
| |
| AUTOBOOT_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register 2 |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| for(i=0;i<=3;i=i+1) |
| for(j=0;j<=7;j=j+1) |
| AutoBoot_reg[i*8+j] = |
| AutoBoot_reg_in[(3-i)*8+j]; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| |
| PLB_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| PPBL[0] = 1'b0; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| |
| DYB_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| DYBAR = DYBAR_in; |
| if (DYBAR == 8'hFF) |
| begin |
| DYB_bits[sect]= 1'b1; |
| end |
| else if (DYBAR == 8'h00) |
| begin |
| DYB_bits[sect]= 1'b0; |
| end |
| else |
| begin |
| Status_reg1[6] = 1'b1; |
| end |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| |
| ASP_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| |
| if (RPME == 1'b0 && ASP_reg_in[5] == 1'b1) |
| begin |
| Status_reg1[6] = 1'b1; //P_ERR |
| $display("RPME bit is allready programmed"); |
| end |
| else |
| begin |
| ASP_reg[5] = ASP_reg_in[5];//RPME |
| end |
| |
| if (PPBOTP == 1'b0 && ASP_reg_in[3] == 1'b1) |
| begin |
| Status_reg1[6] = 1'b1; //P_ERR |
| $display("PPBOTP bit is allready programmed"); |
| end |
| else |
| begin |
| ASP_reg[3] = ASP_reg_in[3];//PPBOTP |
| end |
| |
| if (PWDMLB == 1'b1 && PSTMLB == 1'b1) |
| begin |
| if (ASP_reg_in[2] == 1'b0 && ASP_reg_in[1] == 1'b0) |
| begin |
| $display("ASPR[2:1] = 00 Illegal condition"); |
| Status_reg1[6] = 1'b1; //P_ERR |
| end |
| else |
| begin |
| if (ASP_reg_in[2]!==1'b1 || ASP_reg_in[1]!==1'b1) |
| begin |
| ASPOTPFLAG = 1'b1; |
| end |
| ASP_reg[2] = ASP_reg_in[2];//PWDMLB |
| ASP_reg[1] = ASP_reg_in[1];//PSTMLB |
| end |
| end |
| |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| end |
| |
| NVDLR_PG: |
| begin |
| rd_fast = 1'b1; |
| rd_slow = 1'b0; |
| dual = 1'b0; |
| ddr = 1'b0; |
| if (oe) |
| begin |
| any_read = 1'b1; |
| if (Instruct == RDSR) |
| begin |
| //Read Status Register 1 |
| SOut_zd = Status_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDSR2) |
| begin |
| //Read Status Register |
| SOut_zd = Status_reg2[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| else if (Instruct == RDCR) |
| begin |
| //Read Configuration Register 1 |
| SOut_zd = Config_reg1[7-read_cnt]; |
| read_cnt = read_cnt + 1; |
| if (read_cnt == 8) |
| read_cnt = 0; |
| end |
| end |
| else if (oe_z) |
| begin |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| end |
| |
| if (PDONE) |
| begin |
| if (NVDLR_reg == 0) |
| begin |
| NVDLR_reg = NVDLR_reg_in; |
| VDLR_reg = NVDLR_reg_in; |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| end |
| else |
| begin |
| Status_reg1[0] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| Status_reg1[6] = 1'b1; //P_ERR |
| $display("NVDLR bits allready programmed"); |
| end |
| end |
| end |
| |
| RESET_STATE: |
| begin |
| //the default condition hardware reset |
| //The Bank Address Register is loaded to all zeroes |
| Bank_Addr_reg = 8'h0; |
| if (BPNV && ~FREEZE) //&& ~LOCK |
| begin |
| Status_reg1[2] = 1'b1;// BP0 |
| Status_reg1[3] = 1'b1;// BP1 |
| Status_reg1[4] = 1'b1;// BP2 |
| BP_bits = 3'b111; |
| change_BP = 1'b1; |
| #1000 change_BP = 1'b0; |
| end |
| //Resets the volatile bits in the Status register 1 |
| Status_reg1[6] = 1'b0; |
| Status_reg1[5] = 1'b0; |
| Status_reg1[1] = 1'b0; |
| Status_reg1[0] = 1'b0; |
