yosys/techlibs/xilinx/xc7_cells_xtra.v

5816 lines
186 KiB
Verilog

// Created by cells_xtra.py from Xilinx models
module GTHE2_CHANNEL (...);
parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0;
parameter [0:0] ACJTAG_MODE = 1'b0;
parameter [0:0] ACJTAG_RESET = 1'b0;
parameter [19:0] ADAPT_CFG0 = 20'h00C10;
parameter ALIGN_COMMA_DOUBLE = "FALSE";
parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111;
parameter integer ALIGN_COMMA_WORD = 1;
parameter ALIGN_MCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011;
parameter ALIGN_PCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100;
parameter [0:0] A_RXOSCALRESET = 1'b0;
parameter CBCC_DATA_SOURCE_SEL = "DECODED";
parameter [41:0] CFOK_CFG = 42'h24800040E80;
parameter [5:0] CFOK_CFG2 = 6'b100000;
parameter [5:0] CFOK_CFG3 = 6'b100000;
parameter CHAN_BOND_KEEP_ALIGN = "FALSE";
parameter integer CHAN_BOND_MAX_SKEW = 7;
parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100;
parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111;
parameter CHAN_BOND_SEQ_2_USE = "FALSE";
parameter integer CHAN_BOND_SEQ_LEN = 1;
parameter CLK_CORRECT_USE = "TRUE";
parameter CLK_COR_KEEP_IDLE = "FALSE";
parameter integer CLK_COR_MAX_LAT = 20;
parameter integer CLK_COR_MIN_LAT = 18;
parameter CLK_COR_PRECEDENCE = "TRUE";
parameter integer CLK_COR_REPEAT_WAIT = 0;
parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100;
parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111;
parameter CLK_COR_SEQ_2_USE = "FALSE";
parameter integer CLK_COR_SEQ_LEN = 1;
parameter [28:0] CPLL_CFG = 29'h00BC07DC;
parameter integer CPLL_FBDIV = 4;
parameter integer CPLL_FBDIV_45 = 5;
parameter [23:0] CPLL_INIT_CFG = 24'h00001E;
parameter [15:0] CPLL_LOCK_CFG = 16'h01E8;
parameter integer CPLL_REFCLK_DIV = 1;
parameter DEC_MCOMMA_DETECT = "TRUE";
parameter DEC_PCOMMA_DETECT = "TRUE";
parameter DEC_VALID_COMMA_ONLY = "TRUE";
parameter [23:0] DMONITOR_CFG = 24'h000A00;
parameter [0:0] ES_CLK_PHASE_SEL = 1'b0;
parameter [5:0] ES_CONTROL = 6'b000000;
parameter ES_ERRDET_EN = "FALSE";
parameter ES_EYE_SCAN_EN = "TRUE";
parameter [11:0] ES_HORZ_OFFSET = 12'h000;
parameter [9:0] ES_PMA_CFG = 10'b0000000000;
parameter [4:0] ES_PRESCALE = 5'b00000;
parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000;
parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000;
parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000;
parameter [8:0] ES_VERT_OFFSET = 9'b000000000;
parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111;
parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111;
parameter FTS_LANE_DESKEW_EN = "FALSE";
parameter [2:0] GEARBOX_MODE = 3'b000;
parameter [0:0] IS_CLKRSVD0_INVERTED = 1'b0;
parameter [0:0] IS_CLKRSVD1_INVERTED = 1'b0;
parameter [0:0] IS_CPLLLOCKDETCLK_INVERTED = 1'b0;
parameter [0:0] IS_DMONITORCLK_INVERTED = 1'b0;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0;
parameter [0:0] IS_SIGVALIDCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0;
parameter [0:0] LOOPBACK_CFG = 1'b0;
parameter [1:0] OUTREFCLK_SEL_INV = 2'b11;
parameter PCS_PCIE_EN = "FALSE";
parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000;
parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C;
parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19;
parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64;
parameter [31:0] PMA_RSV = 32'b00000000000000000000000010000000;
parameter [31:0] PMA_RSV2 = 32'b00011100000000000000000000001010;
parameter [1:0] PMA_RSV3 = 2'b00;
parameter [14:0] PMA_RSV4 = 15'b000000000001000;
parameter [3:0] PMA_RSV5 = 4'b0000;
parameter [0:0] RESET_POWERSAVE_DISABLE = 1'b0;
parameter [4:0] RXBUFRESET_TIME = 5'b00001;
parameter RXBUF_ADDR_MODE = "FULL";
parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000;
parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000;
parameter RXBUF_EN = "TRUE";
parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE";
parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE";
parameter RXBUF_RESET_ON_EIDLE = "FALSE";
parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE";
parameter integer RXBUF_THRESH_OVFLW = 61;
parameter RXBUF_THRESH_OVRD = "FALSE";
parameter integer RXBUF_THRESH_UNDFLW = 4;
parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001;
parameter [4:0] RXCDRPHRESET_TIME = 5'b00001;
parameter [82:0] RXCDR_CFG = 83'h0002007FE2000C208001A;
parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0;
parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0;
parameter [5:0] RXCDR_LOCK_CFG = 6'b001001;
parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0;
parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111;
parameter [15:0] RXDLY_CFG = 16'h001F;
parameter [8:0] RXDLY_LCFG = 9'h030;
parameter [15:0] RXDLY_TAP_CFG = 16'h0000;
parameter RXGEARBOX_EN = "FALSE";
parameter [4:0] RXISCANRESET_TIME = 5'b00001;
parameter [13:0] RXLPM_HF_CFG = 14'b00001000000000;
parameter [17:0] RXLPM_LF_CFG = 18'b001001000000000000;
parameter [6:0] RXOOB_CFG = 7'b0000110;
parameter RXOOB_CLK_CFG = "PMA";
parameter [4:0] RXOSCALRESET_TIME = 5'b00011;
parameter [4:0] RXOSCALRESET_TIMEOUT = 5'b00000;
parameter integer RXOUT_DIV = 2;
parameter [4:0] RXPCSRESET_TIME = 5'b00001;
parameter [23:0] RXPHDLY_CFG = 24'h084020;
parameter [23:0] RXPH_CFG = 24'hC00002;
parameter [4:0] RXPH_MONITOR_SEL = 5'b00000;
parameter [1:0] RXPI_CFG0 = 2'b00;
parameter [1:0] RXPI_CFG1 = 2'b00;
parameter [1:0] RXPI_CFG2 = 2'b00;
parameter [1:0] RXPI_CFG3 = 2'b00;
parameter [0:0] RXPI_CFG4 = 1'b0;
parameter [0:0] RXPI_CFG5 = 1'b0;
parameter [2:0] RXPI_CFG6 = 3'b100;
parameter [4:0] RXPMARESET_TIME = 5'b00011;
parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0;
parameter integer RXSLIDE_AUTO_WAIT = 7;
parameter RXSLIDE_MODE = "OFF";
parameter [0:0] RXSYNC_MULTILANE = 1'b0;
parameter [0:0] RXSYNC_OVRD = 1'b0;
parameter [0:0] RXSYNC_SKIP_DA = 1'b0;
parameter [23:0] RX_BIAS_CFG = 24'b000011000000000000010000;
parameter [5:0] RX_BUFFER_CFG = 6'b000000;
parameter integer RX_CLK25_DIV = 7;
parameter [0:0] RX_CLKMUX_PD = 1'b1;
parameter [1:0] RX_CM_SEL = 2'b11;
parameter [3:0] RX_CM_TRIM = 4'b0100;
parameter integer RX_DATA_WIDTH = 20;
parameter [5:0] RX_DDI_SEL = 6'b000000;
parameter [13:0] RX_DEBUG_CFG = 14'b00000000000000;
parameter RX_DEFER_RESET_BUF_EN = "TRUE";
parameter [3:0] RX_DFELPM_CFG0 = 4'b0110;
parameter [0:0] RX_DFELPM_CFG1 = 1'b0;
parameter [0:0] RX_DFELPM_KLKH_AGC_STUP_EN = 1'b1;
parameter [1:0] RX_DFE_AGC_CFG0 = 2'b00;
parameter [2:0] RX_DFE_AGC_CFG1 = 3'b010;
parameter [3:0] RX_DFE_AGC_CFG2 = 4'b0000;
parameter [0:0] RX_DFE_AGC_OVRDEN = 1'b1;
parameter [22:0] RX_DFE_GAIN_CFG = 23'h0020C0;
parameter [11:0] RX_DFE_H2_CFG = 12'b000000000000;
parameter [11:0] RX_DFE_H3_CFG = 12'b000001000000;
parameter [10:0] RX_DFE_H4_CFG = 11'b00011100000;
parameter [10:0] RX_DFE_H5_CFG = 11'b00011100000;
parameter [10:0] RX_DFE_H6_CFG = 11'b00000100000;
parameter [10:0] RX_DFE_H7_CFG = 11'b00000100000;
parameter [32:0] RX_DFE_KL_CFG = 33'b000000000000000000000001100010000;
parameter [1:0] RX_DFE_KL_LPM_KH_CFG0 = 2'b01;
parameter [2:0] RX_DFE_KL_LPM_KH_CFG1 = 3'b010;
parameter [3:0] RX_DFE_KL_LPM_KH_CFG2 = 4'b0010;
parameter [0:0] RX_DFE_KL_LPM_KH_OVRDEN = 1'b1;
parameter [1:0] RX_DFE_KL_LPM_KL_CFG0 = 2'b10;
parameter [2:0] RX_DFE_KL_LPM_KL_CFG1 = 3'b010;
parameter [3:0] RX_DFE_KL_LPM_KL_CFG2 = 4'b0010;
parameter [0:0] RX_DFE_KL_LPM_KL_OVRDEN = 1'b1;
parameter [15:0] RX_DFE_LPM_CFG = 16'h0080;
parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0;
parameter [53:0] RX_DFE_ST_CFG = 54'h00E100000C003F;
parameter [16:0] RX_DFE_UT_CFG = 17'b00011100000000000;
parameter [16:0] RX_DFE_VP_CFG = 17'b00011101010100011;
parameter RX_DISPERR_SEQ_MATCH = "TRUE";
parameter integer RX_INT_DATAWIDTH = 0;
parameter [12:0] RX_OS_CFG = 13'b0000010000000;
parameter integer RX_SIG_VALID_DLY = 10;
parameter RX_XCLK_SEL = "RXREC";
parameter integer SAS_MAX_COM = 64;
parameter integer SAS_MIN_COM = 36;
parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111;
parameter [2:0] SATA_BURST_VAL = 3'b100;
parameter SATA_CPLL_CFG = "VCO_3000MHZ";
parameter [2:0] SATA_EIDLE_VAL = 3'b100;
parameter integer SATA_MAX_BURST = 8;
parameter integer SATA_MAX_INIT = 21;
parameter integer SATA_MAX_WAKE = 7;
parameter integer SATA_MIN_BURST = 4;
parameter integer SATA_MIN_INIT = 12;
parameter integer SATA_MIN_WAKE = 4;
parameter SHOW_REALIGN_COMMA = "TRUE";
parameter [2:0] SIM_CPLLREFCLK_SEL = 3'b001;
parameter SIM_RECEIVER_DETECT_PASS = "TRUE";
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X";
parameter SIM_VERSION = "1.1";
parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000;
parameter [2:0] TERM_RCAL_OVRD = 3'b000;
parameter [7:0] TRANS_TIME_RATE = 8'h0E;
parameter [31:0] TST_RSV = 32'h00000000;
parameter TXBUF_EN = "TRUE";
parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE";
parameter [15:0] TXDLY_CFG = 16'h001F;
parameter [8:0] TXDLY_LCFG = 9'h030;
parameter [15:0] TXDLY_TAP_CFG = 16'h0000;
parameter TXGEARBOX_EN = "FALSE";
parameter [0:0] TXOOB_CFG = 1'b0;
parameter integer TXOUT_DIV = 2;
parameter [4:0] TXPCSRESET_TIME = 5'b00001;
parameter [23:0] TXPHDLY_CFG = 24'h084020;
parameter [15:0] TXPH_CFG = 16'h0780;
parameter [4:0] TXPH_MONITOR_SEL = 5'b00000;
parameter [1:0] TXPI_CFG0 = 2'b00;
parameter [1:0] TXPI_CFG1 = 2'b00;
parameter [1:0] TXPI_CFG2 = 2'b00;
parameter [0:0] TXPI_CFG3 = 1'b0;
parameter [0:0] TXPI_CFG4 = 1'b0;
parameter [2:0] TXPI_CFG5 = 3'b100;
parameter [0:0] TXPI_GREY_SEL = 1'b0;
parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0;
parameter TXPI_PPMCLK_SEL = "TXUSRCLK2";
parameter [7:0] TXPI_PPM_CFG = 8'b00000000;
parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000;
parameter [4:0] TXPMARESET_TIME = 5'b00001;
parameter [0:0] TXSYNC_MULTILANE = 1'b0;
parameter [0:0] TXSYNC_OVRD = 1'b0;
parameter [0:0] TXSYNC_SKIP_DA = 1'b0;
parameter integer TX_CLK25_DIV = 7;
parameter [0:0] TX_CLKMUX_PD = 1'b1;
parameter integer TX_DATA_WIDTH = 20;
parameter [5:0] TX_DEEMPH0 = 6'b000000;
parameter [5:0] TX_DEEMPH1 = 6'b000000;
parameter TX_DRIVE_MODE = "DIRECT";
parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110;
parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100;
parameter integer TX_INT_DATAWIDTH = 0;
parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE";
parameter [0:0] TX_MAINCURSOR_SEL = 1'b0;
parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110;
parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001;
parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101;
parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010;
parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110;
parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100;
parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010;
parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000;
parameter [0:0] TX_QPI_STATUS_EN = 1'b0;
parameter [13:0] TX_RXDETECT_CFG = 14'h1832;
parameter [16:0] TX_RXDETECT_PRECHARGE_TIME = 17'h00000;
parameter [2:0] TX_RXDETECT_REF = 3'b100;
parameter TX_XCLK_SEL = "TXUSR";
parameter [0:0] UCODEER_CLR = 1'b0;
parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0;
output CPLLFBCLKLOST;
output CPLLLOCK;
output CPLLREFCLKLOST;
output DRPRDY;
output EYESCANDATAERROR;
output GTHTXN;
output GTHTXP;
output GTREFCLKMONITOR;
output PHYSTATUS;
output RSOSINTDONE;
output RXBYTEISALIGNED;
output RXBYTEREALIGN;
output RXCDRLOCK;
output RXCHANBONDSEQ;
output RXCHANISALIGNED;
output RXCHANREALIGN;
output RXCOMINITDET;
output RXCOMMADET;
output RXCOMSASDET;
output RXCOMWAKEDET;
output RXDFESLIDETAPSTARTED;
output RXDFESLIDETAPSTROBEDONE;
output RXDFESLIDETAPSTROBESTARTED;
output RXDFESTADAPTDONE;
output RXDLYSRESETDONE;
output RXELECIDLE;
output RXOSINTSTARTED;
output RXOSINTSTROBEDONE;
output RXOSINTSTROBESTARTED;
output RXOUTCLK;
output RXOUTCLKFABRIC;
output RXOUTCLKPCS;
output RXPHALIGNDONE;
output RXPMARESETDONE;
output RXPRBSERR;
output RXQPISENN;
output RXQPISENP;
output RXRATEDONE;
output RXRESETDONE;
output RXSYNCDONE;
output RXSYNCOUT;
output RXVALID;
output TXCOMFINISH;
output TXDLYSRESETDONE;
output TXGEARBOXREADY;
output TXOUTCLK;
output TXOUTCLKFABRIC;
output TXOUTCLKPCS;
output TXPHALIGNDONE;
output TXPHINITDONE;
output TXPMARESETDONE;
output TXQPISENN;
output TXQPISENP;
output TXRATEDONE;
output TXRESETDONE;
output TXSYNCDONE;
output TXSYNCOUT;
output [14:0] DMONITOROUT;
output [15:0] DRPDO;
output [15:0] PCSRSVDOUT;
output [1:0] RXCLKCORCNT;
output [1:0] RXDATAVALID;
output [1:0] RXHEADERVALID;
output [1:0] RXSTARTOFSEQ;
output [1:0] TXBUFSTATUS;
output [2:0] RXBUFSTATUS;
output [2:0] RXSTATUS;
output [4:0] RXCHBONDO;
output [4:0] RXPHMONITOR;
output [4:0] RXPHSLIPMONITOR;
output [5:0] RXHEADER;
output [63:0] RXDATA;
output [6:0] RXMONITOROUT;
output [7:0] RXCHARISCOMMA;
output [7:0] RXCHARISK;
output [7:0] RXDISPERR;
output [7:0] RXNOTINTABLE;
input CFGRESET;
(* invertible_pin = "IS_CLKRSVD0_INVERTED" *)
input CLKRSVD0;
(* invertible_pin = "IS_CLKRSVD1_INVERTED" *)
input CLKRSVD1;
(* invertible_pin = "IS_CPLLLOCKDETCLK_INVERTED" *)
input CPLLLOCKDETCLK;
input CPLLLOCKEN;
input CPLLPD;
input CPLLRESET;
input DMONFIFORESET;
(* invertible_pin = "IS_DMONITORCLK_INVERTED" *)
input DMONITORCLK;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
input EYESCANMODE;
input EYESCANRESET;
input EYESCANTRIGGER;
(* invertible_pin = "IS_GTGREFCLK_INVERTED" *)
input GTGREFCLK;
input GTHRXN;
input GTHRXP;
input GTNORTHREFCLK0;
input GTNORTHREFCLK1;
input GTREFCLK0;
input GTREFCLK1;
input GTRESETSEL;
input GTRXRESET;
input GTSOUTHREFCLK0;
input GTSOUTHREFCLK1;
input GTTXRESET;
input QPLLCLK;
input QPLLREFCLK;
input RESETOVRD;
input RX8B10BEN;
input RXBUFRESET;
input RXCDRFREQRESET;
input RXCDRHOLD;
input RXCDROVRDEN;
input RXCDRRESET;
input RXCDRRESETRSV;
input RXCHBONDEN;
input RXCHBONDMASTER;
input RXCHBONDSLAVE;
input RXCOMMADETEN;
input RXDDIEN;
input RXDFEAGCHOLD;
input RXDFEAGCOVRDEN;
input RXDFECM1EN;
input RXDFELFHOLD;
input RXDFELFOVRDEN;
input RXDFELPMRESET;
input RXDFESLIDETAPADAPTEN;
input RXDFESLIDETAPHOLD;
input RXDFESLIDETAPINITOVRDEN;
input RXDFESLIDETAPONLYADAPTEN;
input RXDFESLIDETAPOVRDEN;
input RXDFESLIDETAPSTROBE;
input RXDFETAP2HOLD;
input RXDFETAP2OVRDEN;
input RXDFETAP3HOLD;
input RXDFETAP3OVRDEN;
input RXDFETAP4HOLD;
input RXDFETAP4OVRDEN;
input RXDFETAP5HOLD;
input RXDFETAP5OVRDEN;
input RXDFETAP6HOLD;
input RXDFETAP6OVRDEN;
input RXDFETAP7HOLD;
input RXDFETAP7OVRDEN;
input RXDFEUTHOLD;
input RXDFEUTOVRDEN;
input RXDFEVPHOLD;
input RXDFEVPOVRDEN;
input RXDFEVSEN;
input RXDFEXYDEN;
input RXDLYBYPASS;
input RXDLYEN;
input RXDLYOVRDEN;
input RXDLYSRESET;
input RXGEARBOXSLIP;
input RXLPMEN;
input RXLPMHFHOLD;
input RXLPMHFOVRDEN;
input RXLPMLFHOLD;
input RXLPMLFKLOVRDEN;
input RXMCOMMAALIGNEN;
input RXOOBRESET;
input RXOSCALRESET;
input RXOSHOLD;
input RXOSINTEN;
input RXOSINTHOLD;
input RXOSINTNTRLEN;
input RXOSINTOVRDEN;
input RXOSINTSTROBE;
input RXOSINTTESTOVRDEN;
input RXOSOVRDEN;
input RXPCOMMAALIGNEN;
input RXPCSRESET;
input RXPHALIGN;