| //Resets the volatile bits in the Status register 2 |
| Status_reg2[1] = 1'b0; |
| Status_reg2[0] = 1'b0; |
| //Resets the volatile bits in the Configuration register 1 |
| Config_reg1[0] = 1'b0; |
| //On reset cycles the data pattern reverts back |
| //to what is in the NVDLR |
| VDLR_reg = NVDLR_reg; |
| start_dlp = 1'b0; |
| //Loads the Program Buffer with all ones |
| for(i=0;i<=511;i=i+1) |
| begin |
| WData[i] = MaxData; |
| end |
| if (~PWDMLB) |
| PPBL[0] = 1'b0; |
| else |
| PPBL[0] = 1'b1; |
| end |
| |
| endcase |
| |
| //Output Disable Control |
| if (CSNeg_ipd ) |
| begin |
| SOut_zd = 1'bZ; |
| SIOut_zd = 1'bZ; |
| HOLDNegOut_zd = 1'bZ; |
| WPNegOut_zd = 1'bZ; |
| end |
| end |
| |
| assign fast_rd = rd_fast; |
| assign rd = rd_slow; |
| assign ddrd = ddr && ~ddr80; |
| assign ddrd80 = ddr && ddr80; |
| assign fast_ddr = ddr_fast; |
| |
| always @(change_TBPARM, posedge PoweredUp) |
| begin |
| if (tmp_char2 == "0") |
| begin |
| if (TBPARM == 0) |
| begin |
| BottomBoot = 1; |
| b_act = 1; |
| end |
| else |
| begin |
| TopBoot = 1; |
| BottomBoot = 0; |
| b_act = 0; |
| end |
| end |
| else if (tmp_char2 == "1") |
| begin |
| UniformSec = 1; |
| end |
| end |
| |
| always @(posedge change_BP) |
| begin |
| case (Status_reg1[4:2]) |
| |
| 3'b000: |
| begin |
| Sec_Prot[541:0] = {542{1'b0}}; |
| end |
| 3'b001: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256:(SecNum256+1)*63/64] = 2'b11; |
| Sec_Prot[(SecNum256+1)*63/64-1 : 0] = 126'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/64-1 : 0] = 2'b11; |
| Sec_Prot[SecNum256 : (SecNum256+1)/64] = 126'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64:(SecNum64-29)*63/64] = {38{1'b1}}; |
| Sec_Prot[(SecNum64-29)*63/64-1 : 0] = 504'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/64-1 : 0] = {8{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/64] = 534'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64:(SecNum64-29)*63/64+30] = {8{1'b1}}; |
| Sec_Prot[(SecNum64-29)*63/64+29 : 0] = 534'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/64+29 : 0] = {38{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/64+30] = 504'h0; |
| end |
| end |
| end |
| |
| 3'b010: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256 : (SecNum256+1)*31/32] = {4{1'b1}}; |
| Sec_Prot[(SecNum256+1)*31/32-1 : 0] = 124'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/32-1 : 0] = {4{1'b1}}; |
| Sec_Prot[SecNum256 : (SecNum256+1)/32] = 124'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*31/32] = {46{1'b1}}; |
| Sec_Prot[(SecNum64-29)*31/32-1 : 0] = 496'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/32-1 : 0] = {16{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/32] = 526'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64:(SecNum64-29)*31/32+30] = {16{1'b1}}; |
| Sec_Prot[(SecNum64-29)*31/32+29 : 0] = 526'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/32+29 : 0] = {46{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/32+30] = 496'h0; |
| end |
| end |
| end |
| |
| 3'b011: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256 : (SecNum256+1)*15/16] = 8'hFF; |
| Sec_Prot[(SecNum256+1)*15/16-1 : 0] = 120'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/16-1 : 0] = 8'hFF; |
| Sec_Prot[SecNum256 : (SecNum256+1)/16] = 120'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*15/16] = {62{1'b1}}; |