input RXPHALIGNEN;
input RXPHDLYPD;
input RXPHDLYRESET;
input RXPHOVRDEN;
input RXPMARESET;
input RXPOLARITY;
input RXPRBSCNTRESET;
input RXQPIEN;
input RXRATEMODE;
input RXSLIDE;
input RXSYNCALLIN;
input RXSYNCIN;
input RXSYNCMODE;
input RXUSERRDY;
(* invertible_pin = "IS_RXUSRCLK2_INVERTED" *)
input RXUSRCLK2;
(* invertible_pin = "IS_RXUSRCLK_INVERTED" *)
input RXUSRCLK;
input SETERRSTATUS;
(* invertible_pin = "IS_SIGVALIDCLK_INVERTED" *)
input SIGVALIDCLK;
input TX8B10BEN;
input TXCOMINIT;
input TXCOMSAS;
input TXCOMWAKE;
input TXDEEMPH;
input TXDETECTRX;
input TXDIFFPD;
input TXDLYBYPASS;
input TXDLYEN;
input TXDLYHOLD;
input TXDLYOVRDEN;
input TXDLYSRESET;
input TXDLYUPDOWN;
input TXELECIDLE;
input TXINHIBIT;
input TXPCSRESET;
input TXPDELECIDLEMODE;
input TXPHALIGN;
input TXPHALIGNEN;
input TXPHDLYPD;
input TXPHDLYRESET;
(* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *)
input TXPHDLYTSTCLK;
input TXPHINIT;
input TXPHOVRDEN;
input TXPIPPMEN;
input TXPIPPMOVRDEN;
input TXPIPPMPD;
input TXPIPPMSEL;
input TXPISOPD;
input TXPMARESET;
input TXPOLARITY;
input TXPOSTCURSORINV;
input TXPRBSFORCEERR;
input TXPRECURSORINV;
input TXQPIBIASEN;
input TXQPISTRONGPDOWN;
input TXQPIWEAKPUP;
input TXRATEMODE;
input TXSTARTSEQ;
input TXSWING;
input TXSYNCALLIN;
input TXSYNCIN;
input TXSYNCMODE;
input TXUSERRDY;
(* invertible_pin = "IS_TXUSRCLK2_INVERTED" *)
input TXUSRCLK2;
(* invertible_pin = "IS_TXUSRCLK_INVERTED" *)
input TXUSRCLK;
input [13:0] RXADAPTSELTEST;
input [15:0] DRPDI;
input [15:0] GTRSVD;
input [15:0] PCSRSVDIN;
input [19:0] TSTIN;
input [1:0] RXELECIDLEMODE;
input [1:0] RXMONITORSEL;
input [1:0] RXPD;
input [1:0] RXSYSCLKSEL;
input [1:0] TXPD;
input [1:0] TXSYSCLKSEL;
input [2:0] CPLLREFCLKSEL;
input [2:0] LOOPBACK;
input [2:0] RXCHBONDLEVEL;
input [2:0] RXOUTCLKSEL;
input [2:0] RXPRBSSEL;
input [2:0] RXRATE;
input [2:0] TXBUFDIFFCTRL;
input [2:0] TXHEADER;
input [2:0] TXMARGIN;
input [2:0] TXOUTCLKSEL;
input [2:0] TXPRBSSEL;
input [2:0] TXRATE;
input [3:0] RXOSINTCFG;
input [3:0] RXOSINTID0;
input [3:0] TXDIFFCTRL;
input [4:0] PCSRSVDIN2;
input [4:0] PMARSVDIN;
input [4:0] RXCHBONDI;
input [4:0] RXDFEAGCTRL;
input [4:0] RXDFESLIDETAP;
input [4:0] TXPIPPMSTEPSIZE;
input [4:0] TXPOSTCURSOR;
input [4:0] TXPRECURSOR;
input [5:0] RXDFESLIDETAPID;
input [63:0] TXDATA;
input [6:0] TXMAINCURSOR;
input [6:0] TXSEQUENCE;
input [7:0] TX8B10BBYPASS;
input [7:0] TXCHARDISPMODE;
input [7:0] TXCHARDISPVAL;
input [7:0] TXCHARISK;
input [8:0] DRPADDR;
endmodule
module GTHE2_COMMON (...);
parameter [63:0] BIAS_CFG = 64'h0000040000001000;
parameter [31:0] COMMON_CFG = 32'h0000001C;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0;
parameter [0:0] IS_QPLLLOCKDETCLK_INVERTED = 1'b0;
parameter [26:0] QPLL_CFG = 27'h0480181;
parameter [3:0] QPLL_CLKOUT_CFG = 4'b0000;
parameter [5:0] QPLL_COARSE_FREQ_OVRD = 6'b010000;
parameter [0:0] QPLL_COARSE_FREQ_OVRD_EN = 1'b0;
parameter [9:0] QPLL_CP = 10'b0000011111;
parameter [0:0] QPLL_CP_MONITOR_EN = 1'b0;
parameter [0:0] QPLL_DMONITOR_SEL = 1'b0;
parameter [9:0] QPLL_FBDIV = 10'b0000000000;
parameter [0:0] QPLL_FBDIV_MONITOR_EN = 1'b0;
parameter [0:0] QPLL_FBDIV_RATIO = 1'b0;
parameter [23:0] QPLL_INIT_CFG = 24'h000006;
parameter [15:0] QPLL_LOCK_CFG = 16'h01E8;
parameter [3:0] QPLL_LPF = 4'b1111;
parameter integer QPLL_REFCLK_DIV = 2;
parameter [0:0] QPLL_RP_COMP = 1'b0;
parameter [1:0] QPLL_VTRL_RESET = 2'b00;
parameter [1:0] RCAL_CFG = 2'b00;
parameter [15:0] RSVD_ATTR0 = 16'h0000;
parameter [15:0] RSVD_ATTR1 = 16'h0000;
parameter [2:0] SIM_QPLLREFCLK_SEL = 3'b001;
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_VERSION = "1.1";
output DRPRDY;
output QPLLFBCLKLOST;
output QPLLLOCK;
output QPLLOUTCLK;
output QPLLOUTREFCLK;
output QPLLREFCLKLOST;
output REFCLKOUTMONITOR;
output [15:0] DRPDO;
output [15:0] PMARSVDOUT;
output [7:0] QPLLDMONITOR;
input BGBYPASSB;
input BGMONITORENB;
input BGPDB;
input BGRCALOVRDENB;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
(* invertible_pin = "IS_GTGREFCLK_INVERTED" *)
input GTGREFCLK;
input GTNORTHREFCLK0;
input GTNORTHREFCLK1;
input GTREFCLK0;
input GTREFCLK1;
input GTSOUTHREFCLK0;
input GTSOUTHREFCLK1;
(* invertible_pin = "IS_QPLLLOCKDETCLK_INVERTED" *)
input QPLLLOCKDETCLK;
input QPLLLOCKEN;
input QPLLOUTRESET;
input QPLLPD;
input QPLLRESET;
input RCALENB;
input [15:0] DRPDI;
input [15:0] QPLLRSVD1;
input [2:0] QPLLREFCLKSEL;
input [4:0] BGRCALOVRD;
input [4:0] QPLLRSVD2;
input [7:0] DRPADDR;
input [7:0] PMARSVD;
endmodule
module GTPE2_CHANNEL (...);
parameter [0:0] ACJTAG_DEBUG_MODE = 1'b0;
parameter [0:0] ACJTAG_MODE = 1'b0;
parameter [0:0] ACJTAG_RESET = 1'b0;
parameter [19:0] ADAPT_CFG0 = 20'b00000000000000000000;
parameter ALIGN_COMMA_DOUBLE = "FALSE";
parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111;
parameter integer ALIGN_COMMA_WORD = 1;
parameter ALIGN_MCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011;
parameter ALIGN_PCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100;
parameter CBCC_DATA_SOURCE_SEL = "DECODED";
parameter [42:0] CFOK_CFG = 43'b1001001000000000000000001000000111010000000;
parameter [6:0] CFOK_CFG2 = 7'b0100000;
parameter [6:0] CFOK_CFG3 = 7'b0100000;
parameter [0:0] CFOK_CFG4 = 1'b0;
parameter [1:0] CFOK_CFG5 = 2'b00;
parameter [3:0] CFOK_CFG6 = 4'b0000;
parameter CHAN_BOND_KEEP_ALIGN = "FALSE";
parameter integer CHAN_BOND_MAX_SKEW = 7;
parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100;
parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111;
parameter CHAN_BOND_SEQ_2_USE = "FALSE";
parameter integer CHAN_BOND_SEQ_LEN = 1;
parameter [0:0] CLK_COMMON_SWING = 1'b0;
parameter CLK_CORRECT_USE = "TRUE";
parameter CLK_COR_KEEP_IDLE = "FALSE";
parameter integer CLK_COR_MAX_LAT = 20;
parameter integer CLK_COR_MIN_LAT = 18;
parameter CLK_COR_PRECEDENCE = "TRUE";
parameter integer CLK_COR_REPEAT_WAIT = 0;
parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100;
parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111;
parameter CLK_COR_SEQ_2_USE = "FALSE";
parameter integer CLK_COR_SEQ_LEN = 1;
parameter DEC_MCOMMA_DETECT = "TRUE";
parameter DEC_PCOMMA_DETECT = "TRUE";
parameter DEC_VALID_COMMA_ONLY = "TRUE";
parameter [23:0] DMONITOR_CFG = 24'h000A00;
parameter [0:0] ES_CLK_PHASE_SEL = 1'b0;
parameter [5:0] ES_CONTROL = 6'b000000;
parameter ES_ERRDET_EN = "FALSE";
parameter ES_EYE_SCAN_EN = "FALSE";
parameter [11:0] ES_HORZ_OFFSET = 12'h010;
parameter [9:0] ES_PMA_CFG = 10'b0000000000;
parameter [4:0] ES_PRESCALE = 5'b00000;
parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000;
parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000;
parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000;
parameter [8:0] ES_VERT_OFFSET = 9'b000000000;
parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111;
parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111;
parameter FTS_LANE_DESKEW_EN = "FALSE";
parameter [2:0] GEARBOX_MODE = 3'b000;
parameter [0:0] IS_CLKRSVD0_INVERTED = 1'b0;
parameter [0:0] IS_CLKRSVD1_INVERTED = 1'b0;
parameter [0:0] IS_DMONITORCLK_INVERTED = 1'b0;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0;
parameter [0:0] IS_SIGVALIDCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0;
parameter [0:0] LOOPBACK_CFG = 1'b0;
parameter [1:0] OUTREFCLK_SEL_INV = 2'b11;
parameter PCS_PCIE_EN = "FALSE";
parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000;
parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C;
parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19;
parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64;
parameter [0:0] PMA_LOOPBACK_CFG = 1'b0;
parameter [31:0] PMA_RSV = 32'h00000333;
parameter [31:0] PMA_RSV2 = 32'h00002050;
parameter [1:0] PMA_RSV3 = 2'b00;
parameter [3:0] PMA_RSV4 = 4'b0000;
parameter [0:0] PMA_RSV5 = 1'b0;
parameter [0:0] PMA_RSV6 = 1'b0;
parameter [0:0] PMA_RSV7 = 1'b0;
parameter [4:0] RXBUFRESET_TIME = 5'b00001;
parameter RXBUF_ADDR_MODE = "FULL";
parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000;
parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000;
parameter RXBUF_EN = "TRUE";
parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE";
parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE";
parameter RXBUF_RESET_ON_EIDLE = "FALSE";
parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE";
parameter integer RXBUF_THRESH_OVFLW = 61;
parameter RXBUF_THRESH_OVRD = "FALSE";
parameter integer RXBUF_THRESH_UNDFLW = 4;
parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001;
parameter [4:0] RXCDRPHRESET_TIME = 5'b00001;
parameter [82:0] RXCDR_CFG = 83'h0000107FE406001041010;
parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0;
parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0;
parameter [5:0] RXCDR_LOCK_CFG = 6'b001001;
parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0;
parameter [15:0] RXDLY_CFG = 16'h0010;
parameter [8:0] RXDLY_LCFG = 9'h020;
parameter [15:0] RXDLY_TAP_CFG = 16'h0000;
parameter RXGEARBOX_EN = "FALSE";
parameter [4:0] RXISCANRESET_TIME = 5'b00001;
parameter [6:0] RXLPMRESET_TIME = 7'b0001111;
parameter [0:0] RXLPM_BIAS_STARTUP_DISABLE = 1'b0;
parameter [3:0] RXLPM_CFG = 4'b0110;
parameter [0:0] RXLPM_CFG1 = 1'b0;
parameter [0:0] RXLPM_CM_CFG = 1'b0;
parameter [8:0] RXLPM_GC_CFG = 9'b111100010;
parameter [2:0] RXLPM_GC_CFG2 = 3'b001;
parameter [13:0] RXLPM_HF_CFG = 14'b00001111110000;
parameter [4:0] RXLPM_HF_CFG2 = 5'b01010;
parameter [3:0] RXLPM_HF_CFG3 = 4'b0000;
parameter [0:0] RXLPM_HOLD_DURING_EIDLE = 1'b0;
parameter [0:0] RXLPM_INCM_CFG = 1'b0;
parameter [0:0] RXLPM_IPCM_CFG = 1'b0;
parameter [17:0] RXLPM_LF_CFG = 18'b000000001111110000;
parameter [4:0] RXLPM_LF_CFG2 = 5'b01010;
parameter [2:0] RXLPM_OSINT_CFG = 3'b100;
parameter [6:0] RXOOB_CFG = 7'b0000110;
parameter RXOOB_CLK_CFG = "PMA";
parameter [4:0] RXOSCALRESET_TIME = 5'b00011;
parameter [4:0] RXOSCALRESET_TIMEOUT = 5'b00000;
parameter integer RXOUT_DIV = 2;
parameter [4:0] RXPCSRESET_TIME = 5'b00001;
parameter [23:0] RXPHDLY_CFG = 24'h084000;
parameter [23:0] RXPH_CFG = 24'hC00002;
parameter [4:0] RXPH_MONITOR_SEL = 5'b00000;
parameter [2:0] RXPI_CFG0 = 3'b000;
parameter [0:0] RXPI_CFG1 = 1'b0;
parameter [0:0] RXPI_CFG2 = 1'b0;
parameter [4:0] RXPMARESET_TIME = 5'b00011;
parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0;
parameter integer RXSLIDE_AUTO_WAIT = 7;
parameter RXSLIDE_MODE = "OFF";
parameter [0:0] RXSYNC_MULTILANE = 1'b0;
parameter [0:0] RXSYNC_OVRD = 1'b0;
parameter [0:0] RXSYNC_SKIP_DA = 1'b0;
parameter [15:0] RX_BIAS_CFG = 16'b0000111100110011;
parameter [5:0] RX_BUFFER_CFG = 6'b000000;
parameter integer RX_CLK25_DIV = 7;
parameter [0:0] RX_CLKMUX_EN = 1'b1;
parameter [1:0] RX_CM_SEL = 2'b11;
parameter [3:0] RX_CM_TRIM = 4'b0100;
parameter integer RX_DATA_WIDTH = 20;
parameter [5:0] RX_DDI_SEL = 6'b000000;
parameter [13:0] RX_DEBUG_CFG = 14'b00000000000000;
parameter RX_DEFER_RESET_BUF_EN = "TRUE";
parameter RX_DISPERR_SEQ_MATCH = "TRUE";
parameter [12:0] RX_OS_CFG = 13'b0001111110000;
parameter integer RX_SIG_VALID_DLY = 10;
parameter RX_XCLK_SEL = "RXREC";
parameter integer SAS_MAX_COM = 64;
parameter integer SAS_MIN_COM = 36;
parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111;
parameter [2:0] SATA_BURST_VAL = 3'b100;
parameter [2:0] SATA_EIDLE_VAL = 3'b100;
parameter integer SATA_MAX_BURST = 8;
parameter integer SATA_MAX_INIT = 21;
parameter integer SATA_MAX_WAKE = 7;
parameter integer SATA_MIN_BURST = 4;
parameter integer SATA_MIN_INIT = 12;
parameter integer SATA_MIN_WAKE = 4;
parameter SATA_PLL_CFG = "VCO_3000MHZ";
parameter SHOW_REALIGN_COMMA = "TRUE";
parameter SIM_RECEIVER_DETECT_PASS = "TRUE";
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X";
parameter SIM_VERSION = "1.0";
parameter [14:0] TERM_RCAL_CFG = 15'b100001000010000;
parameter [2:0] TERM_RCAL_OVRD = 3'b000;
parameter [7:0] TRANS_TIME_RATE = 8'h0E;
parameter [31:0] TST_RSV = 32'h00000000;
parameter TXBUF_EN = "TRUE";
parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE";
parameter [15:0] TXDLY_CFG = 16'h0010;
parameter [8:0] TXDLY_LCFG = 9'h020;
parameter [15:0] TXDLY_TAP_CFG = 16'h0000;
parameter TXGEARBOX_EN = "FALSE";
parameter [0:0] TXOOB_CFG = 1'b0;
parameter integer TXOUT_DIV = 2;
parameter [4:0] TXPCSRESET_TIME = 5'b00001;
parameter [23:0] TXPHDLY_CFG = 24'h084000;
parameter [15:0] TXPH_CFG = 16'h0400;
parameter [4:0] TXPH_MONITOR_SEL = 5'b00000;
parameter [1:0] TXPI_CFG0 = 2'b00;
parameter [1:0] TXPI_CFG1 = 2'b00;
parameter [1:0] TXPI_CFG2 = 2'b00;
parameter [0:0] TXPI_CFG3 = 1'b0;
parameter [0:0] TXPI_CFG4 = 1'b0;
parameter [2:0] TXPI_CFG5 = 3'b000;
parameter [0:0] TXPI_GREY_SEL = 1'b0;
parameter [0:0] TXPI_INVSTROBE_SEL = 1'b0;
parameter TXPI_PPMCLK_SEL = "TXUSRCLK2";
parameter [7:0] TXPI_PPM_CFG = 8'b00000000;
parameter [2:0] TXPI_SYNFREQ_PPM = 3'b000;
parameter [4:0] TXPMARESET_TIME = 5'b00001;
parameter [0:0] TXSYNC_MULTILANE = 1'b0;
parameter [0:0] TXSYNC_OVRD = 1'b0;
parameter [0:0] TXSYNC_SKIP_DA = 1'b0;
parameter integer TX_CLK25_DIV = 7;
parameter [0:0] TX_CLKMUX_EN = 1'b1;
parameter integer TX_DATA_WIDTH = 20;
parameter [5:0] TX_DEEMPH0 = 6'b000000;
parameter [5:0] TX_DEEMPH1 = 6'b000000;
parameter TX_DRIVE_MODE = "DIRECT";
parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110;
parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100;
parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE";
parameter [0:0] TX_MAINCURSOR_SEL = 1'b0;
parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110;
parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001;
parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101;
parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010;
parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110;
parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100;
parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010;
parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000;
parameter [0:0] TX_PREDRIVER_MODE = 1'b0;
parameter [13:0] TX_RXDETECT_CFG = 14'h1832;
parameter [2:0] TX_RXDETECT_REF = 3'b100;
parameter TX_XCLK_SEL = "TXUSR";
parameter [0:0] UCODEER_CLR = 1'b0;
parameter [0:0] USE_PCS_CLK_PHASE_SEL = 1'b0;
output DRPRDY;
output EYESCANDATAERROR;
output GTPTXN;
output GTPTXP;
output PHYSTATUS;
output PMARSVDOUT0;
output PMARSVDOUT1;
output RXBYTEISALIGNED;
output RXBYTEREALIGN;
output RXCDRLOCK;
output RXCHANBONDSEQ;
output RXCHANISALIGNED;
output RXCHANREALIGN;
output RXCOMINITDET;
output RXCOMMADET;
output RXCOMSASDET;
output RXCOMWAKEDET;
output RXDLYSRESETDONE;
output RXELECIDLE;
output RXHEADERVALID;
output RXOSINTDONE;
output RXOSINTSTARTED;
output RXOSINTSTROBEDONE;
output RXOSINTSTROBESTARTED;
output RXOUTCLK;
output RXOUTCLKFABRIC;
output RXOUTCLKPCS;
output RXPHALIGNDONE;
output RXPMARESETDONE;
output RXPRBSERR;
output RXRATEDONE;
output RXRESETDONE;
output RXSYNCDONE;
output RXSYNCOUT;
output RXVALID;
output TXCOMFINISH;
output TXDLYSRESETDONE;
output TXGEARBOXREADY;
output TXOUTCLK;
output TXOUTCLKFABRIC;
output TXOUTCLKPCS;
output TXPHALIGNDONE;
output TXPHINITDONE;
output TXPMARESETDONE;
output TXRATEDONE;
output TXRESETDONE;
output TXSYNCDONE;
output TXSYNCOUT;
output [14:0] DMONITOROUT;
output [15:0] DRPDO;
output [15:0] PCSRSVDOUT;
output [1:0] RXCLKCORCNT;
output [1:0] RXDATAVALID;
output [1:0] RXSTARTOFSEQ;
output [1:0] TXBUFSTATUS;
output [2:0] RXBUFSTATUS;
output [2:0] RXHEADER;
output [2:0] RXSTATUS;
output [31:0] RXDATA;
output [3:0] RXCHARISCOMMA;
output [3:0] RXCHARISK;
output [3:0] RXCHBONDO;
output [3:0] RXDISPERR;
output [3:0] RXNOTINTABLE;
output [4:0] RXPHMONITOR;
output [4:0] RXPHSLIPMONITOR;
input CFGRESET;
(* invertible_pin = "IS_CLKRSVD0_INVERTED" *)
input CLKRSVD0;
(* invertible_pin = "IS_CLKRSVD1_INVERTED" *)
input CLKRSVD1;
input DMONFIFORESET;
(* invertible_pin = "IS_DMONITORCLK_INVERTED" *)
input DMONITORCLK;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
input EYESCANMODE;
input EYESCANRESET;
input EYESCANTRIGGER;
input GTPRXN;
input GTPRXP;
input GTRESETSEL;
input GTRXRESET;
input GTTXRESET;
input PLL0CLK;
input PLL0REFCLK;
input PLL1CLK;
input PLL1REFCLK;
input PMARSVDIN0;
input PMARSVDIN1;
input PMARSVDIN2;
input PMARSVDIN3;
input PMARSVDIN4;
input RESETOVRD;
input RX8B10BEN;
input RXBUFRESET;
input RXCDRFREQRESET;
input RXCDRHOLD;
input RXCDROVRDEN;
input RXCDRRESET;
input RXCDRRESETRSV;
input RXCHBONDEN;
input RXCHBONDMASTER;
input RXCHBONDSLAVE;
input RXCOMMADETEN;
input RXDDIEN;
input RXDFEXYDEN;
input RXDLYBYPASS;
input RXDLYEN;
input RXDLYOVRDEN;
input RXDLYSRESET;
input RXGEARBOXSLIP;
input RXLPMHFHOLD;
input RXLPMHFOVRDEN;
input RXLPMLFHOLD;
input RXLPMLFOVRDEN;
input RXLPMOSINTNTRLEN;
input RXLPMRESET;
input RXMCOMMAALIGNEN;
input RXOOBRESET;
input RXOSCALRESET;
input RXOSHOLD;
input RXOSINTEN;
input RXOSINTHOLD;
input RXOSINTNTRLEN;
input RXOSINTOVRDEN;
input RXOSINTPD;
input RXOSINTSTROBE;
input RXOSINTTESTOVRDEN;
input RXOSOVRDEN;
input RXPCOMMAALIGNEN;
input RXPCSRESET;
input RXPHALIGN;
input RXPHALIGNEN;
input RXPHDLYPD;
input RXPHDLYRESET;
input RXPHOVRDEN;
input RXPMARESET;
input RXPOLARITY;
input RXPRBSCNTRESET;
input RXRATEMODE;
input RXSLIDE;
input RXSYNCALLIN;
input RXSYNCIN;
input RXSYNCMODE;
input RXUSERRDY;
(* invertible_pin = "IS_RXUSRCLK2_INVERTED" *)
input RXUSRCLK2;
(* invertible_pin = "IS_RXUSRCLK_INVERTED" *)
input RXUSRCLK;
input SETERRSTATUS;
(* invertible_pin = "IS_SIGVALIDCLK_INVERTED" *)
input SIGVALIDCLK;
input TX8B10BEN;
input TXCOMINIT;
input TXCOMSAS;
input TXCOMWAKE;
input TXDEEMPH;
input TXDETECTRX;
input TXDIFFPD;
input TXDLYBYPASS;
input TXDLYEN;
input TXDLYHOLD;
input TXDLYOVRDEN;
input TXDLYSRESET;
input TXDLYUPDOWN;
input TXELECIDLE;
input TXINHIBIT;
input TXPCSRESET;
input TXPDELECIDLEMODE;
input TXPHALIGN;
input TXPHALIGNEN;
input TXPHDLYPD;
input TXPHDLYRESET;
(* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *)
input TXPHDLYTSTCLK;
input TXPHINIT;
input TXPHOVRDEN;
input TXPIPPMEN;
input TXPIPPMOVRDEN;
input TXPIPPMPD;
input TXPIPPMSEL;
input TXPISOPD;
input TXPMARESET;
input TXPOLARITY;
input TXPOSTCURSORINV;
input TXPRBSFORCEERR;
input TXPRECURSORINV;
input TXRATEMODE;
input TXSTARTSEQ;
input TXSWING;
input TXSYNCALLIN;
input TXSYNCIN;
input TXSYNCMODE;
input TXUSERRDY;
(* invertible_pin = "IS_TXUSRCLK2_INVERTED" *)
input TXUSRCLK2;
(* invertible_pin = "IS_TXUSRCLK_INVERTED" *)
input TXUSRCLK;
input [13:0] RXADAPTSELTEST;
input [15:0] DRPDI;
input [15:0] GTRSVD;
input [15:0] PCSRSVDIN;
input [19:0] TSTIN;
input [1:0] RXELECIDLEMODE;
input [1:0] RXPD;
input [1:0] RXSYSCLKSEL;
input [1:0] TXPD;
input [1:0] TXSYSCLKSEL;
input [2:0] LOOPBACK;
input [2:0] RXCHBONDLEVEL;
input [2:0] RXOUTCLKSEL;
input [2:0] RXPRBSSEL;
input [2:0] RXRATE;
input [2:0] TXBUFDIFFCTRL;
input [2:0] TXHEADER;
input [2:0] TXMARGIN;
input [2:0] TXOUTCLKSEL;
input [2:0] TXPRBSSEL;
input [2:0] TXRATE;
input [31:0] TXDATA;
input [3:0] RXCHBONDI;
input [3:0] RXOSINTCFG;
input [3:0] RXOSINTID0;
input [3:0] TX8B10BBYPASS;
input [3:0] TXCHARDISPMODE;
input [3:0] TXCHARDISPVAL;
input [3:0] TXCHARISK;
input [3:0] TXDIFFCTRL;
input [4:0] TXPIPPMSTEPSIZE;
input [4:0] TXPOSTCURSOR;
input [4:0] TXPRECURSOR;
input [6:0] TXMAINCURSOR;
input [6:0] TXSEQUENCE;
input [8:0] DRPADDR;
endmodule
module GTPE2_COMMON (...);
parameter [63:0] BIAS_CFG = 64'h0000000000000000;
parameter [31:0] COMMON_CFG = 32'h00000000;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK0_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK1_INVERTED = 1'b0;
parameter [0:0] IS_PLL0LOCKDETCLK_INVERTED = 1'b0;
parameter [0:0] IS_PLL1LOCKDETCLK_INVERTED = 1'b0;
parameter [26:0] PLL0_CFG = 27'h01F03DC;
parameter [0:0] PLL0_DMON_CFG = 1'b0;
parameter integer PLL0_FBDIV = 4;
parameter integer PLL0_FBDIV_45 = 5;
parameter [23:0] PLL0_INIT_CFG = 24'h00001E;
parameter [8:0] PLL0_LOCK_CFG = 9'h1E8;
parameter integer PLL0_REFCLK_DIV = 1;
parameter [26:0] PLL1_CFG = 27'h01F03DC;
parameter [0:0] PLL1_DMON_CFG = 1'b0;
parameter integer PLL1_FBDIV = 4;
parameter integer PLL1_FBDIV_45 = 5;
parameter [23:0] PLL1_INIT_CFG = 24'h00001E;
parameter [8:0] PLL1_LOCK_CFG = 9'h1E8;
parameter integer PLL1_REFCLK_DIV = 1;
parameter [7:0] PLL_CLKOUT_CFG = 8'b00000000;
parameter [15:0] RSVD_ATTR0 = 16'h0000;
parameter [15:0] RSVD_ATTR1 = 16'h0000;
parameter [2:0] SIM_PLL0REFCLK_SEL = 3'b001;
parameter [2:0] SIM_PLL1REFCLK_SEL = 3'b001;
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_VERSION = "1.0";
output DRPRDY;
output PLL0FBCLKLOST;
output PLL0LOCK;
output PLL0OUTCLK;
output PLL0OUTREFCLK;
output PLL0REFCLKLOST;
output PLL1FBCLKLOST;
output PLL1LOCK;
output PLL1OUTCLK;
output PLL1OUTREFCLK;
output PLL1REFCLKLOST;
output REFCLKOUTMONITOR0;
output REFCLKOUTMONITOR1;
output [15:0] DRPDO;
output [15:0] PMARSVDOUT;
output [7:0] DMONITOROUT;
input BGBYPASSB;
input BGMONITORENB;
input BGPDB;
input BGRCALOVRDENB;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
input GTEASTREFCLK0;
input GTEASTREFCLK1;
(* invertible_pin = "IS_GTGREFCLK0_INVERTED" *)
input GTGREFCLK0;
(* invertible_pin = "IS_GTGREFCLK1_INVERTED" *)
input GTGREFCLK1;
input GTREFCLK0;
input GTREFCLK1;
input GTWESTREFCLK0;
input GTWESTREFCLK1;
(* invertible_pin = "IS_PLL0LOCKDETCLK_INVERTED" *)
input PLL0LOCKDETCLK;
input PLL0LOCKEN;
input PLL0PD;
input PLL0RESET;
(* invertible_pin = "IS_PLL1LOCKDETCLK_INVERTED" *)
input PLL1LOCKDETCLK;
input PLL1LOCKEN;
input PLL1PD;
input PLL1RESET;
input RCALENB;
input [15:0] DRPDI;
input [15:0] PLLRSVD1;
input [2:0] PLL0REFCLKSEL;
input [2:0] PLL1REFCLKSEL;
input [4:0] BGRCALOVRD;
input [4:0] PLLRSVD2;
input [7:0] DRPADDR;
input [7:0] PMARSVD;
endmodule
module GTXE2_CHANNEL (...);
parameter ALIGN_COMMA_DOUBLE = "FALSE";
parameter [9:0] ALIGN_COMMA_ENABLE = 10'b0001111111;
parameter integer ALIGN_COMMA_WORD = 1;
parameter ALIGN_MCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_MCOMMA_VALUE = 10'b1010000011;
parameter ALIGN_PCOMMA_DET = "TRUE";
parameter [9:0] ALIGN_PCOMMA_VALUE = 10'b0101111100;
parameter CBCC_DATA_SOURCE_SEL = "DECODED";
parameter CHAN_BOND_KEEP_ALIGN = "FALSE";
parameter integer CHAN_BOND_MAX_SKEW = 7;
parameter [9:0] CHAN_BOND_SEQ_1_1 = 10'b0101111100;
parameter [9:0] CHAN_BOND_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CHAN_BOND_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CHAN_BOND_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CHAN_BOND_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CHAN_BOND_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CHAN_BOND_SEQ_2_ENABLE = 4'b1111;
parameter CHAN_BOND_SEQ_2_USE = "FALSE";
parameter integer CHAN_BOND_SEQ_LEN = 1;
parameter CLK_CORRECT_USE = "TRUE";
parameter CLK_COR_KEEP_IDLE = "FALSE";
parameter integer CLK_COR_MAX_LAT = 20;
parameter integer CLK_COR_MIN_LAT = 18;
parameter CLK_COR_PRECEDENCE = "TRUE";
parameter integer CLK_COR_REPEAT_WAIT = 0;
parameter [9:0] CLK_COR_SEQ_1_1 = 10'b0100011100;
parameter [9:0] CLK_COR_SEQ_1_2 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_3 = 10'b0000000000;
parameter [9:0] CLK_COR_SEQ_1_4 = 10'b0000000000;
parameter [3:0] CLK_COR_SEQ_1_ENABLE = 4'b1111;
parameter [9:0] CLK_COR_SEQ_2_1 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_2 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_3 = 10'b0100000000;
parameter [9:0] CLK_COR_SEQ_2_4 = 10'b0100000000;
parameter [3:0] CLK_COR_SEQ_2_ENABLE = 4'b1111;
parameter CLK_COR_SEQ_2_USE = "FALSE";
parameter integer CLK_COR_SEQ_LEN = 1;
parameter [23:0] CPLL_CFG = 24'hB007D8;
parameter integer CPLL_FBDIV = 4;
parameter integer CPLL_FBDIV_45 = 5;
parameter [23:0] CPLL_INIT_CFG = 24'h00001E;
parameter [15:0] CPLL_LOCK_CFG = 16'h01E8;
parameter integer CPLL_REFCLK_DIV = 1;
parameter DEC_MCOMMA_DETECT = "TRUE";
parameter DEC_PCOMMA_DETECT = "TRUE";
parameter DEC_VALID_COMMA_ONLY = "TRUE";
parameter [23:0] DMONITOR_CFG = 24'h000A00;
parameter [5:0] ES_CONTROL = 6'b000000;
parameter ES_ERRDET_EN = "FALSE";
parameter ES_EYE_SCAN_EN = "FALSE";
parameter [11:0] ES_HORZ_OFFSET = 12'h000;
parameter [9:0] ES_PMA_CFG = 10'b0000000000;
parameter [4:0] ES_PRESCALE = 5'b00000;
parameter [79:0] ES_QUALIFIER = 80'h00000000000000000000;
parameter [79:0] ES_QUAL_MASK = 80'h00000000000000000000;
parameter [79:0] ES_SDATA_MASK = 80'h00000000000000000000;
parameter [8:0] ES_VERT_OFFSET = 9'b000000000;
parameter [3:0] FTS_DESKEW_SEQ_ENABLE = 4'b1111;
parameter [3:0] FTS_LANE_DESKEW_CFG = 4'b1111;
parameter FTS_LANE_DESKEW_EN = "FALSE";
parameter [2:0] GEARBOX_MODE = 3'b000;
parameter [0:0] IS_CPLLLOCKDETCLK_INVERTED = 1'b0;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_RXUSRCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXPHDLYTSTCLK_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK2_INVERTED = 1'b0;
parameter [0:0] IS_TXUSRCLK_INVERTED = 1'b0;
parameter [1:0] OUTREFCLK_SEL_INV = 2'b11;
parameter PCS_PCIE_EN = "FALSE";
parameter [47:0] PCS_RSVD_ATTR = 48'h000000000000;
parameter [11:0] PD_TRANS_TIME_FROM_P2 = 12'h03C;
parameter [7:0] PD_TRANS_TIME_NONE_P2 = 8'h19;
parameter [7:0] PD_TRANS_TIME_TO_P2 = 8'h64;
parameter [31:0] PMA_RSV = 32'h00000000;
parameter [15:0] PMA_RSV2 = 16'h2050;
parameter [1:0] PMA_RSV3 = 2'b00;
parameter [31:0] PMA_RSV4 = 32'h00000000;
parameter [4:0] RXBUFRESET_TIME = 5'b00001;
parameter RXBUF_ADDR_MODE = "FULL";
parameter [3:0] RXBUF_EIDLE_HI_CNT = 4'b1000;
parameter [3:0] RXBUF_EIDLE_LO_CNT = 4'b0000;
parameter RXBUF_EN = "TRUE";
parameter RXBUF_RESET_ON_CB_CHANGE = "TRUE";
parameter RXBUF_RESET_ON_COMMAALIGN = "FALSE";
parameter RXBUF_RESET_ON_EIDLE = "FALSE";
parameter RXBUF_RESET_ON_RATE_CHANGE = "TRUE";
parameter integer RXBUF_THRESH_OVFLW = 61;
parameter RXBUF_THRESH_OVRD = "FALSE";
parameter integer RXBUF_THRESH_UNDFLW = 4;
parameter [4:0] RXCDRFREQRESET_TIME = 5'b00001;
parameter [4:0] RXCDRPHRESET_TIME = 5'b00001;
parameter [71:0] RXCDR_CFG = 72'h0B000023FF20400020;
parameter [0:0] RXCDR_FR_RESET_ON_EIDLE = 1'b0;
parameter [0:0] RXCDR_HOLD_DURING_EIDLE = 1'b0;
parameter [5:0] RXCDR_LOCK_CFG = 6'b010101;
parameter [0:0] RXCDR_PH_RESET_ON_EIDLE = 1'b0;
parameter [6:0] RXDFELPMRESET_TIME = 7'b0001111;
parameter [15:0] RXDLY_CFG = 16'h001F;
parameter [8:0] RXDLY_LCFG = 9'h030;
parameter [15:0] RXDLY_TAP_CFG = 16'h0000;
parameter RXGEARBOX_EN = "FALSE";
parameter [4:0] RXISCANRESET_TIME = 5'b00001;
parameter [13:0] RXLPM_HF_CFG = 14'b00000011110000;
parameter [13:0] RXLPM_LF_CFG = 14'b00000011110000;
parameter [6:0] RXOOB_CFG = 7'b0000110;
parameter integer RXOUT_DIV = 2;
parameter [4:0] RXPCSRESET_TIME = 5'b00001;
parameter [23:0] RXPHDLY_CFG = 24'h084020;
parameter [23:0] RXPH_CFG = 24'h000000;
parameter [4:0] RXPH_MONITOR_SEL = 5'b00000;
parameter [4:0] RXPMARESET_TIME = 5'b00011;
parameter [0:0] RXPRBS_ERR_LOOPBACK = 1'b0;
parameter integer RXSLIDE_AUTO_WAIT = 7;
parameter RXSLIDE_MODE = "OFF";
parameter [11:0] RX_BIAS_CFG = 12'b000000000000;
parameter [5:0] RX_BUFFER_CFG = 6'b000000;
parameter integer RX_CLK25_DIV = 7;
parameter [0:0] RX_CLKMUX_PD = 1'b1;
parameter [1:0] RX_CM_SEL = 2'b11;
parameter [2:0] RX_CM_TRIM = 3'b100;
parameter integer RX_DATA_WIDTH = 20;
parameter [5:0] RX_DDI_SEL = 6'b000000;
parameter [11:0] RX_DEBUG_CFG = 12'b000000000000;
parameter RX_DEFER_RESET_BUF_EN = "TRUE";
parameter [22:0] RX_DFE_GAIN_CFG = 23'h180E0F;
parameter [11:0] RX_DFE_H2_CFG = 12'b000111100000;
parameter [11:0] RX_DFE_H3_CFG = 12'b000111100000;
parameter [10:0] RX_DFE_H4_CFG = 11'b00011110000;
parameter [10:0] RX_DFE_H5_CFG = 11'b00011110000;
parameter [12:0] RX_DFE_KL_CFG = 13'b0001111110000;
parameter [31:0] RX_DFE_KL_CFG2 = 32'h3008E56A;
parameter [15:0] RX_DFE_LPM_CFG = 16'h0904;
parameter [0:0] RX_DFE_LPM_HOLD_DURING_EIDLE = 1'b0;
parameter [16:0] RX_DFE_UT_CFG = 17'b00111111000000000;
parameter [16:0] RX_DFE_VP_CFG = 17'b00011111100000000;
parameter [12:0] RX_DFE_XYD_CFG = 13'b0000000010000;
parameter RX_DISPERR_SEQ_MATCH = "TRUE";
parameter integer RX_INT_DATAWIDTH = 0;
parameter [12:0] RX_OS_CFG = 13'b0001111110000;
parameter integer RX_SIG_VALID_DLY = 10;
parameter RX_XCLK_SEL = "RXREC";
parameter integer SAS_MAX_COM = 64;
parameter integer SAS_MIN_COM = 36;
parameter [3:0] SATA_BURST_SEQ_LEN = 4'b1111;
parameter [2:0] SATA_BURST_VAL = 3'b100;
parameter SATA_CPLL_CFG = "VCO_3000MHZ";
parameter [2:0] SATA_EIDLE_VAL = 3'b100;
parameter integer SATA_MAX_BURST = 8;
parameter integer SATA_MAX_INIT = 21;
parameter integer SATA_MAX_WAKE = 7;
parameter integer SATA_MIN_BURST = 4;
parameter integer SATA_MIN_INIT = 12;
parameter integer SATA_MIN_WAKE = 4;
parameter SHOW_REALIGN_COMMA = "TRUE";
parameter [2:0] SIM_CPLLREFCLK_SEL = 3'b001;
parameter SIM_RECEIVER_DETECT_PASS = "TRUE";
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_TX_EIDLE_DRIVE_LEVEL = "X";
parameter SIM_VERSION = "4.0";
parameter [4:0] TERM_RCAL_CFG = 5'b10000;
parameter [0:0] TERM_RCAL_OVRD = 1'b0;
parameter [7:0] TRANS_TIME_RATE = 8'h0E;
parameter [31:0] TST_RSV = 32'h00000000;
parameter TXBUF_EN = "TRUE";
parameter TXBUF_RESET_ON_RATE_CHANGE = "FALSE";
parameter [15:0] TXDLY_CFG = 16'h001F;
parameter [8:0] TXDLY_LCFG = 9'h030;
parameter [15:0] TXDLY_TAP_CFG = 16'h0000;
parameter TXGEARBOX_EN = "FALSE";
parameter integer TXOUT_DIV = 2;
parameter [4:0] TXPCSRESET_TIME = 5'b00001;
parameter [23:0] TXPHDLY_CFG = 24'h084020;
parameter [15:0] TXPH_CFG = 16'h0780;
parameter [4:0] TXPH_MONITOR_SEL = 5'b00000;
parameter [4:0] TXPMARESET_TIME = 5'b00001;
parameter integer TX_CLK25_DIV = 7;
parameter [0:0] TX_CLKMUX_PD = 1'b1;
parameter integer TX_DATA_WIDTH = 20;
parameter [4:0] TX_DEEMPH0 = 5'b00000;
parameter [4:0] TX_DEEMPH1 = 5'b00000;
parameter TX_DRIVE_MODE = "DIRECT";
parameter [2:0] TX_EIDLE_ASSERT_DELAY = 3'b110;
parameter [2:0] TX_EIDLE_DEASSERT_DELAY = 3'b100;
parameter integer TX_INT_DATAWIDTH = 0;
parameter TX_LOOPBACK_DRIVE_HIZ = "FALSE";
parameter [0:0] TX_MAINCURSOR_SEL = 1'b0;
parameter [6:0] TX_MARGIN_FULL_0 = 7'b1001110;
parameter [6:0] TX_MARGIN_FULL_1 = 7'b1001001;
parameter [6:0] TX_MARGIN_FULL_2 = 7'b1000101;
parameter [6:0] TX_MARGIN_FULL_3 = 7'b1000010;
parameter [6:0] TX_MARGIN_FULL_4 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_0 = 7'b1000110;
parameter [6:0] TX_MARGIN_LOW_1 = 7'b1000100;