| Sec_Prot[(SecNum64-29)*15/16-1 : 0] = 480'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/16-1 : 0] = {32{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/16] = 510'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*15/16+30]={32{1'b1}}; |
| Sec_Prot[(SecNum64-29)*15/16+29 : 0] = 510'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/16+29 : 0] ={62{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/16+30] = 480'h0; |
| end |
| end |
| end |
| |
| 3'b100: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256 : (SecNum256+1)*7/8] = {16{1'b1}}; |
| Sec_Prot[(SecNum256+1)*7/8-1 : 0] = 112'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/8-1 : 0] = {16{1'b1}}; |
| Sec_Prot[SecNum256 : (SecNum256+1)/8] = 112'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*7/8] = {94{1'b1}}; |
| Sec_Prot[(SecNum64-29)*7/8-1 : 0] = 448'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/8-1 : 0] = {64{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/8] = 478'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*7/8+30] ={64{1'b1}}; |
| Sec_Prot[(SecNum64-29)*7/8+29 : 0] = 478'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/8+29 : 0] = {94{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/8+30] = 448'h0; |
| end |
| end |
| end |
| |
| 3'b101: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256 : (SecNum256+1)*3/4] = {32{1'b1}}; |
| Sec_Prot[(SecNum256+1)*3/4-1 : 0] = 96'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/4-1 : 0] = {32{1'b1}}; |
| Sec_Prot[SecNum256 : (SecNum256+1)/4] = 96'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*3/4] = {158{1'b1}}; |
| Sec_Prot[(SecNum64-29)*3/4-1 : 0] = 384'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/4-1 : 0] = {128{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/4] = 414'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)*3/4+30] = {128{1'b1}}; |
| Sec_Prot[(SecNum64-29)*3/4+29 : 0] = 414'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/4+29 : 0] = {158{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/4+30] = 384'h0; |
| end |
| end |
| end |
| |
| 3'b110: |
| begin |
| if (tmp_char2 == "1") |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum256 : (SecNum256+1)/2] = {64{1'b1}}; |
| Sec_Prot[(SecNum256+1)/2-1 : 0] = 64'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum256+1)/2-1 : 0] = {64{1'b1}}; |
| Sec_Prot[SecNum256 : (SecNum256+1)/2] = 64'h0; |
| end |
| end |
| else if (tmp_char2 == "0" && TBPARM == 1) |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)/2] = {286{1'b1}}; |
| Sec_Prot[(SecNum64-29)/2-1 : 0] = 256'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/2-1 : 0] = {256{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/2] = 286'h0; |
| end |
| end |
| else |
| begin |
| if (~TBPROT) |
| begin |
| Sec_Prot[SecNum64 : (SecNum64-29)/2+30] = {256{1'b1}}; |
| Sec_Prot[(SecNum64-29)/2+29 : 0] = 286'h0; |
| end |
| else |
| begin |
| Sec_Prot[(SecNum64-29)/2+29 : 0] = {286{1'b1}}; |
| Sec_Prot[SecNum64 : (SecNum64-29)/2+30] = 256'h0; |
| end |
| end |
| end |
| |
| 3'b111: |
| begin |
| Sec_Prot[SecNum64:0] = {542{1'b1}}; |
| end |
| endcase |
| end |
| |
| always @(SOut_zd or HOLDNeg_in or SIOut_zd) |
| begin |
| if (HOLDNeg_in == 0 && ~QUAD) |
| begin |
| hold_mode = 1'b1; |
| SIOut_z = 1'bZ; |
| SOut_z = 1'bZ; |
| end |
| else |
| begin |