parameter [6:0] TX_MARGIN_LOW_2 = 7'b1000010;
parameter [6:0] TX_MARGIN_LOW_3 = 7'b1000000;
parameter [6:0] TX_MARGIN_LOW_4 = 7'b1000000;
parameter [0:0] TX_PREDRIVER_MODE = 1'b0;
parameter [0:0] TX_QPI_STATUS_EN = 1'b0;
parameter [13:0] TX_RXDETECT_CFG = 14'h1832;
parameter [2:0] TX_RXDETECT_REF = 3'b100;
parameter TX_XCLK_SEL = "TXUSR";
parameter [0:0] UCODEER_CLR = 1'b0;
output CPLLFBCLKLOST;
output CPLLLOCK;
output CPLLREFCLKLOST;
output DRPRDY;
output EYESCANDATAERROR;
output GTREFCLKMONITOR;
output GTXTXN;
output GTXTXP;
output PHYSTATUS;
output RXBYTEISALIGNED;
output RXBYTEREALIGN;
output RXCDRLOCK;
output RXCHANBONDSEQ;
output RXCHANISALIGNED;
output RXCHANREALIGN;
output RXCOMINITDET;
output RXCOMMADET;
output RXCOMSASDET;
output RXCOMWAKEDET;
output RXDATAVALID;
output RXDLYSRESETDONE;
output RXELECIDLE;
output RXHEADERVALID;
output RXOUTCLK;
output RXOUTCLKFABRIC;
output RXOUTCLKPCS;
output RXPHALIGNDONE;
output RXPRBSERR;
output RXQPISENN;
output RXQPISENP;
output RXRATEDONE;
output RXRESETDONE;
output RXSTARTOFSEQ;
output RXVALID;
output TXCOMFINISH;
output TXDLYSRESETDONE;
output TXGEARBOXREADY;
output TXOUTCLK;
output TXOUTCLKFABRIC;
output TXOUTCLKPCS;
output TXPHALIGNDONE;
output TXPHINITDONE;
output TXQPISENN;
output TXQPISENP;
output TXRATEDONE;
output TXRESETDONE;
output [15:0] DRPDO;
output [15:0] PCSRSVDOUT;
output [1:0] RXCLKCORCNT;
output [1:0] TXBUFSTATUS;
output [2:0] RXBUFSTATUS;
output [2:0] RXHEADER;
output [2:0] RXSTATUS;
output [4:0] RXCHBONDO;
output [4:0] RXPHMONITOR;
output [4:0] RXPHSLIPMONITOR;
output [63:0] RXDATA;
output [6:0] RXMONITOROUT;
output [7:0] DMONITOROUT;
output [7:0] RXCHARISCOMMA;
output [7:0] RXCHARISK;
output [7:0] RXDISPERR;
output [7:0] RXNOTINTABLE;
output [9:0] TSTOUT;
input CFGRESET;
(* invertible_pin = "IS_CPLLLOCKDETCLK_INVERTED" *)
input CPLLLOCKDETCLK;
input CPLLLOCKEN;
input CPLLPD;
input CPLLRESET;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
input EYESCANMODE;
input EYESCANRESET;
input EYESCANTRIGGER;
(* invertible_pin = "IS_GTGREFCLK_INVERTED" *)
input GTGREFCLK;
input GTNORTHREFCLK0;
input GTNORTHREFCLK1;
input GTREFCLK0;
input GTREFCLK1;
input GTRESETSEL;
input GTRXRESET;
input GTSOUTHREFCLK0;
input GTSOUTHREFCLK1;
input GTTXRESET;
input GTXRXN;
input GTXRXP;
input QPLLCLK;
input QPLLREFCLK;
input RESETOVRD;
input RX8B10BEN;
input RXBUFRESET;
input RXCDRFREQRESET;
input RXCDRHOLD;
input RXCDROVRDEN;
input RXCDRRESET;
input RXCDRRESETRSV;
input RXCHBONDEN;
input RXCHBONDMASTER;
input RXCHBONDSLAVE;
input RXCOMMADETEN;
input RXDDIEN;
input RXDFEAGCHOLD;
input RXDFEAGCOVRDEN;
input RXDFECM1EN;
input RXDFELFHOLD;
input RXDFELFOVRDEN;
input RXDFELPMRESET;
input RXDFETAP2HOLD;
input RXDFETAP2OVRDEN;
input RXDFETAP3HOLD;
input RXDFETAP3OVRDEN;
input RXDFETAP4HOLD;
input RXDFETAP4OVRDEN;
input RXDFETAP5HOLD;
input RXDFETAP5OVRDEN;
input RXDFEUTHOLD;
input RXDFEUTOVRDEN;
input RXDFEVPHOLD;
input RXDFEVPOVRDEN;
input RXDFEVSEN;
input RXDFEXYDEN;
input RXDFEXYDHOLD;
input RXDFEXYDOVRDEN;
input RXDLYBYPASS;
input RXDLYEN;
input RXDLYOVRDEN;
input RXDLYSRESET;
input RXGEARBOXSLIP;
input RXLPMEN;
input RXLPMHFHOLD;
input RXLPMHFOVRDEN;
input RXLPMLFHOLD;
input RXLPMLFKLOVRDEN;
input RXMCOMMAALIGNEN;
input RXOOBRESET;
input RXOSHOLD;
input RXOSOVRDEN;
input RXPCOMMAALIGNEN;
input RXPCSRESET;
input RXPHALIGN;
input RXPHALIGNEN;
input RXPHDLYPD;
input RXPHDLYRESET;
input RXPHOVRDEN;
input RXPMARESET;
input RXPOLARITY;
input RXPRBSCNTRESET;
input RXQPIEN;
input RXSLIDE;
input RXUSERRDY;
(* invertible_pin = "IS_RXUSRCLK2_INVERTED" *)
input RXUSRCLK2;
(* invertible_pin = "IS_RXUSRCLK_INVERTED" *)
input RXUSRCLK;
input SETERRSTATUS;
input TX8B10BEN;
input TXCOMINIT;
input TXCOMSAS;
input TXCOMWAKE;
input TXDEEMPH;
input TXDETECTRX;
input TXDIFFPD;
input TXDLYBYPASS;
input TXDLYEN;
input TXDLYHOLD;
input TXDLYOVRDEN;
input TXDLYSRESET;
input TXDLYUPDOWN;
input TXELECIDLE;
input TXINHIBIT;
input TXPCSRESET;
input TXPDELECIDLEMODE;
input TXPHALIGN;
input TXPHALIGNEN;
input TXPHDLYPD;
input TXPHDLYRESET;
(* invertible_pin = "IS_TXPHDLYTSTCLK_INVERTED" *)
input TXPHDLYTSTCLK;
input TXPHINIT;
input TXPHOVRDEN;
input TXPISOPD;
input TXPMARESET;
input TXPOLARITY;
input TXPOSTCURSORINV;
input TXPRBSFORCEERR;
input TXPRECURSORINV;
input TXQPIBIASEN;
input TXQPISTRONGPDOWN;
input TXQPIWEAKPUP;
input TXSTARTSEQ;
input TXSWING;
input TXUSERRDY;
(* invertible_pin = "IS_TXUSRCLK2_INVERTED" *)
input TXUSRCLK2;
(* invertible_pin = "IS_TXUSRCLK_INVERTED" *)
input TXUSRCLK;
input [15:0] DRPDI;
input [15:0] GTRSVD;
input [15:0] PCSRSVDIN;
input [19:0] TSTIN;
input [1:0] RXELECIDLEMODE;
input [1:0] RXMONITORSEL;
input [1:0] RXPD;
input [1:0] RXSYSCLKSEL;
input [1:0] TXPD;
input [1:0] TXSYSCLKSEL;
input [2:0] CPLLREFCLKSEL;
input [2:0] LOOPBACK;
input [2:0] RXCHBONDLEVEL;
input [2:0] RXOUTCLKSEL;
input [2:0] RXPRBSSEL;
input [2:0] RXRATE;
input [2:0] TXBUFDIFFCTRL;
input [2:0] TXHEADER;
input [2:0] TXMARGIN;
input [2:0] TXOUTCLKSEL;
input [2:0] TXPRBSSEL;
input [2:0] TXRATE;
input [3:0] CLKRSVD;
input [3:0] TXDIFFCTRL;
input [4:0] PCSRSVDIN2;
input [4:0] PMARSVDIN2;
input [4:0] PMARSVDIN;
input [4:0] RXCHBONDI;
input [4:0] TXPOSTCURSOR;
input [4:0] TXPRECURSOR;
input [63:0] TXDATA;
input [6:0] TXMAINCURSOR;
input [6:0] TXSEQUENCE;
input [7:0] TX8B10BBYPASS;
input [7:0] TXCHARDISPMODE;
input [7:0] TXCHARDISPVAL;
input [7:0] TXCHARISK;
input [8:0] DRPADDR;
endmodule
module GTXE2_COMMON (...);
parameter [63:0] BIAS_CFG = 64'h0000040000001000;
parameter [31:0] COMMON_CFG = 32'h00000000;
parameter [0:0] IS_DRPCLK_INVERTED = 1'b0;
parameter [0:0] IS_GTGREFCLK_INVERTED = 1'b0;
parameter [0:0] IS_QPLLLOCKDETCLK_INVERTED = 1'b0;
parameter [26:0] QPLL_CFG = 27'h0680181;
parameter [3:0] QPLL_CLKOUT_CFG = 4'b0000;
parameter [5:0] QPLL_COARSE_FREQ_OVRD = 6'b010000;
parameter [0:0] QPLL_COARSE_FREQ_OVRD_EN = 1'b0;
parameter [9:0] QPLL_CP = 10'b0000011111;
parameter [0:0] QPLL_CP_MONITOR_EN = 1'b0;
parameter [0:0] QPLL_DMONITOR_SEL = 1'b0;
parameter [9:0] QPLL_FBDIV = 10'b0000000000;
parameter [0:0] QPLL_FBDIV_MONITOR_EN = 1'b0;
parameter [0:0] QPLL_FBDIV_RATIO = 1'b0;
parameter [23:0] QPLL_INIT_CFG = 24'h000006;
parameter [15:0] QPLL_LOCK_CFG = 16'h21E8;
parameter [3:0] QPLL_LPF = 4'b1111;
parameter integer QPLL_REFCLK_DIV = 2;
parameter [2:0] SIM_QPLLREFCLK_SEL = 3'b001;
parameter SIM_RESET_SPEEDUP = "TRUE";
parameter SIM_VERSION = "4.0";
output DRPRDY;
output QPLLFBCLKLOST;
output QPLLLOCK;
output QPLLOUTCLK;
output QPLLOUTREFCLK;
output QPLLREFCLKLOST;
output REFCLKOUTMONITOR;
output [15:0] DRPDO;
output [7:0] QPLLDMONITOR;
input BGBYPASSB;
input BGMONITORENB;
input BGPDB;
(* invertible_pin = "IS_DRPCLK_INVERTED" *)
input DRPCLK;
input DRPEN;
input DRPWE;
(* invertible_pin = "IS_GTGREFCLK_INVERTED" *)
input GTGREFCLK;
input GTNORTHREFCLK0;
input GTNORTHREFCLK1;
input GTREFCLK0;
input GTREFCLK1;
input GTSOUTHREFCLK0;
input GTSOUTHREFCLK1;
(* invertible_pin = "IS_QPLLLOCKDETCLK_INVERTED" *)
input QPLLLOCKDETCLK;
input QPLLLOCKEN;
input QPLLOUTRESET;
input QPLLPD;
input QPLLRESET;
input RCALENB;
input [15:0] DRPDI;
input [15:0] QPLLRSVD1;
input [2:0] QPLLREFCLKSEL;
input [4:0] BGRCALOVRD;
input [4:0] QPLLRSVD2;
input [7:0] DRPADDR;
input [7:0] PMARSVD;
endmodule
module PCIE_2_1 (...);
parameter [11:0] AER_BASE_PTR = 12'h140;
parameter AER_CAP_ECRC_CHECK_CAPABLE = "FALSE";
parameter AER_CAP_ECRC_GEN_CAPABLE = "FALSE";
parameter [15:0] AER_CAP_ID = 16'h0001;
parameter AER_CAP_MULTIHEADER = "FALSE";
parameter [11:0] AER_CAP_NEXTPTR = 12'h178;
parameter AER_CAP_ON = "FALSE";
parameter [23:0] AER_CAP_OPTIONAL_ERR_SUPPORT = 24'h000000;
parameter AER_CAP_PERMIT_ROOTERR_UPDATE = "TRUE";
parameter [3:0] AER_CAP_VERSION = 4'h2;
parameter ALLOW_X8_GEN2 = "FALSE";
parameter [31:0] BAR0 = 32'hFFFFFF00;
parameter [31:0] BAR1 = 32'hFFFF0000;
parameter [31:0] BAR2 = 32'hFFFF000C;
parameter [31:0] BAR3 = 32'hFFFFFFFF;
parameter [31:0] BAR4 = 32'h00000000;
parameter [31:0] BAR5 = 32'h00000000;
parameter [7:0] CAPABILITIES_PTR = 8'h40;
parameter [31:0] CARDBUS_CIS_POINTER = 32'h00000000;
parameter integer CFG_ECRC_ERR_CPLSTAT = 0;
parameter [23:0] CLASS_CODE = 24'h000000;
parameter CMD_INTX_IMPLEMENTED = "TRUE";
parameter CPL_TIMEOUT_DISABLE_SUPPORTED = "FALSE";
parameter [3:0] CPL_TIMEOUT_RANGES_SUPPORTED = 4'h0;
parameter [6:0] CRM_MODULE_RSTS = 7'h00;
parameter DEV_CAP2_ARI_FORWARDING_SUPPORTED = "FALSE";
parameter DEV_CAP2_ATOMICOP32_COMPLETER_SUPPORTED = "FALSE";
parameter DEV_CAP2_ATOMICOP64_COMPLETER_SUPPORTED = "FALSE";
parameter DEV_CAP2_ATOMICOP_ROUTING_SUPPORTED = "FALSE";
parameter DEV_CAP2_CAS128_COMPLETER_SUPPORTED = "FALSE";
parameter DEV_CAP2_ENDEND_TLP_PREFIX_SUPPORTED = "FALSE";
parameter DEV_CAP2_EXTENDED_FMT_FIELD_SUPPORTED = "FALSE";
parameter DEV_CAP2_LTR_MECHANISM_SUPPORTED = "FALSE";
parameter [1:0] DEV_CAP2_MAX_ENDEND_TLP_PREFIXES = 2'h0;
parameter DEV_CAP2_NO_RO_ENABLED_PRPR_PASSING = "FALSE";
parameter [1:0] DEV_CAP2_TPH_COMPLETER_SUPPORTED = 2'h0;
parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_SCALE = "TRUE";
parameter DEV_CAP_ENABLE_SLOT_PWR_LIMIT_VALUE = "TRUE";
parameter integer DEV_CAP_ENDPOINT_L0S_LATENCY = 0;
parameter integer DEV_CAP_ENDPOINT_L1_LATENCY = 0;
parameter DEV_CAP_EXT_TAG_SUPPORTED = "TRUE";
parameter DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "FALSE";
parameter integer DEV_CAP_MAX_PAYLOAD_SUPPORTED = 2;
parameter integer DEV_CAP_PHANTOM_FUNCTIONS_SUPPORT = 0;
parameter DEV_CAP_ROLE_BASED_ERROR = "TRUE";
parameter integer DEV_CAP_RSVD_14_12 = 0;
parameter integer DEV_CAP_RSVD_17_16 = 0;
parameter integer DEV_CAP_RSVD_31_29 = 0;
parameter DEV_CONTROL_AUX_POWER_SUPPORTED = "FALSE";
parameter DEV_CONTROL_EXT_TAG_DEFAULT = "FALSE";
parameter DISABLE_ASPM_L1_TIMER = "FALSE";
parameter DISABLE_BAR_FILTERING = "FALSE";
parameter DISABLE_ERR_MSG = "FALSE";
parameter DISABLE_ID_CHECK = "FALSE";
parameter DISABLE_LANE_REVERSAL = "FALSE";
parameter DISABLE_LOCKED_FILTER = "FALSE";
parameter DISABLE_PPM_FILTER = "FALSE";
parameter DISABLE_RX_POISONED_RESP = "FALSE";
parameter DISABLE_RX_TC_FILTER = "FALSE";
parameter DISABLE_SCRAMBLING = "FALSE";
parameter [7:0] DNSTREAM_LINK_NUM = 8'h00;
parameter [11:0] DSN_BASE_PTR = 12'h100;
parameter [15:0] DSN_CAP_ID = 16'h0003;
parameter [11:0] DSN_CAP_NEXTPTR = 12'h10C;
parameter DSN_CAP_ON = "TRUE";
parameter [3:0] DSN_CAP_VERSION = 4'h1;
parameter [10:0] ENABLE_MSG_ROUTE = 11'h000;
parameter ENABLE_RX_TD_ECRC_TRIM = "FALSE";
parameter ENDEND_TLP_PREFIX_FORWARDING_SUPPORTED = "FALSE";
parameter ENTER_RVRY_EI_L0 = "TRUE";
parameter EXIT_LOOPBACK_ON_EI = "TRUE";
parameter [31:0] EXPANSION_ROM = 32'hFFFFF001;
parameter [5:0] EXT_CFG_CAP_PTR = 6'h3F;
parameter [9:0] EXT_CFG_XP_CAP_PTR = 10'h3FF;
parameter [7:0] HEADER_TYPE = 8'h00;
parameter [4:0] INFER_EI = 5'h00;
parameter [7:0] INTERRUPT_PIN = 8'h01;
parameter INTERRUPT_STAT_AUTO = "TRUE";
parameter IS_SWITCH = "FALSE";
parameter [9:0] LAST_CONFIG_DWORD = 10'h3FF;
parameter LINK_CAP_ASPM_OPTIONALITY = "TRUE";
parameter integer LINK_CAP_ASPM_SUPPORT = 1;
parameter LINK_CAP_CLOCK_POWER_MANAGEMENT = "FALSE";
parameter LINK_CAP_DLL_LINK_ACTIVE_REPORTING_CAP = "FALSE";
parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7;
parameter integer LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7;
parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7;
parameter integer LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7;
parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7;
parameter integer LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7;
parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7;
parameter integer LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7;
parameter LINK_CAP_LINK_BANDWIDTH_NOTIFICATION_CAP = "FALSE";
parameter [3:0] LINK_CAP_MAX_LINK_SPEED = 4'h1;
parameter [5:0] LINK_CAP_MAX_LINK_WIDTH = 6'h08;
parameter integer LINK_CAP_RSVD_23 = 0;
parameter LINK_CAP_SURPRISE_DOWN_ERROR_CAPABLE = "FALSE";
parameter integer LINK_CONTROL_RCB = 0;
parameter LINK_CTRL2_DEEMPHASIS = "FALSE";
parameter LINK_CTRL2_HW_AUTONOMOUS_SPEED_DISABLE = "FALSE";
parameter [3:0] LINK_CTRL2_TARGET_LINK_SPEED = 4'h2;
parameter LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE";
parameter [14:0] LL_ACK_TIMEOUT = 15'h0000;
parameter LL_ACK_TIMEOUT_EN = "FALSE";
parameter integer LL_ACK_TIMEOUT_FUNC = 0;
parameter [14:0] LL_REPLAY_TIMEOUT = 15'h0000;
parameter LL_REPLAY_TIMEOUT_EN = "FALSE";
parameter integer LL_REPLAY_TIMEOUT_FUNC = 0;
parameter [5:0] LTSSM_MAX_LINK_WIDTH = 6'h01;
parameter MPS_FORCE = "FALSE";
parameter [7:0] MSIX_BASE_PTR = 8'h9C;
parameter [7:0] MSIX_CAP_ID = 8'h11;
parameter [7:0] MSIX_CAP_NEXTPTR = 8'h00;
parameter MSIX_CAP_ON = "FALSE";
parameter integer MSIX_CAP_PBA_BIR = 0;
parameter [28:0] MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] MSIX_CAP_TABLE_SIZE = 11'h000;
parameter [7:0] MSI_BASE_PTR = 8'h48;
parameter MSI_CAP_64_BIT_ADDR_CAPABLE = "TRUE";
parameter [7:0] MSI_CAP_ID = 8'h05;
parameter integer MSI_CAP_MULTIMSGCAP = 0;
parameter integer MSI_CAP_MULTIMSG_EXTENSION = 0;
parameter [7:0] MSI_CAP_NEXTPTR = 8'h60;
parameter MSI_CAP_ON = "FALSE";
parameter MSI_CAP_PER_VECTOR_MASKING_CAPABLE = "TRUE";
parameter integer N_FTS_COMCLK_GEN1 = 255;
parameter integer N_FTS_COMCLK_GEN2 = 255;
parameter integer N_FTS_GEN1 = 255;
parameter integer N_FTS_GEN2 = 255;
parameter [7:0] PCIE_BASE_PTR = 8'h60;
parameter [7:0] PCIE_CAP_CAPABILITY_ID = 8'h10;
parameter [3:0] PCIE_CAP_CAPABILITY_VERSION = 4'h2;
parameter [3:0] PCIE_CAP_DEVICE_PORT_TYPE = 4'h0;
parameter [7:0] PCIE_CAP_NEXTPTR = 8'h9C;
parameter PCIE_CAP_ON = "TRUE";
parameter integer PCIE_CAP_RSVD_15_14 = 0;
parameter PCIE_CAP_SLOT_IMPLEMENTED = "FALSE";
parameter integer PCIE_REVISION = 2;
parameter integer PL_AUTO_CONFIG = 0;
parameter PL_FAST_TRAIN = "FALSE";
parameter [14:0] PM_ASPML0S_TIMEOUT = 15'h0000;
parameter PM_ASPML0S_TIMEOUT_EN = "FALSE";
parameter integer PM_ASPML0S_TIMEOUT_FUNC = 0;
parameter PM_ASPM_FASTEXIT = "FALSE";
parameter [7:0] PM_BASE_PTR = 8'h40;
parameter integer PM_CAP_AUXCURRENT = 0;
parameter PM_CAP_D1SUPPORT = "TRUE";
parameter PM_CAP_D2SUPPORT = "TRUE";
parameter PM_CAP_DSI = "FALSE";
parameter [7:0] PM_CAP_ID = 8'h01;
parameter [7:0] PM_CAP_NEXTPTR = 8'h48;
parameter PM_CAP_ON = "TRUE";
parameter [4:0] PM_CAP_PMESUPPORT = 5'h0F;
parameter PM_CAP_PME_CLOCK = "FALSE";
parameter integer PM_CAP_RSVD_04 = 0;
parameter integer PM_CAP_VERSION = 3;
parameter PM_CSR_B2B3 = "FALSE";
parameter PM_CSR_BPCCEN = "FALSE";
parameter PM_CSR_NOSOFTRST = "TRUE";
parameter [7:0] PM_DATA0 = 8'h01;
parameter [7:0] PM_DATA1 = 8'h01;
parameter [7:0] PM_DATA2 = 8'h01;
parameter [7:0] PM_DATA3 = 8'h01;
parameter [7:0] PM_DATA4 = 8'h01;
parameter [7:0] PM_DATA5 = 8'h01;
parameter [7:0] PM_DATA6 = 8'h01;
parameter [7:0] PM_DATA7 = 8'h01;
parameter [1:0] PM_DATA_SCALE0 = 2'h1;
parameter [1:0] PM_DATA_SCALE1 = 2'h1;
parameter [1:0] PM_DATA_SCALE2 = 2'h1;
parameter [1:0] PM_DATA_SCALE3 = 2'h1;
parameter [1:0] PM_DATA_SCALE4 = 2'h1;
parameter [1:0] PM_DATA_SCALE5 = 2'h1;
parameter [1:0] PM_DATA_SCALE6 = 2'h1;
parameter [1:0] PM_DATA_SCALE7 = 2'h1;
parameter PM_MF = "FALSE";
parameter [11:0] RBAR_BASE_PTR = 12'h178;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR0 = 5'h00;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR1 = 5'h00;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR2 = 5'h00;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR3 = 5'h00;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR4 = 5'h00;
parameter [4:0] RBAR_CAP_CONTROL_ENCODEDBAR5 = 5'h00;
parameter [15:0] RBAR_CAP_ID = 16'h0015;
parameter [2:0] RBAR_CAP_INDEX0 = 3'h0;
parameter [2:0] RBAR_CAP_INDEX1 = 3'h0;
parameter [2:0] RBAR_CAP_INDEX2 = 3'h0;
parameter [2:0] RBAR_CAP_INDEX3 = 3'h0;
parameter [2:0] RBAR_CAP_INDEX4 = 3'h0;
parameter [2:0] RBAR_CAP_INDEX5 = 3'h0;
parameter [11:0] RBAR_CAP_NEXTPTR = 12'h000;
parameter RBAR_CAP_ON = "FALSE";
parameter [31:0] RBAR_CAP_SUP0 = 32'h00000000;
parameter [31:0] RBAR_CAP_SUP1 = 32'h00000000;
parameter [31:0] RBAR_CAP_SUP2 = 32'h00000000;
parameter [31:0] RBAR_CAP_SUP3 = 32'h00000000;
parameter [31:0] RBAR_CAP_SUP4 = 32'h00000000;
parameter [31:0] RBAR_CAP_SUP5 = 32'h00000000;
parameter [3:0] RBAR_CAP_VERSION = 4'h1;
parameter [2:0] RBAR_NUM = 3'h1;
parameter integer RECRC_CHK = 0;
parameter RECRC_CHK_TRIM = "FALSE";
parameter ROOT_CAP_CRS_SW_VISIBILITY = "FALSE";
parameter [1:0] RP_AUTO_SPD = 2'h1;
parameter [4:0] RP_AUTO_SPD_LOOPCNT = 5'h1F;
parameter SELECT_DLL_IF = "FALSE";
parameter SIM_VERSION = "1.0";
parameter SLOT_CAP_ATT_BUTTON_PRESENT = "FALSE";
parameter SLOT_CAP_ATT_INDICATOR_PRESENT = "FALSE";
parameter SLOT_CAP_ELEC_INTERLOCK_PRESENT = "FALSE";
parameter SLOT_CAP_HOTPLUG_CAPABLE = "FALSE";
parameter SLOT_CAP_HOTPLUG_SURPRISE = "FALSE";
parameter SLOT_CAP_MRL_SENSOR_PRESENT = "FALSE";
parameter SLOT_CAP_NO_CMD_COMPLETED_SUPPORT = "FALSE";
parameter [12:0] SLOT_CAP_PHYSICAL_SLOT_NUM = 13'h0000;
parameter SLOT_CAP_POWER_CONTROLLER_PRESENT = "FALSE";
parameter SLOT_CAP_POWER_INDICATOR_PRESENT = "FALSE";
parameter integer SLOT_CAP_SLOT_POWER_LIMIT_SCALE = 0;
parameter [7:0] SLOT_CAP_SLOT_POWER_LIMIT_VALUE = 8'h00;
parameter integer SPARE_BIT0 = 0;
parameter integer SPARE_BIT1 = 0;
parameter integer SPARE_BIT2 = 0;
parameter integer SPARE_BIT3 = 0;
parameter integer SPARE_BIT4 = 0;
parameter integer SPARE_BIT5 = 0;
parameter integer SPARE_BIT6 = 0;
parameter integer SPARE_BIT7 = 0;
parameter integer SPARE_BIT8 = 0;
parameter [7:0] SPARE_BYTE0 = 8'h00;
parameter [7:0] SPARE_BYTE1 = 8'h00;
parameter [7:0] SPARE_BYTE2 = 8'h00;
parameter [7:0] SPARE_BYTE3 = 8'h00;
parameter [31:0] SPARE_WORD0 = 32'h00000000;
parameter [31:0] SPARE_WORD1 = 32'h00000000;
parameter [31:0] SPARE_WORD2 = 32'h00000000;
parameter [31:0] SPARE_WORD3 = 32'h00000000;
parameter SSL_MESSAGE_AUTO = "FALSE";
parameter TECRC_EP_INV = "FALSE";
parameter TL_RBYPASS = "FALSE";
parameter integer TL_RX_RAM_RADDR_LATENCY = 0;
parameter integer TL_RX_RAM_RDATA_LATENCY = 2;
parameter integer TL_RX_RAM_WRITE_LATENCY = 0;
parameter TL_TFC_DISABLE = "FALSE";
parameter TL_TX_CHECKS_DISABLE = "FALSE";
parameter integer TL_TX_RAM_RADDR_LATENCY = 0;
parameter integer TL_TX_RAM_RDATA_LATENCY = 2;
parameter integer TL_TX_RAM_WRITE_LATENCY = 0;
parameter TRN_DW = "FALSE";
parameter TRN_NP_FC = "FALSE";
parameter UPCONFIG_CAPABLE = "TRUE";
parameter UPSTREAM_FACING = "TRUE";
parameter UR_ATOMIC = "TRUE";
parameter UR_CFG1 = "TRUE";
parameter UR_INV_REQ = "TRUE";
parameter UR_PRS_RESPONSE = "TRUE";
parameter USER_CLK2_DIV2 = "FALSE";
parameter integer USER_CLK_FREQ = 3;
parameter USE_RID_PINS = "FALSE";
parameter VC0_CPL_INFINITE = "TRUE";
parameter [12:0] VC0_RX_RAM_LIMIT = 13'h03FF;
parameter integer VC0_TOTAL_CREDITS_CD = 127;
parameter integer VC0_TOTAL_CREDITS_CH = 31;
parameter integer VC0_TOTAL_CREDITS_NPD = 24;
parameter integer VC0_TOTAL_CREDITS_NPH = 12;
parameter integer VC0_TOTAL_CREDITS_PD = 288;
parameter integer VC0_TOTAL_CREDITS_PH = 32;
parameter integer VC0_TX_LASTPACKET = 31;
parameter [11:0] VC_BASE_PTR = 12'h10C;
parameter [15:0] VC_CAP_ID = 16'h0002;
parameter [11:0] VC_CAP_NEXTPTR = 12'h000;
parameter VC_CAP_ON = "FALSE";
parameter VC_CAP_REJECT_SNOOP_TRANSACTIONS = "FALSE";
parameter [3:0] VC_CAP_VERSION = 4'h1;
parameter [11:0] VSEC_BASE_PTR = 12'h128;
parameter [15:0] VSEC_CAP_HDR_ID = 16'h1234;
parameter [11:0] VSEC_CAP_HDR_LENGTH = 12'h018;
parameter [3:0] VSEC_CAP_HDR_REVISION = 4'h1;
parameter [15:0] VSEC_CAP_ID = 16'h000B;
parameter VSEC_CAP_IS_LINK_VISIBLE = "TRUE";
parameter [11:0] VSEC_CAP_NEXTPTR = 12'h140;
parameter VSEC_CAP_ON = "FALSE";
parameter [3:0] VSEC_CAP_VERSION = 4'h1;
output CFGAERECRCCHECKEN;
output CFGAERECRCGENEN;
output CFGAERROOTERRCORRERRRECEIVED;
output CFGAERROOTERRCORRERRREPORTINGEN;
output CFGAERROOTERRFATALERRRECEIVED;
output CFGAERROOTERRFATALERRREPORTINGEN;
output CFGAERROOTERRNONFATALERRRECEIVED;
output CFGAERROOTERRNONFATALERRREPORTINGEN;
output CFGBRIDGESERREN;
output CFGCOMMANDBUSMASTERENABLE;
output CFGCOMMANDINTERRUPTDISABLE;
output CFGCOMMANDIOENABLE;
output CFGCOMMANDMEMENABLE;
output CFGCOMMANDSERREN;
output CFGDEVCONTROL2ARIFORWARDEN;
output CFGDEVCONTROL2ATOMICEGRESSBLOCK;
output CFGDEVCONTROL2ATOMICREQUESTEREN;
output CFGDEVCONTROL2CPLTIMEOUTDIS;
output CFGDEVCONTROL2IDOCPLEN;
output CFGDEVCONTROL2IDOREQEN;
output CFGDEVCONTROL2LTREN;
output CFGDEVCONTROL2TLPPREFIXBLOCK;
output CFGDEVCONTROLAUXPOWEREN;
output CFGDEVCONTROLCORRERRREPORTINGEN;
output CFGDEVCONTROLENABLERO;
output CFGDEVCONTROLEXTTAGEN;
output CFGDEVCONTROLFATALERRREPORTINGEN;
output CFGDEVCONTROLNONFATALREPORTINGEN;
output CFGDEVCONTROLNOSNOOPEN;
output CFGDEVCONTROLPHANTOMEN;
output CFGDEVCONTROLURERRREPORTINGEN;
output CFGDEVSTATUSCORRERRDETECTED;
output CFGDEVSTATUSFATALERRDETECTED;
output CFGDEVSTATUSNONFATALERRDETECTED;
output CFGDEVSTATUSURDETECTED;
output CFGERRAERHEADERLOGSETN;
output CFGERRCPLRDYN;
output CFGINTERRUPTMSIENABLE;
output CFGINTERRUPTMSIXENABLE;
output CFGINTERRUPTMSIXFM;
output CFGINTERRUPTRDYN;
output CFGLINKCONTROLAUTOBANDWIDTHINTEN;
output CFGLINKCONTROLBANDWIDTHINTEN;
output CFGLINKCONTROLCLOCKPMEN;
output CFGLINKCONTROLCOMMONCLOCK;
output CFGLINKCONTROLEXTENDEDSYNC;
output CFGLINKCONTROLHWAUTOWIDTHDIS;
output CFGLINKCONTROLLINKDISABLE;
output CFGLINKCONTROLRCB;
output CFGLINKCONTROLRETRAINLINK;
output CFGLINKSTATUSAUTOBANDWIDTHSTATUS;
output CFGLINKSTATUSBANDWIDTHSTATUS;
output CFGLINKSTATUSDLLACTIVE;
output CFGLINKSTATUSLINKTRAINING;
output CFGMGMTRDWRDONEN;
output CFGMSGRECEIVED;
output CFGMSGRECEIVEDASSERTINTA;
output CFGMSGRECEIVEDASSERTINTB;
output CFGMSGRECEIVEDASSERTINTC;
output CFGMSGRECEIVEDASSERTINTD;
output CFGMSGRECEIVEDDEASSERTINTA;
output CFGMSGRECEIVEDDEASSERTINTB;
output CFGMSGRECEIVEDDEASSERTINTC;
output CFGMSGRECEIVEDDEASSERTINTD;
output CFGMSGRECEIVEDERRCOR;
output CFGMSGRECEIVEDERRFATAL;
output CFGMSGRECEIVEDERRNONFATAL;
output CFGMSGRECEIVEDPMASNAK;
output CFGMSGRECEIVEDPMETO;
output CFGMSGRECEIVEDPMETOACK;
output CFGMSGRECEIVEDPMPME;
output CFGMSGRECEIVEDSETSLOTPOWERLIMIT;
output CFGMSGRECEIVEDUNLOCK;
output CFGPMCSRPMEEN;
output CFGPMCSRPMESTATUS;
output CFGPMRCVASREQL1N;
output CFGPMRCVENTERL1N;
output CFGPMRCVENTERL23N;
output CFGPMRCVREQACKN;
output CFGROOTCONTROLPMEINTEN;
output CFGROOTCONTROLSYSERRCORRERREN;
output CFGROOTCONTROLSYSERRFATALERREN;
output CFGROOTCONTROLSYSERRNONFATALERREN;
output CFGSLOTCONTROLELECTROMECHILCTLPULSE;
output CFGTRANSACTION;
output CFGTRANSACTIONTYPE;
output DBGSCLRA;
output DBGSCLRB;
output DBGSCLRC;
output DBGSCLRD;
output DBGSCLRE;
output DBGSCLRF;
output DBGSCLRG;
output DBGSCLRH;
output DBGSCLRI;
output DBGSCLRJ;
output DBGSCLRK;
output DRPRDY;
output LL2BADDLLPERR;
output LL2BADTLPERR;
output LL2PROTOCOLERR;
output LL2RECEIVERERR;
output LL2REPLAYROERR;
output LL2REPLAYTOERR;
output LL2SUSPENDOK;
output LL2TFCINIT1SEQ;
output LL2TFCINIT2SEQ;
output LL2TXIDLE;
output LNKCLKEN;
output MIMRXREN;
output MIMRXWEN;
output MIMTXREN;
output MIMTXWEN;
output PIPERX0POLARITY;
output PIPERX1POLARITY;
output PIPERX2POLARITY;
output PIPERX3POLARITY;
output PIPERX4POLARITY;
output PIPERX5POLARITY;
output PIPERX6POLARITY;
output PIPERX7POLARITY;
output PIPETX0COMPLIANCE;
output PIPETX0ELECIDLE;
output PIPETX1COMPLIANCE;
output PIPETX1ELECIDLE;
output PIPETX2COMPLIANCE;
output PIPETX2ELECIDLE;
output PIPETX3COMPLIANCE;
output PIPETX3ELECIDLE;
output PIPETX4COMPLIANCE;
output PIPETX4ELECIDLE;
output PIPETX5COMPLIANCE;
output PIPETX5ELECIDLE;
output PIPETX6COMPLIANCE;
output PIPETX6ELECIDLE;
output PIPETX7COMPLIANCE;
output PIPETX7ELECIDLE;
output PIPETXDEEMPH;
output PIPETXRATE;
output PIPETXRCVRDET;
output PIPETXRESET;
output PL2L0REQ;
output PL2LINKUP;
output PL2RECEIVERERR;
output PL2RECOVERY;
output PL2RXELECIDLE;
output PL2SUSPENDOK;
output PLDIRECTEDCHANGEDONE;
output PLLINKGEN2CAP;
output PLLINKPARTNERGEN2SUPPORTED;
output PLLINKUPCFGCAP;
output PLPHYLNKUPN;
output PLRECEIVEDHOTRST;
output PLSELLNKRATE;
output RECEIVEDFUNCLVLRSTN;
output TL2ASPMSUSPENDCREDITCHECKOK;
output TL2ASPMSUSPENDREQ;
output TL2ERRFCPE;
output TL2ERRMALFORMED;
output TL2ERRRXOVERFLOW;
output TL2PPMSUSPENDOK;
output TRNLNKUP;
output TRNRECRCERR;
output TRNREOF;
output TRNRERRFWD;
output TRNRSOF;
output TRNRSRCDSC;
output TRNRSRCRDY;
output TRNTCFGREQ;
output TRNTDLLPDSTRDY;
output TRNTERRDROP;
output USERRSTN;
output [11:0] DBGVECC;
output [11:0] PLDBGVEC;
output [11:0] TRNFCCPLD;
output [11:0] TRNFCNPD;
output [11:0] TRNFCPD;
output [127:0] TRNRD;
output [12:0] MIMRXRADDR;
output [12:0] MIMRXWADDR;
output [12:0] MIMTXRADDR;
output [12:0] MIMTXWADDR;
output [15:0] CFGMSGDATA;
output [15:0] DRPDO;
output [15:0] PIPETX0DATA;
output [15:0] PIPETX1DATA;
output [15:0] PIPETX2DATA;
output [15:0] PIPETX3DATA;
output [15:0] PIPETX4DATA;
output [15:0] PIPETX5DATA;
output [15:0] PIPETX6DATA;
output [15:0] PIPETX7DATA;
output [1:0] CFGLINKCONTROLASPMCONTROL;
output [1:0] CFGLINKSTATUSCURRENTSPEED;
output [1:0] CFGPMCSRPOWERSTATE;
output [1:0] PIPETX0CHARISK;
output [1:0] PIPETX0POWERDOWN;
output [1:0] PIPETX1CHARISK;
output [1:0] PIPETX1POWERDOWN;
output [1:0] PIPETX2CHARISK;
output [1:0] PIPETX2POWERDOWN;
output [1:0] PIPETX3CHARISK;
output [1:0] PIPETX3POWERDOWN;
output [1:0] PIPETX4CHARISK;
output [1:0] PIPETX4POWERDOWN;
output [1:0] PIPETX5CHARISK;
output [1:0] PIPETX5POWERDOWN;
output [1:0] PIPETX6CHARISK;
output [1:0] PIPETX6POWERDOWN;
output [1:0] PIPETX7CHARISK;
output [1:0] PIPETX7POWERDOWN;
output [1:0] PL2RXPMSTATE;
output [1:0] PLLANEREVERSALMODE;
output [1:0] PLRXPMSTATE;
output [1:0] PLSELLNKWIDTH;
output [1:0] TRNRDLLPSRCRDY;
output [1:0] TRNRREM;
output [2:0] CFGDEVCONTROLMAXPAYLOAD;
output [2:0] CFGDEVCONTROLMAXREADREQ;
output [2:0] CFGINTERRUPTMMENABLE;
output [2:0] CFGPCIELINKSTATE;
output [2:0] PIPETXMARGIN;
output [2:0] PLINITIALLINKWIDTH;
output [2:0] PLTXPMSTATE;
output [31:0] CFGMGMTDO;
output [3:0] CFGDEVCONTROL2CPLTIMEOUTVAL;
output [3:0] CFGLINKSTATUSNEGOTIATEDWIDTH;
output [3:0] TRNTDSTRDY;
output [4:0] LL2LINKSTATUS;
output [5:0] PLLTSSMSTATE;
output [5:0] TRNTBUFAV;
output [63:0] DBGVECA;
output [63:0] DBGVECB;
output [63:0] TL2ERRHDR;
output [63:0] TRNRDLLPDATA;
output [67:0] MIMRXWDATA;
output [68:0] MIMTXWDATA;
output [6:0] CFGTRANSACTIONADDR;
output [6:0] CFGVCTCVCMAP;
output [7:0] CFGINTERRUPTDO;
output [7:0] TRNFCCPLH;
output [7:0] TRNFCNPH;
output [7:0] TRNFCPH;
output [7:0] TRNRBARHIT;
input CFGERRACSN;
input CFGERRATOMICEGRESSBLOCKEDN;
input CFGERRCORN;
input CFGERRCPLABORTN;
input CFGERRCPLTIMEOUTN;
input CFGERRCPLUNEXPECTN;
input CFGERRECRCN;
input CFGERRINTERNALCORN;
input CFGERRINTERNALUNCORN;
input CFGERRLOCKEDN;
input CFGERRMALFORMEDN;
input CFGERRMCBLOCKEDN;
input CFGERRNORECOVERYN;
input CFGERRPOISONEDN;
input CFGERRPOSTEDN;
input CFGERRURN;
input CFGFORCECOMMONCLOCKOFF;
input CFGFORCEEXTENDEDSYNCON;
input CFGINTERRUPTASSERTN;
input CFGINTERRUPTN;
input CFGINTERRUPTSTATN;
input CFGMGMTRDENN;
input CFGMGMTWRENN;
input CFGMGMTWRREADONLYN;
input CFGMGMTWRRW1CASRWN;
input CFGPMFORCESTATEENN;
input CFGPMHALTASPML0SN;
input CFGPMHALTASPML1N;
input CFGPMSENDPMETON;
input CFGPMTURNOFFOKN;
input CFGPMWAKEN;
input CFGTRNPENDINGN;
input CMRSTN;
input CMSTICKYRSTN;
input DBGSUBMODE;
input DLRSTN;
input DRPCLK;
input DRPEN;
input DRPWE;
input FUNCLVLRSTN;
input LL2SENDASREQL1;
input LL2SENDENTERL1;
input LL2SENDENTERL23;
input LL2SENDPMACK;
input LL2SUSPENDNOW;
input LL2TLPRCV;
input PIPECLK;
input PIPERX0CHANISALIGNED;
input PIPERX0ELECIDLE;
input PIPERX0PHYSTATUS;
input PIPERX0VALID;
input PIPERX1CHANISALIGNED;
input PIPERX1ELECIDLE;
input PIPERX1PHYSTATUS;
input PIPERX1VALID;
input PIPERX2CHANISALIGNED;
input PIPERX2ELECIDLE;
input PIPERX2PHYSTATUS;
input PIPERX2VALID;
input PIPERX3CHANISALIGNED;
input PIPERX3ELECIDLE;
input PIPERX3PHYSTATUS;
input PIPERX3VALID;
input PIPERX4CHANISALIGNED;
input PIPERX4ELECIDLE;
input PIPERX4PHYSTATUS;
input PIPERX4VALID;
input PIPERX5CHANISALIGNED;
input PIPERX5ELECIDLE;
input PIPERX5PHYSTATUS;
input PIPERX5VALID;
input PIPERX6CHANISALIGNED;
input PIPERX6ELECIDLE;
input PIPERX6PHYSTATUS;
input PIPERX6VALID;
input PIPERX7CHANISALIGNED;
input PIPERX7ELECIDLE;
input PIPERX7PHYSTATUS;
input PIPERX7VALID;
input PLDIRECTEDLINKAUTON;
input PLDIRECTEDLINKSPEED;
input PLDIRECTEDLTSSMNEWVLD;
input PLDIRECTEDLTSSMSTALL;
input PLDOWNSTREAMDEEMPHSOURCE;
input PLRSTN;
input PLTRANSMITHOTRST;
input PLUPSTREAMPREFERDEEMPH;
input SYSRSTN;
input TL2ASPMSUSPENDCREDITCHECK;
input TL2PPMSUSPENDREQ;
input TLRSTN;
input TRNRDSTRDY;
input TRNRFCPRET;
input TRNRNPOK;
input TRNRNPREQ;
input TRNTCFGGNT;
input TRNTDLLPSRCRDY;
input TRNTECRCGEN;
input TRNTEOF;
input TRNTERRFWD;
input TRNTSOF;
input TRNTSRCDSC;
input TRNTSRCRDY;
input TRNTSTR;
input USERCLK2;
input USERCLK;
input [127:0] CFGERRAERHEADERLOG;
input [127:0] TRNTD;
input [15:0] CFGDEVID;
input [15:0] CFGSUBSYSID;
input [15:0] CFGSUBSYSVENDID;
input [15:0] CFGVENDID;
input [15:0] DRPDI;
input [15:0] PIPERX0DATA;
input [15:0] PIPERX1DATA;
input [15:0] PIPERX2DATA;
input [15:0] PIPERX3DATA;
input [15:0] PIPERX4DATA;
input [15:0] PIPERX5DATA;
input [15:0] PIPERX6DATA;
input [15:0] PIPERX7DATA;
input [1:0] CFGPMFORCESTATE;
input [1:0] DBGMODE;
input [1:0] PIPERX0CHARISK;
input [1:0] PIPERX1CHARISK;
input [1:0] PIPERX2CHARISK;
input [1:0] PIPERX3CHARISK;
input [1:0] PIPERX4CHARISK;
input [1:0] PIPERX5CHARISK;
input [1:0] PIPERX6CHARISK;
input [1:0] PIPERX7CHARISK;
input [1:0] PLDIRECTEDLINKCHANGE;
input [1:0] PLDIRECTEDLINKWIDTH;
input [1:0] TRNTREM;
input [2:0] CFGDSFUNCTIONNUMBER;
input [2:0] CFGFORCEMPS;
input [2:0] PIPERX0STATUS;
input [2:0] PIPERX1STATUS;
input [2:0] PIPERX2STATUS;
input [2:0] PIPERX3STATUS;
input [2:0] PIPERX4STATUS;
input [2:0] PIPERX5STATUS;
input [2:0] PIPERX6STATUS;
input [2:0] PIPERX7STATUS;
input [2:0] PLDBGMODE;
input [2:0] TRNFCSEL;
input [31:0] CFGMGMTDI;
input [31:0] TRNTDLLPDATA;
input [3:0] CFGMGMTBYTEENN;
input [47:0] CFGERRTLPCPLHEADER;
input [4:0] CFGAERINTERRUPTMSGNUM;
input [4:0] CFGDSDEVICENUMBER;
input [4:0] CFGPCIECAPINTERRUPTMSGNUM;