| if (hold_mode == 1) |
| begin |
| SIOut_z <= #(tpd_HOLDNeg_SO) SIOut_zd; |
| SOut_z <= #(tpd_HOLDNeg_SO) SOut_zd; |
| hold_mode = #(tpd_HOLDNeg_SO) 1'b0; |
| end |
| else |
| begin |
| SIOut_z = SIOut_zd; |
| SOut_z = SOut_zd; |
| hold_mode = 1'b0; |
| end |
| end |
| end |
| |
| //////////////////////////////////////////////////////////////////////// |
| // autoboot control logic |
| //////////////////////////////////////////////////////////////////////// |
| always @(rising_edge_SCK_ipd or current_state_event) |
| begin |
| if(current_state == AUTOBOOT) |
| begin |
| if (rising_edge_SCK_ipd) |
| begin |
| if (start_delay > 0) |
| start_delay = start_delay - 1; |
| end |
| |
| if (start_delay == 0) |
| begin |
| start_autoboot = 1; |
| end |
| end |
| end |
| |
| //////////////////////////////////////////////////////////////////////// |
| // functions & tasks |
| //////////////////////////////////////////////////////////////////////// |
| // Procedure FDDR_DPL |
| task Return_DLP; |
| input integer Instruct; |
| input integer EHP; |
| input integer Latency_code; |
| input integer dummy_cnt; |
| inout start_dlp; |
| begin |
| if (Instruct == DDRFR || Instruct == DDRFR4) |
| begin |
| if (EHP) |
| begin |
| if (Latency_code == 1) |
| start_dlp = 1'b1; |
| else if (Latency_code == 2 && dummy_cnt >= 1) |
| start_dlp = 1'b1; |
| else if(Latency_code == 3 || Latency_code == 0) |
| begin |
| start_dlp = 1'b0; |
| $display("Warning at", $time); |
| $display("Inappropriate latency is set during DPL mode"); |
| end |
| end |
| else |
| begin |
| |
| if (Latency_code == 3) |
| start_dlp = 1'b1; |
| else if (Latency_code == 0 && dummy_cnt >= 1) |
| start_dlp = 1'b1; |
| else if(Latency_code == 1 && dummy_cnt >= 2) |
| start_dlp = 1'b1; |
| else if(Latency_code == 2 && dummy_cnt >= 3) |
| start_dlp = 1'b1; |
| else |
| start_dlp = 1'b0; |
| end |
| end |
| if (Instruct == DDRDIOR || Instruct == DDRDIOR4) |
| begin |
| if (EHP) |
| begin |
| if (Latency_code == 1 && dummy_cnt >= 1) |
| start_dlp = 1'b1; |
| else if (Latency_code == 2 && dummy_cnt >= 2) |
| start_dlp = 1'b1; |
| else if( Latency_code == 3 || Latency_code == 0) |
| begin |
| start_dlp = 1'b0; |
| $display("Warning at", $time); |
| $display("Inappropriate latency is set during DPL mode"); |
| end |
| else |
| start_dlp = 1'b0; |
| end |
| else |
| begin |
| if (Latency_code == 0 && dummy_cnt >= 2) |
| start_dlp = 1'b1; |
| else if (Latency_code == 1 && dummy_cnt >= 3) |
| start_dlp = 1'b1; |
| else if(Latency_code == 2 && dummy_cnt >= 4) |
| start_dlp = 1'b1; |
| else |
| start_dlp = 1'b0; |
| end |
| end |
| if ((Instruct == DDRQIOR || Instruct == DDRQIOR4) && QUAD) |
| begin |
| if (EHP) |
| begin |
| if (Latency_code == 0 && dummy_cnt >= 2) |
| start_dlp = 1'b1; |
| else if (Latency_code == 1 && dummy_cnt >= 3) |
| start_dlp = 1'b1; |
| else if (Latency_code == 2 && dummy_cnt >= 4) |
| start_dlp = 1'b1; |
| else if( Latency_code == 3) |
| begin |
| start_dlp = 1'b0; |
| $display("Warning at", $time); |
| $display("Inappropriate latency is"); |
| $display("set during DPL mode"); |
| end |
| else |
| start_dlp = 1'b0; |
| |
| end |
| else |
| begin |
| if (Latency_code == 0 && dummy_cnt >= 2) |
| start_dlp = 1'b1; |
| else if (Latency_code == 1 && dummy_cnt >= 3) |
| start_dlp = 1'b1; |
| else if (Latency_code == 2 && dummy_cnt >= 4) |