input [4:0] PL2DIRECTEDLSTATE;
input [5:0] PLDIRECTEDLTSSMNEW;
input [63:0] CFGDSN;
input [67:0] MIMRXRDATA;
input [68:0] MIMTXRDATA;
input [7:0] CFGDSBUSNUMBER;
input [7:0] CFGINTERRUPTDI;
input [7:0] CFGPORTNUMBER;
input [7:0] CFGREVID;
input [8:0] DRPADDR;
input [9:0] CFGMGMTDWADDR;
endmodule
module PCIE_3_0 (...);
parameter ARI_CAP_ENABLE = "FALSE";
parameter AXISTEN_IF_CC_ALIGNMENT_MODE = "FALSE";
parameter AXISTEN_IF_CC_PARITY_CHK = "TRUE";
parameter AXISTEN_IF_CQ_ALIGNMENT_MODE = "FALSE";
parameter AXISTEN_IF_ENABLE_CLIENT_TAG = "FALSE";
parameter [17:0] AXISTEN_IF_ENABLE_MSG_ROUTE = 18'h00000;
parameter AXISTEN_IF_ENABLE_RX_MSG_INTFC = "FALSE";
parameter AXISTEN_IF_RC_ALIGNMENT_MODE = "FALSE";
parameter AXISTEN_IF_RC_STRADDLE = "FALSE";
parameter AXISTEN_IF_RQ_ALIGNMENT_MODE = "FALSE";
parameter AXISTEN_IF_RQ_PARITY_CHK = "TRUE";
parameter [1:0] AXISTEN_IF_WIDTH = 2'h2;
parameter CRM_CORE_CLK_FREQ_500 = "TRUE";
parameter [1:0] CRM_USER_CLK_FREQ = 2'h2;
parameter [7:0] DNSTREAM_LINK_NUM = 8'h00;
parameter [1:0] GEN3_PCS_AUTO_REALIGN = 2'h1;
parameter GEN3_PCS_RX_ELECIDLE_INTERNAL = "TRUE";
parameter [8:0] LL_ACK_TIMEOUT = 9'h000;
parameter LL_ACK_TIMEOUT_EN = "FALSE";
parameter integer LL_ACK_TIMEOUT_FUNC = 0;
parameter [15:0] LL_CPL_FC_UPDATE_TIMER = 16'h0000;
parameter LL_CPL_FC_UPDATE_TIMER_OVERRIDE = "FALSE";
parameter [15:0] LL_FC_UPDATE_TIMER = 16'h0000;
parameter LL_FC_UPDATE_TIMER_OVERRIDE = "FALSE";
parameter [15:0] LL_NP_FC_UPDATE_TIMER = 16'h0000;
parameter LL_NP_FC_UPDATE_TIMER_OVERRIDE = "FALSE";
parameter [15:0] LL_P_FC_UPDATE_TIMER = 16'h0000;
parameter LL_P_FC_UPDATE_TIMER_OVERRIDE = "FALSE";
parameter [8:0] LL_REPLAY_TIMEOUT = 9'h000;
parameter LL_REPLAY_TIMEOUT_EN = "FALSE";
parameter integer LL_REPLAY_TIMEOUT_FUNC = 0;
parameter [9:0] LTR_TX_MESSAGE_MINIMUM_INTERVAL = 10'h0FA;
parameter LTR_TX_MESSAGE_ON_FUNC_POWER_STATE_CHANGE = "FALSE";
parameter LTR_TX_MESSAGE_ON_LTR_ENABLE = "FALSE";
parameter PF0_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE";
parameter PF0_AER_CAP_ECRC_GEN_CAPABLE = "FALSE";
parameter [11:0] PF0_AER_CAP_NEXTPTR = 12'h000;
parameter [11:0] PF0_ARI_CAP_NEXTPTR = 12'h000;
parameter [7:0] PF0_ARI_CAP_NEXT_FUNC = 8'h00;
parameter [3:0] PF0_ARI_CAP_VER = 4'h1;
parameter [4:0] PF0_BAR0_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_BAR0_CONTROL = 3'h4;
parameter [4:0] PF0_BAR1_APERTURE_SIZE = 5'h00;
parameter [2:0] PF0_BAR1_CONTROL = 3'h0;
parameter [4:0] PF0_BAR2_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_BAR2_CONTROL = 3'h4;
parameter [4:0] PF0_BAR3_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_BAR3_CONTROL = 3'h0;
parameter [4:0] PF0_BAR4_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_BAR4_CONTROL = 3'h4;
parameter [4:0] PF0_BAR5_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_BAR5_CONTROL = 3'h0;
parameter [7:0] PF0_BIST_REGISTER = 8'h00;
parameter [7:0] PF0_CAPABILITY_POINTER = 8'h50;
parameter [23:0] PF0_CLASS_CODE = 24'h000000;
parameter [15:0] PF0_DEVICE_ID = 16'h0000;
parameter PF0_DEV_CAP2_128B_CAS_ATOMIC_COMPLETER_SUPPORT = "TRUE";
parameter PF0_DEV_CAP2_32B_ATOMIC_COMPLETER_SUPPORT = "TRUE";
parameter PF0_DEV_CAP2_64B_ATOMIC_COMPLETER_SUPPORT = "TRUE";
parameter PF0_DEV_CAP2_CPL_TIMEOUT_DISABLE = "TRUE";
parameter PF0_DEV_CAP2_LTR_SUPPORT = "TRUE";
parameter [1:0] PF0_DEV_CAP2_OBFF_SUPPORT = 2'h0;
parameter PF0_DEV_CAP2_TPH_COMPLETER_SUPPORT = "FALSE";
parameter integer PF0_DEV_CAP_ENDPOINT_L0S_LATENCY = 0;
parameter integer PF0_DEV_CAP_ENDPOINT_L1_LATENCY = 0;
parameter PF0_DEV_CAP_EXT_TAG_SUPPORTED = "TRUE";
parameter PF0_DEV_CAP_FUNCTION_LEVEL_RESET_CAPABLE = "TRUE";
parameter [2:0] PF0_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3;
parameter [11:0] PF0_DPA_CAP_NEXTPTR = 12'h000;
parameter [4:0] PF0_DPA_CAP_SUB_STATE_CONTROL = 5'h00;
parameter PF0_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE";
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00;
parameter [7:0] PF0_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00;
parameter [3:0] PF0_DPA_CAP_VER = 4'h1;
parameter [11:0] PF0_DSN_CAP_NEXTPTR = 12'h10C;
parameter [4:0] PF0_EXPANSION_ROM_APERTURE_SIZE = 5'h03;
parameter PF0_EXPANSION_ROM_ENABLE = "FALSE";
parameter [7:0] PF0_INTERRUPT_LINE = 8'h00;
parameter [2:0] PF0_INTERRUPT_PIN = 3'h1;
parameter integer PF0_LINK_CAP_ASPM_SUPPORT = 0;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN1 = 7;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN2 = 7;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_COMCLK_GEN3 = 7;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN1 = 7;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN2 = 7;
parameter integer PF0_LINK_CAP_L0S_EXIT_LATENCY_GEN3 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN1 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN2 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_COMCLK_GEN3 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN1 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN2 = 7;
parameter integer PF0_LINK_CAP_L1_EXIT_LATENCY_GEN3 = 7;
parameter PF0_LINK_STATUS_SLOT_CLOCK_CONFIG = "TRUE";
parameter [9:0] PF0_LTR_CAP_MAX_NOSNOOP_LAT = 10'h000;
parameter [9:0] PF0_LTR_CAP_MAX_SNOOP_LAT = 10'h000;
parameter [11:0] PF0_LTR_CAP_NEXTPTR = 12'h000;
parameter [3:0] PF0_LTR_CAP_VER = 4'h1;
parameter [7:0] PF0_MSIX_CAP_NEXTPTR = 8'h00;
parameter integer PF0_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] PF0_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer PF0_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] PF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] PF0_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer PF0_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] PF0_MSI_CAP_NEXTPTR = 8'h00;
parameter [11:0] PF0_PB_CAP_NEXTPTR = 12'h000;
parameter PF0_PB_CAP_SYSTEM_ALLOCATED = "FALSE";
parameter [3:0] PF0_PB_CAP_VER = 4'h1;
parameter [7:0] PF0_PM_CAP_ID = 8'h01;
parameter [7:0] PF0_PM_CAP_NEXTPTR = 8'h00;
parameter PF0_PM_CAP_PMESUPPORT_D0 = "TRUE";
parameter PF0_PM_CAP_PMESUPPORT_D1 = "TRUE";
parameter PF0_PM_CAP_PMESUPPORT_D3HOT = "TRUE";
parameter PF0_PM_CAP_SUPP_D1_STATE = "TRUE";
parameter [2:0] PF0_PM_CAP_VER_ID = 3'h3;
parameter PF0_PM_CSR_NOSOFTRESET = "TRUE";
parameter PF0_RBAR_CAP_ENABLE = "FALSE";
parameter [2:0] PF0_RBAR_CAP_INDEX0 = 3'h0;
parameter [2:0] PF0_RBAR_CAP_INDEX1 = 3'h0;
parameter [2:0] PF0_RBAR_CAP_INDEX2 = 3'h0;
parameter [11:0] PF0_RBAR_CAP_NEXTPTR = 12'h000;
parameter [19:0] PF0_RBAR_CAP_SIZE0 = 20'h00000;
parameter [19:0] PF0_RBAR_CAP_SIZE1 = 20'h00000;
parameter [19:0] PF0_RBAR_CAP_SIZE2 = 20'h00000;
parameter [3:0] PF0_RBAR_CAP_VER = 4'h1;
parameter [2:0] PF0_RBAR_NUM = 3'h1;
parameter [7:0] PF0_REVISION_ID = 8'h00;
parameter [4:0] PF0_SRIOV_BAR0_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_SRIOV_BAR0_CONTROL = 3'h4;
parameter [4:0] PF0_SRIOV_BAR1_APERTURE_SIZE = 5'h00;
parameter [2:0] PF0_SRIOV_BAR1_CONTROL = 3'h0;
parameter [4:0] PF0_SRIOV_BAR2_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_SRIOV_BAR2_CONTROL = 3'h4;
parameter [4:0] PF0_SRIOV_BAR3_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_SRIOV_BAR3_CONTROL = 3'h0;
parameter [4:0] PF0_SRIOV_BAR4_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_SRIOV_BAR4_CONTROL = 3'h4;
parameter [4:0] PF0_SRIOV_BAR5_APERTURE_SIZE = 5'h03;
parameter [2:0] PF0_SRIOV_BAR5_CONTROL = 3'h0;
parameter [15:0] PF0_SRIOV_CAP_INITIAL_VF = 16'h0000;
parameter [11:0] PF0_SRIOV_CAP_NEXTPTR = 12'h000;
parameter [15:0] PF0_SRIOV_CAP_TOTAL_VF = 16'h0000;
parameter [3:0] PF0_SRIOV_CAP_VER = 4'h1;
parameter [15:0] PF0_SRIOV_FIRST_VF_OFFSET = 16'h0000;
parameter [15:0] PF0_SRIOV_FUNC_DEP_LINK = 16'h0000;
parameter [31:0] PF0_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000;
parameter [15:0] PF0_SRIOV_VF_DEVICE_ID = 16'h0000;
parameter [15:0] PF0_SUBSYSTEM_ID = 16'h0000;
parameter PF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter PF0_TPHR_CAP_ENABLE = "FALSE";
parameter PF0_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] PF0_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] PF0_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] PF0_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] PF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] PF0_TPHR_CAP_VER = 4'h1;
parameter [11:0] PF0_VC_CAP_NEXTPTR = 12'h000;
parameter [3:0] PF0_VC_CAP_VER = 4'h1;
parameter PF1_AER_CAP_ECRC_CHECK_CAPABLE = "FALSE";
parameter PF1_AER_CAP_ECRC_GEN_CAPABLE = "FALSE";
parameter [11:0] PF1_AER_CAP_NEXTPTR = 12'h000;
parameter [11:0] PF1_ARI_CAP_NEXTPTR = 12'h000;
parameter [7:0] PF1_ARI_CAP_NEXT_FUNC = 8'h00;
parameter [4:0] PF1_BAR0_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_BAR0_CONTROL = 3'h4;
parameter [4:0] PF1_BAR1_APERTURE_SIZE = 5'h00;
parameter [2:0] PF1_BAR1_CONTROL = 3'h0;
parameter [4:0] PF1_BAR2_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_BAR2_CONTROL = 3'h4;
parameter [4:0] PF1_BAR3_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_BAR3_CONTROL = 3'h0;
parameter [4:0] PF1_BAR4_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_BAR4_CONTROL = 3'h4;
parameter [4:0] PF1_BAR5_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_BAR5_CONTROL = 3'h0;
parameter [7:0] PF1_BIST_REGISTER = 8'h00;
parameter [7:0] PF1_CAPABILITY_POINTER = 8'h50;
parameter [23:0] PF1_CLASS_CODE = 24'h000000;
parameter [15:0] PF1_DEVICE_ID = 16'h0000;
parameter [2:0] PF1_DEV_CAP_MAX_PAYLOAD_SIZE = 3'h3;
parameter [11:0] PF1_DPA_CAP_NEXTPTR = 12'h000;
parameter [4:0] PF1_DPA_CAP_SUB_STATE_CONTROL = 5'h00;
parameter PF1_DPA_CAP_SUB_STATE_CONTROL_EN = "TRUE";
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION0 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION1 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION2 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION3 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION4 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION5 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION6 = 8'h00;
parameter [7:0] PF1_DPA_CAP_SUB_STATE_POWER_ALLOCATION7 = 8'h00;
parameter [3:0] PF1_DPA_CAP_VER = 4'h1;
parameter [11:0] PF1_DSN_CAP_NEXTPTR = 12'h10C;
parameter [4:0] PF1_EXPANSION_ROM_APERTURE_SIZE = 5'h03;
parameter PF1_EXPANSION_ROM_ENABLE = "FALSE";
parameter [7:0] PF1_INTERRUPT_LINE = 8'h00;
parameter [2:0] PF1_INTERRUPT_PIN = 3'h1;
parameter [7:0] PF1_MSIX_CAP_NEXTPTR = 8'h00;
parameter integer PF1_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] PF1_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer PF1_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] PF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] PF1_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer PF1_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] PF1_MSI_CAP_NEXTPTR = 8'h00;
parameter [11:0] PF1_PB_CAP_NEXTPTR = 12'h000;
parameter PF1_PB_CAP_SYSTEM_ALLOCATED = "FALSE";
parameter [3:0] PF1_PB_CAP_VER = 4'h1;
parameter [7:0] PF1_PM_CAP_ID = 8'h01;
parameter [7:0] PF1_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] PF1_PM_CAP_VER_ID = 3'h3;
parameter PF1_RBAR_CAP_ENABLE = "FALSE";
parameter [2:0] PF1_RBAR_CAP_INDEX0 = 3'h0;
parameter [2:0] PF1_RBAR_CAP_INDEX1 = 3'h0;
parameter [2:0] PF1_RBAR_CAP_INDEX2 = 3'h0;
parameter [11:0] PF1_RBAR_CAP_NEXTPTR = 12'h000;
parameter [19:0] PF1_RBAR_CAP_SIZE0 = 20'h00000;
parameter [19:0] PF1_RBAR_CAP_SIZE1 = 20'h00000;
parameter [19:0] PF1_RBAR_CAP_SIZE2 = 20'h00000;
parameter [3:0] PF1_RBAR_CAP_VER = 4'h1;
parameter [2:0] PF1_RBAR_NUM = 3'h1;
parameter [7:0] PF1_REVISION_ID = 8'h00;
parameter [4:0] PF1_SRIOV_BAR0_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_SRIOV_BAR0_CONTROL = 3'h4;
parameter [4:0] PF1_SRIOV_BAR1_APERTURE_SIZE = 5'h00;
parameter [2:0] PF1_SRIOV_BAR1_CONTROL = 3'h0;
parameter [4:0] PF1_SRIOV_BAR2_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_SRIOV_BAR2_CONTROL = 3'h4;
parameter [4:0] PF1_SRIOV_BAR3_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_SRIOV_BAR3_CONTROL = 3'h0;
parameter [4:0] PF1_SRIOV_BAR4_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_SRIOV_BAR4_CONTROL = 3'h4;
parameter [4:0] PF1_SRIOV_BAR5_APERTURE_SIZE = 5'h03;
parameter [2:0] PF1_SRIOV_BAR5_CONTROL = 3'h0;
parameter [15:0] PF1_SRIOV_CAP_INITIAL_VF = 16'h0000;
parameter [11:0] PF1_SRIOV_CAP_NEXTPTR = 12'h000;
parameter [15:0] PF1_SRIOV_CAP_TOTAL_VF = 16'h0000;
parameter [3:0] PF1_SRIOV_CAP_VER = 4'h1;
parameter [15:0] PF1_SRIOV_FIRST_VF_OFFSET = 16'h0000;
parameter [15:0] PF1_SRIOV_FUNC_DEP_LINK = 16'h0000;
parameter [31:0] PF1_SRIOV_SUPPORTED_PAGE_SIZE = 32'h00000000;
parameter [15:0] PF1_SRIOV_VF_DEVICE_ID = 16'h0000;
parameter [15:0] PF1_SUBSYSTEM_ID = 16'h0000;
parameter PF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter PF1_TPHR_CAP_ENABLE = "FALSE";
parameter PF1_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] PF1_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] PF1_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] PF1_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] PF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] PF1_TPHR_CAP_VER = 4'h1;
parameter PL_DISABLE_EI_INFER_IN_L0 = "FALSE";
parameter PL_DISABLE_GEN3_DC_BALANCE = "FALSE";
parameter PL_DISABLE_SCRAMBLING = "FALSE";
parameter PL_DISABLE_UPCONFIG_CAPABLE = "FALSE";
parameter PL_EQ_ADAPT_DISABLE_COEFF_CHECK = "FALSE";
parameter PL_EQ_ADAPT_DISABLE_PRESET_CHECK = "FALSE";
parameter [4:0] PL_EQ_ADAPT_ITER_COUNT = 5'h02;
parameter [1:0] PL_EQ_ADAPT_REJECT_RETRY_COUNT = 2'h1;
parameter PL_EQ_BYPASS_PHASE23 = "FALSE";
parameter PL_EQ_SHORT_ADAPT_PHASE = "FALSE";
parameter [15:0] PL_LANE0_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE1_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE2_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE3_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE4_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE5_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE6_EQ_CONTROL = 16'h3F00;
parameter [15:0] PL_LANE7_EQ_CONTROL = 16'h3F00;
parameter [2:0] PL_LINK_CAP_MAX_LINK_SPEED = 3'h4;
parameter [3:0] PL_LINK_CAP_MAX_LINK_WIDTH = 4'h8;
parameter integer PL_N_FTS_COMCLK_GEN1 = 255;
parameter integer PL_N_FTS_COMCLK_GEN2 = 255;
parameter integer PL_N_FTS_COMCLK_GEN3 = 255;
parameter integer PL_N_FTS_GEN1 = 255;
parameter integer PL_N_FTS_GEN2 = 255;
parameter integer PL_N_FTS_GEN3 = 255;
parameter PL_SIM_FAST_LINK_TRAINING = "FALSE";
parameter PL_UPSTREAM_FACING = "TRUE";
parameter [15:0] PM_ASPML0S_TIMEOUT = 16'h05DC;
parameter [19:0] PM_ASPML1_ENTRY_DELAY = 20'h00000;
parameter PM_ENABLE_SLOT_POWER_CAPTURE = "TRUE";
parameter [31:0] PM_L1_REENTRY_DELAY = 32'h00000000;
parameter [19:0] PM_PME_SERVICE_TIMEOUT_DELAY = 20'h186A0;
parameter [15:0] PM_PME_TURNOFF_ACK_DELAY = 16'h0064;
parameter SIM_VERSION = "1.0";
parameter integer SPARE_BIT0 = 0;
parameter integer SPARE_BIT1 = 0;
parameter integer SPARE_BIT2 = 0;
parameter integer SPARE_BIT3 = 0;
parameter integer SPARE_BIT4 = 0;
parameter integer SPARE_BIT5 = 0;
parameter integer SPARE_BIT6 = 0;
parameter integer SPARE_BIT7 = 0;
parameter integer SPARE_BIT8 = 0;
parameter [7:0] SPARE_BYTE0 = 8'h00;
parameter [7:0] SPARE_BYTE1 = 8'h00;
parameter [7:0] SPARE_BYTE2 = 8'h00;
parameter [7:0] SPARE_BYTE3 = 8'h00;
parameter [31:0] SPARE_WORD0 = 32'h00000000;
parameter [31:0] SPARE_WORD1 = 32'h00000000;
parameter [31:0] SPARE_WORD2 = 32'h00000000;
parameter [31:0] SPARE_WORD3 = 32'h00000000;
parameter SRIOV_CAP_ENABLE = "FALSE";
parameter [23:0] TL_COMPL_TIMEOUT_REG0 = 24'hBEBC20;
parameter [27:0] TL_COMPL_TIMEOUT_REG1 = 28'h0000000;
parameter [11:0] TL_CREDITS_CD = 12'h3E0;
parameter [7:0] TL_CREDITS_CH = 8'h20;
parameter [11:0] TL_CREDITS_NPD = 12'h028;
parameter [7:0] TL_CREDITS_NPH = 8'h20;
parameter [11:0] TL_CREDITS_PD = 12'h198;
parameter [7:0] TL_CREDITS_PH = 8'h20;
parameter TL_ENABLE_MESSAGE_RID_CHECK_ENABLE = "TRUE";
parameter TL_EXTENDED_CFG_EXTEND_INTERFACE_ENABLE = "FALSE";
parameter TL_LEGACY_CFG_EXTEND_INTERFACE_ENABLE = "FALSE";
parameter TL_LEGACY_MODE_ENABLE = "FALSE";
parameter TL_PF_ENABLE_REG = "FALSE";
parameter TL_TAG_MGMT_ENABLE = "TRUE";
parameter [11:0] VF0_ARI_CAP_NEXTPTR = 12'h000;
parameter [7:0] VF0_CAPABILITY_POINTER = 8'h50;
parameter integer VF0_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF0_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF0_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF0_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF0_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF0_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF0_PM_CAP_ID = 8'h01;
parameter [7:0] VF0_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF0_PM_CAP_VER_ID = 3'h3;
parameter VF0_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF0_TPHR_CAP_ENABLE = "FALSE";
parameter VF0_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF0_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF0_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF0_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF0_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF0_TPHR_CAP_VER = 4'h1;
parameter [11:0] VF1_ARI_CAP_NEXTPTR = 12'h000;
parameter integer VF1_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF1_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF1_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF1_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF1_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF1_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF1_PM_CAP_ID = 8'h01;
parameter [7:0] VF1_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF1_PM_CAP_VER_ID = 3'h3;
parameter VF1_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF1_TPHR_CAP_ENABLE = "FALSE";
parameter VF1_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF1_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF1_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF1_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF1_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF1_TPHR_CAP_VER = 4'h1;
parameter [11:0] VF2_ARI_CAP_NEXTPTR = 12'h000;
parameter integer VF2_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF2_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF2_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF2_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF2_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF2_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF2_PM_CAP_ID = 8'h01;
parameter [7:0] VF2_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF2_PM_CAP_VER_ID = 3'h3;
parameter VF2_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF2_TPHR_CAP_ENABLE = "FALSE";
parameter VF2_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF2_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF2_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF2_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF2_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF2_TPHR_CAP_VER = 4'h1;
parameter [11:0] VF3_ARI_CAP_NEXTPTR = 12'h000;
parameter integer VF3_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF3_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF3_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF3_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF3_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF3_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF3_PM_CAP_ID = 8'h01;
parameter [7:0] VF3_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF3_PM_CAP_VER_ID = 3'h3;
parameter VF3_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF3_TPHR_CAP_ENABLE = "FALSE";
parameter VF3_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF3_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF3_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF3_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF3_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF3_TPHR_CAP_VER = 4'h1;
parameter [11:0] VF4_ARI_CAP_NEXTPTR = 12'h000;
parameter integer VF4_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF4_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF4_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF4_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF4_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF4_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF4_PM_CAP_ID = 8'h01;
parameter [7:0] VF4_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF4_PM_CAP_VER_ID = 3'h3;
parameter VF4_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF4_TPHR_CAP_ENABLE = "FALSE";
parameter VF4_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF4_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF4_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF4_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF4_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF4_TPHR_CAP_VER = 4'h1;
parameter [11:0] VF5_ARI_CAP_NEXTPTR = 12'h000;
parameter integer VF5_MSIX_CAP_PBA_BIR = 0;
parameter [28:0] VF5_MSIX_CAP_PBA_OFFSET = 29'h00000050;
parameter integer VF5_MSIX_CAP_TABLE_BIR = 0;
parameter [28:0] VF5_MSIX_CAP_TABLE_OFFSET = 29'h00000040;
parameter [10:0] VF5_MSIX_CAP_TABLE_SIZE = 11'h000;
parameter integer VF5_MSI_CAP_MULTIMSGCAP = 0;
parameter [7:0] VF5_PM_CAP_ID = 8'h01;
parameter [7:0] VF5_PM_CAP_NEXTPTR = 8'h00;
parameter [2:0] VF5_PM_CAP_VER_ID = 3'h3;
parameter VF5_TPHR_CAP_DEV_SPECIFIC_MODE = "TRUE";
parameter VF5_TPHR_CAP_ENABLE = "FALSE";
parameter VF5_TPHR_CAP_INT_VEC_MODE = "TRUE";
parameter [11:0] VF5_TPHR_CAP_NEXTPTR = 12'h000;
parameter [2:0] VF5_TPHR_CAP_ST_MODE_SEL = 3'h0;
parameter [1:0] VF5_TPHR_CAP_ST_TABLE_LOC = 2'h0;
parameter [10:0] VF5_TPHR_CAP_ST_TABLE_SIZE = 11'h000;
parameter [3:0] VF5_TPHR_CAP_VER = 4'h1;
output CFGERRCOROUT;
output CFGERRFATALOUT;
output CFGERRNONFATALOUT;
output CFGEXTREADRECEIVED;
output CFGEXTWRITERECEIVED;
output CFGHOTRESETOUT;
output CFGINPUTUPDATEDONE;
output CFGINTERRUPTAOUTPUT;
output CFGINTERRUPTBOUTPUT;
output CFGINTERRUPTCOUTPUT;
output CFGINTERRUPTDOUTPUT;
output CFGINTERRUPTMSIFAIL;
output CFGINTERRUPTMSIMASKUPDATE;
output CFGINTERRUPTMSISENT;
output CFGINTERRUPTMSIXFAIL;
output CFGINTERRUPTMSIXSENT;
output CFGINTERRUPTSENT;
output CFGLOCALERROR;
output CFGLTRENABLE;
output CFGMCUPDATEDONE;
output CFGMGMTREADWRITEDONE;
output CFGMSGRECEIVED;
output CFGMSGTRANSMITDONE;
output CFGPERFUNCTIONUPDATEDONE;
output CFGPHYLINKDOWN;
output CFGPLSTATUSCHANGE;
output CFGPOWERSTATECHANGEINTERRUPT;
output CFGTPHSTTREADENABLE;
output CFGTPHSTTWRITEENABLE;
output DRPRDY;
output MAXISCQTLAST;
output MAXISCQTVALID;
output MAXISRCTLAST;
output MAXISRCTVALID;
output PCIERQSEQNUMVLD;
output PCIERQTAGVLD;
output PIPERX0POLARITY;
output PIPERX1POLARITY;
output PIPERX2POLARITY;
output PIPERX3POLARITY;
output PIPERX4POLARITY;
output PIPERX5POLARITY;
output PIPERX6POLARITY;
output PIPERX7POLARITY;
output PIPETX0COMPLIANCE;
output PIPETX0DATAVALID;
output PIPETX0ELECIDLE;
output PIPETX0STARTBLOCK;
output PIPETX1COMPLIANCE;
output PIPETX1DATAVALID;
output PIPETX1ELECIDLE;
output PIPETX1STARTBLOCK;
output PIPETX2COMPLIANCE;
output PIPETX2DATAVALID;
output PIPETX2ELECIDLE;
output PIPETX2STARTBLOCK;
output PIPETX3COMPLIANCE;
output PIPETX3DATAVALID;
output PIPETX3ELECIDLE;
output PIPETX3STARTBLOCK;
output PIPETX4COMPLIANCE;
output PIPETX4DATAVALID;
output PIPETX4ELECIDLE;
output PIPETX4STARTBLOCK;
output PIPETX5COMPLIANCE;
output PIPETX5DATAVALID;
output PIPETX5ELECIDLE;
output PIPETX5STARTBLOCK;
output PIPETX6COMPLIANCE;
output PIPETX6DATAVALID;
output PIPETX6ELECIDLE;
output PIPETX6STARTBLOCK;
output PIPETX7COMPLIANCE;
output PIPETX7DATAVALID;
output PIPETX7ELECIDLE;
output PIPETX7STARTBLOCK;
output PIPETXDEEMPH;
output PIPETXRCVRDET;
output PIPETXRESET;
output PIPETXSWING;
output PLEQINPROGRESS;
output [11:0] CFGFCCPLD;
output [11:0] CFGFCNPD;
output [11:0] CFGFCPD;
output [11:0] CFGVFSTATUS;
output [143:0] MIREPLAYRAMWRITEDATA;
output [143:0] MIREQUESTRAMWRITEDATA;
output [15:0] CFGPERFUNCSTATUSDATA;
output [15:0] DBGDATAOUT;
output [15:0] DRPDO;
output [17:0] CFGVFPOWERSTATE;
output [17:0] CFGVFTPHSTMODE;
output [1:0] CFGDPASUBSTATECHANGE;
output [1:0] CFGFLRINPROCESS;
output [1:0] CFGINTERRUPTMSIENABLE;
output [1:0] CFGINTERRUPTMSIXENABLE;
output [1:0] CFGINTERRUPTMSIXMASK;
output [1:0] CFGLINKPOWERSTATE;
output [1:0] CFGOBFFENABLE;
output [1:0] CFGPHYLINKSTATUS;
output [1:0] CFGRCBSTATUS;
output [1:0] CFGTPHREQUESTERENABLE;
output [1:0] MIREPLAYRAMREADENABLE;
output [1:0] MIREPLAYRAMWRITEENABLE;
output [1:0] PCIERQTAGAV;
output [1:0] PCIETFCNPDAV;
output [1:0] PCIETFCNPHAV;
output [1:0] PIPERX0EQCONTROL;
output [1:0] PIPERX1EQCONTROL;
output [1:0] PIPERX2EQCONTROL;
output [1:0] PIPERX3EQCONTROL;
output [1:0] PIPERX4EQCONTROL;
output [1:0] PIPERX5EQCONTROL;
output [1:0] PIPERX6EQCONTROL;
output [1:0] PIPERX7EQCONTROL;
output [1:0] PIPETX0CHARISK;
output [1:0] PIPETX0EQCONTROL;
output [1:0] PIPETX0POWERDOWN;
output [1:0] PIPETX0SYNCHEADER;
output [1:0] PIPETX1CHARISK;
output [1:0] PIPETX1EQCONTROL;
output [1:0] PIPETX1POWERDOWN;
output [1:0] PIPETX1SYNCHEADER;
output [1:0] PIPETX2CHARISK;
output [1:0] PIPETX2EQCONTROL;
output [1:0] PIPETX2POWERDOWN;
output [1:0] PIPETX2SYNCHEADER;
output [1:0] PIPETX3CHARISK;
output [1:0] PIPETX3EQCONTROL;
output [1:0] PIPETX3POWERDOWN;
output [1:0] PIPETX3SYNCHEADER;
output [1:0] PIPETX4CHARISK;
output [1:0] PIPETX4EQCONTROL;
output [1:0] PIPETX4POWERDOWN;
output [1:0] PIPETX4SYNCHEADER;
output [1:0] PIPETX5CHARISK;
output [1:0] PIPETX5EQCONTROL;
output [1:0] PIPETX5POWERDOWN;
output [1:0] PIPETX5SYNCHEADER;
output [1:0] PIPETX6CHARISK;
output [1:0] PIPETX6EQCONTROL;
output [1:0] PIPETX6POWERDOWN;
output [1:0] PIPETX6SYNCHEADER;
output [1:0] PIPETX7CHARISK;
output [1:0] PIPETX7EQCONTROL;
output [1:0] PIPETX7POWERDOWN;
output [1:0] PIPETX7SYNCHEADER;
output [1:0] PIPETXRATE;
output [1:0] PLEQPHASE;
output [255:0] MAXISCQTDATA;
output [255:0] MAXISRCTDATA;
output [2:0] CFGCURRENTSPEED;
output [2:0] CFGMAXPAYLOAD;
output [2:0] CFGMAXREADREQ;
output [2:0] CFGTPHFUNCTIONNUM;
output [2:0] PIPERX0EQPRESET;
output [2:0] PIPERX1EQPRESET;
output [2:0] PIPERX2EQPRESET;
output [2:0] PIPERX3EQPRESET;
output [2:0] PIPERX4EQPRESET;
output [2:0] PIPERX5EQPRESET;
output [2:0] PIPERX6EQPRESET;
output [2:0] PIPERX7EQPRESET;
output [2:0] PIPETXMARGIN;
output [31:0] CFGEXTWRITEDATA;
output [31:0] CFGINTERRUPTMSIDATA;
output [31:0] CFGMGMTREADDATA;
output [31:0] CFGTPHSTTWRITEDATA;
output [31:0] PIPETX0DATA;
output [31:0] PIPETX1DATA;
output [31:0] PIPETX2DATA;
output [31:0] PIPETX3DATA;
output [31:0] PIPETX4DATA;
output [31:0] PIPETX5DATA;
output [31:0] PIPETX6DATA;
output [31:0] PIPETX7DATA;
output [3:0] CFGEXTWRITEBYTEENABLE;
output [3:0] CFGNEGOTIATEDWIDTH;
output [3:0] CFGTPHSTTWRITEBYTEVALID;
output [3:0] MICOMPLETIONRAMREADENABLEL;
output [3:0] MICOMPLETIONRAMREADENABLEU;
output [3:0] MICOMPLETIONRAMWRITEENABLEL;
output [3:0] MICOMPLETIONRAMWRITEENABLEU;
output [3:0] MIREQUESTRAMREADENABLE;
output [3:0] MIREQUESTRAMWRITEENABLE;
output [3:0] PCIERQSEQNUM;
output [3:0] PIPERX0EQLPTXPRESET;
output [3:0] PIPERX1EQLPTXPRESET;
output [3:0] PIPERX2EQLPTXPRESET;
output [3:0] PIPERX3EQLPTXPRESET;
output [3:0] PIPERX4EQLPTXPRESET;
output [3:0] PIPERX5EQLPTXPRESET;
output [3:0] PIPERX6EQLPTXPRESET;
output [3:0] PIPERX7EQLPTXPRESET;
output [3:0] PIPETX0EQPRESET;
output [3:0] PIPETX1EQPRESET;
output [3:0] PIPETX2EQPRESET;
output [3:0] PIPETX3EQPRESET;
output [3:0] PIPETX4EQPRESET;
output [3:0] PIPETX5EQPRESET;
output [3:0] PIPETX6EQPRESET;
output [3:0] PIPETX7EQPRESET;
output [3:0] SAXISCCTREADY;
output [3:0] SAXISRQTREADY;
output [4:0] CFGMSGRECEIVEDTYPE;
output [4:0] CFGTPHSTTADDRESS;
output [5:0] CFGFUNCTIONPOWERSTATE;
output [5:0] CFGINTERRUPTMSIMMENABLE;
output [5:0] CFGINTERRUPTMSIVFENABLE;
output [5:0] CFGINTERRUPTMSIXVFENABLE;
output [5:0] CFGINTERRUPTMSIXVFMASK;
output [5:0] CFGLTSSMSTATE;
output [5:0] CFGTPHSTMODE;
output [5:0] CFGVFFLRINPROCESS;
output [5:0] CFGVFTPHREQUESTERENABLE;
output [5:0] PCIECQNPREQCOUNT;
output [5:0] PCIERQTAG;
output [5:0] PIPERX0EQLPLFFS;
output [5:0] PIPERX1EQLPLFFS;
output [5:0] PIPERX2EQLPLFFS;
output [5:0] PIPERX3EQLPLFFS;
output [5:0] PIPERX4EQLPLFFS;
output [5:0] PIPERX5EQLPLFFS;
output [5:0] PIPERX6EQLPLFFS;
output [5:0] PIPERX7EQLPLFFS;
output [5:0] PIPETX0EQDEEMPH;
output [5:0] PIPETX1EQDEEMPH;
output [5:0] PIPETX2EQDEEMPH;
output [5:0] PIPETX3EQDEEMPH;
output [5:0] PIPETX4EQDEEMPH;
output [5:0] PIPETX5EQDEEMPH;
output [5:0] PIPETX6EQDEEMPH;
output [5:0] PIPETX7EQDEEMPH;
output [71:0] MICOMPLETIONRAMWRITEDATAL;
output [71:0] MICOMPLETIONRAMWRITEDATAU;
output [74:0] MAXISRCTUSER;
output [7:0] CFGEXTFUNCTIONNUMBER;
output [7:0] CFGFCCPLH;
output [7:0] CFGFCNPH;
output [7:0] CFGFCPH;
output [7:0] CFGFUNCTIONSTATUS;
output [7:0] CFGMSGRECEIVEDDATA;
output [7:0] MAXISCQTKEEP;
output [7:0] MAXISRCTKEEP;
output [7:0] PLGEN3PCSRXSLIDE;
output [84:0] MAXISCQTUSER;
output [8:0] MIREPLAYRAMADDRESS;
output [8:0] MIREQUESTRAMREADADDRESSA;
output [8:0] MIREQUESTRAMREADADDRESSB;
output [8:0] MIREQUESTRAMWRITEADDRESSA;
output [8:0] MIREQUESTRAMWRITEADDRESSB;
output [9:0] CFGEXTREGISTERNUMBER;
output [9:0] MICOMPLETIONRAMREADADDRESSAL;
output [9:0] MICOMPLETIONRAMREADADDRESSAU;
output [9:0] MICOMPLETIONRAMREADADDRESSBL;
output [9:0] MICOMPLETIONRAMREADADDRESSBU;
output [9:0] MICOMPLETIONRAMWRITEADDRESSAL;
output [9:0] MICOMPLETIONRAMWRITEADDRESSAU;
output [9:0] MICOMPLETIONRAMWRITEADDRESSBL;
output [9:0] MICOMPLETIONRAMWRITEADDRESSBU;
input CFGCONFIGSPACEENABLE;
input CFGERRCORIN;
input CFGERRUNCORIN;
input CFGEXTREADDATAVALID;
input CFGHOTRESETIN;
input CFGINPUTUPDATEREQUEST;
input CFGINTERRUPTMSITPHPRESENT;
input CFGINTERRUPTMSIXINT;
input CFGLINKTRAININGENABLE;
input CFGMCUPDATEREQUEST;
input CFGMGMTREAD;
input CFGMGMTTYPE1CFGREGACCESS;
input CFGMGMTWRITE;
input CFGMSGTRANSMIT;
input CFGPERFUNCTIONOUTPUTREQUEST;
input CFGPOWERSTATECHANGEACK;
input CFGREQPMTRANSITIONL23READY;
input CFGTPHSTTREADDATAVALID;
input CORECLK;
input CORECLKMICOMPLETIONRAML;
input CORECLKMICOMPLETIONRAMU;
input CORECLKMIREPLAYRAM;