| start_dlp = 1'b1; |
| else if( Latency_code == 3) |
| begin |
| start_dlp = 1'b0; |
| $display("Warning at", $time); |
| $display("Inappropriate latency is"); |
| $display("set during DPL mode"); |
| end |
| else |
| start_dlp = 1'b0; |
| end |
| end |
| end |
| endtask |
| |
| function integer ReturnSectorIDRdPswdMd; |
| input reg TBPROT; |
| begin |
| if(TBPROT == 0) |
| begin |
| ReturnSectorIDRdPswdMd = 0; |
| end |
| else |
| begin |
| if (UniformSec) |
| begin |
| ReturnSectorIDRdPswdMd = SecNum256; |
| end |
| else |
| begin |
| ReturnSectorIDRdPswdMd = 511; |
| end |
| end |
| end |
| endfunction |
| |
| // Procedure ADDRHILO_SEC |
| task ADDRHILO_SEC; |
| inout AddrLOW; |
| inout AddrHIGH; |
| input Addr; |
| integer AddrLOW; |
| integer AddrHIGH; |
| integer Addr; |
| integer sector; |
| begin |
| if (tmp_char2 == "0") |
| begin |
| if (TBPARM == 0) |
| begin |
| if (Addr/(SecSize64+1) <= 1 && |
| (Instruct == P4E || Instruct == P4E4)) //4KB Sectors |
| begin |
| sector = Addr/(SecSize4+1); |
| AddrLOW = sector*(SecSize4+1); |
| AddrHIGH = sector*(SecSize4+1) + SecSize4; |
| end |
| else |
| begin |
| sector = Addr/(SecSize64+1); |
| AddrLOW = sector*(SecSize64+1); |
| AddrHIGH = sector*(SecSize64+1) + SecSize64; |
| end |
| end |
| else |
| begin |
| if (Addr/(SecSize64+1) >= 510 && |
| (Instruct == P4E || Instruct == P4E4)) //4KB Sectors |
| begin |
| sector = 510 + (Addr-(SecSize64+1)*510)/(SecSize4+1); |
| AddrLOW = 510*(SecSize64+1)+(sector-510)*(SecSize4+1); |
| AddrHIGH = 510*(SecSize64+1)+ |
| (sector-510)*(SecSize4+1) + SecSize4; |
| end |
| else |
| begin |
| sector = Addr/(SecSize64+1); |
| AddrLOW = sector*(SecSize64+1); |
| AddrHIGH = sector*(SecSize64+1) + SecSize64; |
| end |
| end |
| end |
| else if (tmp_char2 == "1") |
| begin |
| sector = Addr/(SecSize256+1); |
| AddrLOW = sector*(SecSize256+1); |
| AddrHIGH = sector*(SecSize256+1) + SecSize256; |
| end |
| end |
| endtask |
| |
| // Procedure ADDRHILO_PG |
| task ADDRHILO_PG; |
| inout AddrLOW; |
| inout AddrHIGH; |
| input Addr; |
| integer AddrLOW; |
| integer AddrHIGH; |
| integer Addr; |
| integer page; |
| begin |
| page = Addr / (PageSize + 1); |
| AddrLOW = page * (PageSize + 1); |
| AddrHIGH = page * (PageSize + 1) + PageSize ; |
| end |
| endtask |
| |
| // Procedure ReturnSectorID |
| task ReturnSectorID; |
| inout sect; |
| input Address; |
| integer sect; |
| integer Address; |
| integer conv; |
| begin |
| if (tmp_char2 == "0") |
| begin |
| conv = Address / (SecSize64+1); |
| if (BottomBoot) |
| begin |
| if (conv <= 1) //4KB Sectors |
| begin |
| sect = Address/(SecSize4+1); |
| end |
| else |
| begin |
| sect = conv + 30; |
| end |
| end |
| else if (TopBoot) |
| begin |
| if (conv >= 510) //4KB Sectors |
| begin |
| sect = 510 + (Address-(SecSize64+1)*510)/(SecSize4+1); |
| end |
| else |
| begin |
| sect = conv; |
| end |
| end |
| end |
| else |
| begin |
| sect = Address/(SecSize256+1); |
| end |
| end |
| endtask |
| |
| always @(PPBL[0], ASP_reg) |
| begin |
| if (PPBL[0] == 0 && PWDMLB == 0 && RPME == 0 && RdPswdProtEnable) |
| begin |
| RdPswdProtMode = 1; |
| AutoBoot_reg[0] = 0;//AUTOBOOT is disabled when Read Password |
| end //Protection is enabled |
| else |
| begin |
| RdPswdProtMode = 0; |
| end |
| end |
| |
| /////////////////////////////////////////////////////////////////////////// |
| // edge controll processes |
| /////////////////////////////////////////////////////////////////////////// |
| |
| always @(posedge PoweredUp) |
| begin |
| rising_edge_PoweredUp = 1; |
| #1000 rising_edge_PoweredUp = 0; |
| end |
| |
| always @(posedge SCK_ipd) |
| begin |
| rising_edge_SCK_ipd = 1'b1; |
| #1000 rising_edge_SCK_ipd = 1'b0; |
| end |
| |
| always @(negedge SCK_ipd) |
| begin |
| falling_edge_SCK_ipd = 1'b1; |
| #1000 falling_edge_SCK_ipd = 1'b0; |
| end |
| |
| always @(posedge read_out) |
| begin |
| rising_edge_read_out = 1'b1; |
| #1000 rising_edge_read_out = 1'b0; |
| end |
| |
| always @(negedge write) |
| begin |
| falling_edge_write = 1; |
| #1000 falling_edge_write = 0; |
| end |
| |
| always @(posedge PRGSUSP_out) |
| begin |
| PRGSUSP_out_event = 1; |
| #1000 PRGSUSP_out_event = 0; |
| end |
| |
| always @(posedge ERSSUSP_out) |
| begin |
| ERSSUSP_out_event = 1; |
| #1000 ERSSUSP_out_event = 0; |
| end |
| |
| always @(posedge CSNeg_ipd) |
| begin |
| rising_edge_CSNeg_ipd = 1'b1; |
| #1000 rising_edge_CSNeg_ipd = 1'b0; |
| end |
| |
| always @(negedge CSNeg_ipd) |
| begin |
| falling_edge_CSNeg_ipd = 1'b1; |
| #1000 falling_edge_CSNeg_ipd = 1'b0; |
| end |
| |
| always @(negedge RSTNeg_in) |
| begin |
| falling_edge_RSTNeg = 1'b1; |
| #50000 falling_edge_RSTNeg = 1'b0; |
| end |
| |
| always @(posedge RSTNeg_in) |
| begin |
| rising_edge_RSTNeg = 1'b1; |
| #10000 rising_edge_RSTNeg = 1'b0; |
| end |
| |
| always @(negedge RST) |
| begin |
| falling_edge_RST = 1'b1; |
| #10000 falling_edge_RST = 1'b0; |
| end |
| |
| always @(posedge RST) |
| begin |
| rising_edge_RST = 1'b1; |
| #1000 rising_edge_RST = 1'b0; |
| end |
| |
| always @(posedge PDONE) |
| begin |
| rising_edge_PDONE = 1'b1; |
| #1000 rising_edge_PDONE = 1'b0; |
| end |
| |
| always @(posedge WDONE) |
| begin |
| rising_edge_WDONE = 1'b1; |
| #1000 rising_edge_WDONE = 1'b0; |
| end |
| |
| always @(posedge WSTART) |
| begin |
| rising_edge_WSTART = 1'b1; |
| #1000 rising_edge_WSTART = 1'b0; |
| end |
| |
| always @(posedge EDONE) |
| begin |
| rising_edge_EDONE = 1'b1; |
| #1000 rising_edge_EDONE = 1'b0; |
| end |
| |
| always @(posedge ESTART) |
| begin |
| rising_edge_ESTART = 1'b1; |
| #1000 rising_edge_ESTART = 1'b0; |
| end |
| |
| always @(posedge PSTART) |
| begin |
| rising_edge_PSTART = 1'b1; |
| #1000 rising_edge_PSTART = 1'b0; |
| end |
| |
| always @(posedge Reseted) |
| begin |
| rising_edge_Reseted = 1'b1; |
| #1000 rising_edge_Reseted = 1'b0; |
| end |
| |
| always @(negedge PASSULCK_in) |
| begin |
| falling_edge_PASSULCK_in = 1'b1; |
| #1000 falling_edge_PASSULCK_in = 1'b0; |
| end |
| |
| always @(negedge PPBERASE_in) |
| begin |
| falling_edge_PPBERASE_in = 1'b1; |
| #1000 falling_edge_PPBERASE_in = 1'b0; |
| end |
| |
| always @(Instruct) |
| begin |
| Instruct_event = 1'b1; |
| #1000 Instruct_event = 1'b0; |
| end |
| |
| always @(change_addr) |
| begin |
| change_addr_event = 1'b1; |
| #1000 change_addr_event = 1'b0; |
| end |
| |
| always @(next_state) |
| begin |
| next_state_event = 1'b1; |
| #1000 next_state_event = 1'b0; |
| end |
| |
| always @(current_state) |
| begin |
| current_state_event = 1'b1; |
| #1000 current_state_event = 1'b0; |
| end |
| |
| always @(posedge RST_out) |
| begin |
| rising_edge_RST_out = 1'b1; |
| #1000 rising_edge_RST_out = 1'b0; |
| end |
| |
| endmodule |