input CORECLKMIREQUESTRAM;
input DRPCLK;
input DRPEN;
input DRPWE;
input MGMTRESETN;
input MGMTSTICKYRESETN;
input PCIECQNPREQ;
input PIPECLK;
input PIPERESETN;
input PIPERX0DATAVALID;
input PIPERX0ELECIDLE;
input PIPERX0EQDONE;
input PIPERX0EQLPADAPTDONE;
input PIPERX0EQLPLFFSSEL;
input PIPERX0PHYSTATUS;
input PIPERX0STARTBLOCK;
input PIPERX0VALID;
input PIPERX1DATAVALID;
input PIPERX1ELECIDLE;
input PIPERX1EQDONE;
input PIPERX1EQLPADAPTDONE;
input PIPERX1EQLPLFFSSEL;
input PIPERX1PHYSTATUS;
input PIPERX1STARTBLOCK;
input PIPERX1VALID;
input PIPERX2DATAVALID;
input PIPERX2ELECIDLE;
input PIPERX2EQDONE;
input PIPERX2EQLPADAPTDONE;
input PIPERX2EQLPLFFSSEL;
input PIPERX2PHYSTATUS;
input PIPERX2STARTBLOCK;
input PIPERX2VALID;
input PIPERX3DATAVALID;
input PIPERX3ELECIDLE;
input PIPERX3EQDONE;
input PIPERX3EQLPADAPTDONE;
input PIPERX3EQLPLFFSSEL;
input PIPERX3PHYSTATUS;
input PIPERX3STARTBLOCK;
input PIPERX3VALID;
input PIPERX4DATAVALID;
input PIPERX4ELECIDLE;
input PIPERX4EQDONE;
input PIPERX4EQLPADAPTDONE;
input PIPERX4EQLPLFFSSEL;
input PIPERX4PHYSTATUS;
input PIPERX4STARTBLOCK;
input PIPERX4VALID;
input PIPERX5DATAVALID;
input PIPERX5ELECIDLE;
input PIPERX5EQDONE;
input PIPERX5EQLPADAPTDONE;
input PIPERX5EQLPLFFSSEL;
input PIPERX5PHYSTATUS;
input PIPERX5STARTBLOCK;
input PIPERX5VALID;
input PIPERX6DATAVALID;
input PIPERX6ELECIDLE;
input PIPERX6EQDONE;
input PIPERX6EQLPADAPTDONE;
input PIPERX6EQLPLFFSSEL;
input PIPERX6PHYSTATUS;
input PIPERX6STARTBLOCK;
input PIPERX6VALID;
input PIPERX7DATAVALID;
input PIPERX7ELECIDLE;
input PIPERX7EQDONE;
input PIPERX7EQLPADAPTDONE;
input PIPERX7EQLPLFFSSEL;
input PIPERX7PHYSTATUS;
input PIPERX7STARTBLOCK;
input PIPERX7VALID;
input PIPETX0EQDONE;
input PIPETX1EQDONE;
input PIPETX2EQDONE;
input PIPETX3EQDONE;
input PIPETX4EQDONE;
input PIPETX5EQDONE;
input PIPETX6EQDONE;
input PIPETX7EQDONE;
input PLDISABLESCRAMBLER;
input PLEQRESETEIEOSCOUNT;
input PLGEN3PCSDISABLE;
input RECCLK;
input RESETN;
input SAXISCCTLAST;
input SAXISCCTVALID;
input SAXISRQTLAST;
input SAXISRQTVALID;
input USERCLK;
input [10:0] DRPADDR;
input [143:0] MICOMPLETIONRAMREADDATA;
input [143:0] MIREPLAYRAMREADDATA;
input [143:0] MIREQUESTRAMREADDATA;
input [15:0] CFGDEVID;
input [15:0] CFGSUBSYSID;
input [15:0] CFGSUBSYSVENDID;
input [15:0] CFGVENDID;
input [15:0] DRPDI;
input [17:0] PIPERX0EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX1EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX2EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX3EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX4EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX5EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX6EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPERX7EQLPNEWTXCOEFFORPRESET;
input [17:0] PIPETX0EQCOEFF;
input [17:0] PIPETX1EQCOEFF;
input [17:0] PIPETX2EQCOEFF;
input [17:0] PIPETX3EQCOEFF;
input [17:0] PIPETX4EQCOEFF;
input [17:0] PIPETX5EQCOEFF;
input [17:0] PIPETX6EQCOEFF;
input [17:0] PIPETX7EQCOEFF;
input [18:0] CFGMGMTADDR;
input [1:0] CFGFLRDONE;
input [1:0] CFGINTERRUPTMSITPHTYPE;
input [1:0] CFGINTERRUPTPENDING;
input [1:0] PIPERX0CHARISK;
input [1:0] PIPERX0SYNCHEADER;
input [1:0] PIPERX1CHARISK;
input [1:0] PIPERX1SYNCHEADER;
input [1:0] PIPERX2CHARISK;
input [1:0] PIPERX2SYNCHEADER;
input [1:0] PIPERX3CHARISK;
input [1:0] PIPERX3SYNCHEADER;
input [1:0] PIPERX4CHARISK;
input [1:0] PIPERX4SYNCHEADER;
input [1:0] PIPERX5CHARISK;
input [1:0] PIPERX5SYNCHEADER;
input [1:0] PIPERX6CHARISK;
input [1:0] PIPERX6SYNCHEADER;
input [1:0] PIPERX7CHARISK;
input [1:0] PIPERX7SYNCHEADER;
input [21:0] MAXISCQTREADY;
input [21:0] MAXISRCTREADY;
input [255:0] SAXISCCTDATA;
input [255:0] SAXISRQTDATA;
input [2:0] CFGDSFUNCTIONNUMBER;
input [2:0] CFGFCSEL;
input [2:0] CFGINTERRUPTMSIATTR;
input [2:0] CFGINTERRUPTMSIFUNCTIONNUMBER;
input [2:0] CFGMSGTRANSMITTYPE;
input [2:0] CFGPERFUNCSTATUSCONTROL;
input [2:0] CFGPERFUNCTIONNUMBER;
input [2:0] PIPERX0STATUS;
input [2:0] PIPERX1STATUS;
input [2:0] PIPERX2STATUS;
input [2:0] PIPERX3STATUS;
input [2:0] PIPERX4STATUS;
input [2:0] PIPERX5STATUS;
input [2:0] PIPERX6STATUS;
input [2:0] PIPERX7STATUS;
input [31:0] CFGEXTREADDATA;
input [31:0] CFGINTERRUPTMSIINT;
input [31:0] CFGINTERRUPTMSIXDATA;
input [31:0] CFGMGMTWRITEDATA;
input [31:0] CFGMSGTRANSMITDATA;
input [31:0] CFGTPHSTTREADDATA;
input [31:0] PIPERX0DATA;
input [31:0] PIPERX1DATA;
input [31:0] PIPERX2DATA;
input [31:0] PIPERX3DATA;
input [31:0] PIPERX4DATA;
input [31:0] PIPERX5DATA;
input [31:0] PIPERX6DATA;
input [31:0] PIPERX7DATA;
input [32:0] SAXISCCTUSER;
input [3:0] CFGINTERRUPTINT;
input [3:0] CFGINTERRUPTMSISELECT;
input [3:0] CFGMGMTBYTEENABLE;
input [4:0] CFGDSDEVICENUMBER;
input [59:0] SAXISRQTUSER;
input [5:0] CFGVFFLRDONE;
input [5:0] PIPEEQFS;
input [5:0] PIPEEQLF;
input [63:0] CFGDSN;
input [63:0] CFGINTERRUPTMSIPENDINGSTATUS;
input [63:0] CFGINTERRUPTMSIXADDRESS;
input [7:0] CFGDSBUSNUMBER;
input [7:0] CFGDSPORTNUMBER;
input [7:0] CFGREVID;
input [7:0] PLGEN3PCSRXSYNCDONE;
input [7:0] SAXISCCTKEEP;
input [7:0] SAXISRQTKEEP;
input [8:0] CFGINTERRUPTMSITPHSTTAG;
endmodule
module XADC (...);
parameter [15:0] INIT_40 = 16'h0;
parameter [15:0] INIT_41 = 16'h0;
parameter [15:0] INIT_42 = 16'h0800;
parameter [15:0] INIT_43 = 16'h0;
parameter [15:0] INIT_44 = 16'h0;
parameter [15:0] INIT_45 = 16'h0;
parameter [15:0] INIT_46 = 16'h0;
parameter [15:0] INIT_47 = 16'h0;
parameter [15:0] INIT_48 = 16'h0;
parameter [15:0] INIT_49 = 16'h0;
parameter [15:0] INIT_4A = 16'h0;
parameter [15:0] INIT_4B = 16'h0;
parameter [15:0] INIT_4C = 16'h0;
parameter [15:0] INIT_4D = 16'h0;
parameter [15:0] INIT_4E = 16'h0;
parameter [15:0] INIT_4F = 16'h0;
parameter [15:0] INIT_50 = 16'h0;
parameter [15:0] INIT_51 = 16'h0;
parameter [15:0] INIT_52 = 16'h0;
parameter [15:0] INIT_53 = 16'h0;
parameter [15:0] INIT_54 = 16'h0;
parameter [15:0] INIT_55 = 16'h0;
parameter [15:0] INIT_56 = 16'h0;
parameter [15:0] INIT_57 = 16'h0;
parameter [15:0] INIT_58 = 16'h0;
parameter [15:0] INIT_59 = 16'h0;
parameter [15:0] INIT_5A = 16'h0;
parameter [15:0] INIT_5B = 16'h0;
parameter [15:0] INIT_5C = 16'h0;
parameter [15:0] INIT_5D = 16'h0;
parameter [15:0] INIT_5E = 16'h0;
parameter [15:0] INIT_5F = 16'h0;
parameter IS_CONVSTCLK_INVERTED = 1'b0;
parameter IS_DCLK_INVERTED = 1'b0;
parameter SIM_DEVICE = "7SERIES";
parameter SIM_MONITOR_FILE = "design.txt";
output BUSY;
output DRDY;
output EOC;
output EOS;
output JTAGBUSY;
output JTAGLOCKED;
output JTAGMODIFIED;
output OT;
output [15:0] DO;
output [7:0] ALM;
output [4:0] CHANNEL;
output [4:0] MUXADDR;
input CONVST;
(* invertible_pin = "IS_CONVSTCLK_INVERTED" *)
input CONVSTCLK;
(* invertible_pin = "IS_DCLK_INVERTED" *)
input DCLK;
input DEN;
input DWE;
input RESET;
input VN;
input VP;
input [15:0] DI;
input [15:0] VAUXN;
input [15:0] VAUXP;
input [6:0] DADDR;
endmodule
module DSP48E1 (...);
parameter integer ACASCREG = 1;
parameter integer ADREG = 1;
parameter integer ALUMODEREG = 1;
parameter integer AREG = 1;
parameter AUTORESET_PATDET = "NO_RESET";
parameter A_INPUT = "DIRECT";
parameter integer BCASCREG = 1;
parameter integer BREG = 1;
parameter B_INPUT = "DIRECT";
parameter integer CARRYINREG = 1;
parameter integer CARRYINSELREG = 1;
parameter integer CREG = 1;
parameter integer DREG = 1;
parameter integer INMODEREG = 1;
parameter integer MREG = 1;
parameter integer OPMODEREG = 1;
parameter integer PREG = 1;
parameter SEL_MASK = "MASK";
parameter SEL_PATTERN = "PATTERN";
parameter USE_DPORT = "FALSE";
parameter USE_MULT = "MULTIPLY";
parameter USE_PATTERN_DETECT = "NO_PATDET";
parameter USE_SIMD = "ONE48";
parameter [47:0] MASK = 48'h3FFFFFFFFFFF;
parameter [47:0] PATTERN = 48'h000000000000;
parameter [3:0] IS_ALUMODE_INVERTED = 4'b0;
parameter [0:0] IS_CARRYIN_INVERTED = 1'b0;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
parameter [4:0] IS_INMODE_INVERTED = 5'b0;
parameter [6:0] IS_OPMODE_INVERTED = 7'b0;
output [29:0] ACOUT;
output [17:0] BCOUT;
output CARRYCASCOUT;
output [3:0] CARRYOUT;
output MULTSIGNOUT;
output OVERFLOW;
output [47:0] P;
output PATTERNBDETECT;
output PATTERNDETECT;
output [47:0] PCOUT;
output UNDERFLOW;
input [29:0] A;
input [29:0] ACIN;
(* invertible_pin = "IS_ALUMODE_INVERTED" *)
input [3:0] ALUMODE;
input [17:0] B;
input [17:0] BCIN;
input [47:0] C;
input CARRYCASCIN;
(* invertible_pin = "IS_CARRYIN_INVERTED" *)
input CARRYIN;
input [2:0] CARRYINSEL;
input CEA1;
input CEA2;
input CEAD;
input CEALUMODE;
input CEB1;
input CEB2;
input CEC;
input CECARRYIN;
input CECTRL;
input CED;
input CEINMODE;
input CEM;
input CEP;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLK_INVERTED" *)
input CLK;
input [24:0] D;
(* invertible_pin = "IS_INMODE_INVERTED" *)
input [4:0] INMODE;
input MULTSIGNIN;
(* invertible_pin = "IS_OPMODE_INVERTED" *)
input [6:0] OPMODE;
input [47:0] PCIN;
input RSTA;
input RSTALLCARRYIN;
input RSTALUMODE;
input RSTB;
input RSTC;
input RSTCTRL;
input RSTD;
input RSTINMODE;
input RSTM;
input RSTP;
endmodule
module BUFGCE (...);
parameter CE_TYPE = "SYNC";
parameter [0:0] IS_CE_INVERTED = 1'b0;
parameter [0:0] IS_I_INVERTED = 1'b0;
(* clkbuf_driver *)
output O;
(* invertible_pin = "IS_CE_INVERTED" *)
input CE;
(* invertible_pin = "IS_I_INVERTED" *)
input I;
endmodule
module BUFGCE_1 (...);
(* clkbuf_driver *)
output O;
input CE;
input I;
endmodule
module BUFGMUX (...);
parameter CLK_SEL_TYPE = "SYNC";
(* clkbuf_driver *)
output O;
input I0;
input I1;
input S;
endmodule
module BUFGMUX_1 (...);
parameter CLK_SEL_TYPE = "SYNC";
(* clkbuf_driver *)
output O;
input I0;
input I1;
input S;
endmodule
module BUFGMUX_CTRL (...);
(* clkbuf_driver *)
output O;
input I0;
input I1;
input S;
endmodule
module BUFH (...);
(* clkbuf_driver *)
output O;
input I;
endmodule
module BUFIO (...);
(* clkbuf_driver *)
output O;
input I;
endmodule
module BUFMR (...);
(* clkbuf_driver *)
output O;
input I;
endmodule
module BUFMRCE (...);
parameter CE_TYPE = "SYNC";
parameter integer INIT_OUT = 0;
parameter [0:0] IS_CE_INVERTED = 1'b0;
(* clkbuf_driver *)
output O;
(* invertible_pin = "IS_CE_INVERTED" *)
input CE;
input I;
endmodule
module BUFR (...);
parameter BUFR_DIVIDE = "BYPASS";
parameter SIM_DEVICE = "7SERIES";
(* clkbuf_driver *)
output O;
input CE;
input CLR;
input I;
endmodule
module MMCME2_ADV (...);
parameter BANDWIDTH = "OPTIMIZED";
parameter real CLKFBOUT_MULT_F = 5.000;
parameter real CLKFBOUT_PHASE = 0.000;
parameter CLKFBOUT_USE_FINE_PS = "FALSE";
parameter real CLKIN1_PERIOD = 0.000;
parameter real CLKIN2_PERIOD = 0.000;
parameter real CLKIN_FREQ_MAX = 1066.000;
parameter real CLKIN_FREQ_MIN = 10.000;
parameter real CLKOUT0_DIVIDE_F = 1.000;
parameter real CLKOUT0_DUTY_CYCLE = 0.500;
parameter real CLKOUT0_PHASE = 0.000;
parameter CLKOUT0_USE_FINE_PS = "FALSE";
parameter integer CLKOUT1_DIVIDE = 1;
parameter real CLKOUT1_DUTY_CYCLE = 0.500;
parameter real CLKOUT1_PHASE = 0.000;
parameter CLKOUT1_USE_FINE_PS = "FALSE";
parameter integer CLKOUT2_DIVIDE = 1;
parameter real CLKOUT2_DUTY_CYCLE = 0.500;
parameter real CLKOUT2_PHASE = 0.000;
parameter CLKOUT2_USE_FINE_PS = "FALSE";
parameter integer CLKOUT3_DIVIDE = 1;
parameter real CLKOUT3_DUTY_CYCLE = 0.500;
parameter real CLKOUT3_PHASE = 0.000;
parameter CLKOUT3_USE_FINE_PS = "FALSE";
parameter CLKOUT4_CASCADE = "FALSE";
parameter integer CLKOUT4_DIVIDE = 1;
parameter real CLKOUT4_DUTY_CYCLE = 0.500;
parameter real CLKOUT4_PHASE = 0.000;
parameter CLKOUT4_USE_FINE_PS = "FALSE";
parameter integer CLKOUT5_DIVIDE = 1;
parameter real CLKOUT5_DUTY_CYCLE = 0.500;
parameter real CLKOUT5_PHASE = 0.000;
parameter CLKOUT5_USE_FINE_PS = "FALSE";
parameter integer CLKOUT6_DIVIDE = 1;
parameter real CLKOUT6_DUTY_CYCLE = 0.500;
parameter real CLKOUT6_PHASE = 0.000;
parameter CLKOUT6_USE_FINE_PS = "FALSE";
parameter real CLKPFD_FREQ_MAX = 550.000;
parameter real CLKPFD_FREQ_MIN = 10.000;
parameter COMPENSATION = "ZHOLD";
parameter integer DIVCLK_DIVIDE = 1;
parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0;
parameter [0:0] IS_PSEN_INVERTED = 1'b0;
parameter [0:0] IS_PSINCDEC_INVERTED = 1'b0;
parameter [0:0] IS_PWRDWN_INVERTED = 1'b0;
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real REF_JITTER1 = 0.010;
parameter real REF_JITTER2 = 0.010;
parameter SS_EN = "FALSE";
parameter SS_MODE = "CENTER_HIGH";
parameter integer SS_MOD_PERIOD = 10000;
parameter STARTUP_WAIT = "FALSE";
parameter real VCOCLK_FREQ_MAX = 1600.000;
parameter real VCOCLK_FREQ_MIN = 600.000;
parameter STARTUP_WAIT = "FALSE";
output CLKFBOUT;
output CLKFBOUTB;
output CLKFBSTOPPED;
output CLKINSTOPPED;
output CLKOUT0;
output CLKOUT0B;
output CLKOUT1;
output CLKOUT1B;
output CLKOUT2;
output CLKOUT2B;
output CLKOUT3;
output CLKOUT3B;
output CLKOUT4;
output CLKOUT5;
output CLKOUT6;
output [15:0] DO;
output DRDY;
output LOCKED;
output PSDONE;
input CLKFBIN;
input CLKIN1;
input CLKIN2;
(* invertible_pin = "IS_CLKINSEL_INVERTED" *)
input CLKINSEL;
input [6:0] DADDR;
input DCLK;
input DEN;
input [15:0] DI;
input DWE;
input PSCLK;
(* invertible_pin = "IS_PSEN_INVERTED" *)
input PSEN;
(* invertible_pin = "IS_PSINCDEC_INVERTED" *)
input PSINCDEC;
(* invertible_pin = "IS_PWRDWN_INVERTED" *)
input PWRDWN;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
endmodule
module MMCME2_BASE (...);
parameter BANDWIDTH = "OPTIMIZED";
parameter real CLKFBOUT_MULT_F = 5.000;
parameter real CLKFBOUT_PHASE = 0.000;
parameter real CLKIN1_PERIOD = 0.000;
parameter real CLKOUT0_DIVIDE_F = 1.000;
parameter real CLKOUT0_DUTY_CYCLE = 0.500;
parameter real CLKOUT0_PHASE = 0.000;
parameter integer CLKOUT1_DIVIDE = 1;
parameter real CLKOUT1_DUTY_CYCLE = 0.500;
parameter real CLKOUT1_PHASE = 0.000;
parameter integer CLKOUT2_DIVIDE = 1;
parameter real CLKOUT2_DUTY_CYCLE = 0.500;
parameter real CLKOUT2_PHASE = 0.000;
parameter integer CLKOUT3_DIVIDE = 1;
parameter real CLKOUT3_DUTY_CYCLE = 0.500;
parameter real CLKOUT3_PHASE = 0.000;
parameter CLKOUT4_CASCADE = "FALSE";
parameter integer CLKOUT4_DIVIDE = 1;
parameter real CLKOUT4_DUTY_CYCLE = 0.500;
parameter real CLKOUT4_PHASE = 0.000;
parameter integer CLKOUT5_DIVIDE = 1;
parameter real CLKOUT5_DUTY_CYCLE = 0.500;
parameter real CLKOUT5_PHASE = 0.000;
parameter integer CLKOUT6_DIVIDE = 1;
parameter real CLKOUT6_DUTY_CYCLE = 0.500;
parameter real CLKOUT6_PHASE = 0.000;
parameter integer DIVCLK_DIVIDE = 1;
parameter real REF_JITTER1 = 0.010;
parameter STARTUP_WAIT = "FALSE";
output CLKFBOUT;
output CLKFBOUTB;
output CLKOUT0;
output CLKOUT0B;
output CLKOUT1;
output CLKOUT1B;
output CLKOUT2;
output CLKOUT2B;
output CLKOUT3;
output CLKOUT3B;
output CLKOUT4;
output CLKOUT5;
output CLKOUT6;
output LOCKED;
input CLKFBIN;
input CLKIN1;
input PWRDWN;
input RST;
endmodule
module PLLE2_ADV (...);
parameter BANDWIDTH = "OPTIMIZED";
parameter COMPENSATION = "ZHOLD";
parameter STARTUP_WAIT = "FALSE";
parameter integer CLKOUT0_DIVIDE = 1;
parameter integer CLKOUT1_DIVIDE = 1;
parameter integer CLKOUT2_DIVIDE = 1;
parameter integer CLKOUT3_DIVIDE = 1;
parameter integer CLKOUT4_DIVIDE = 1;
parameter integer CLKOUT5_DIVIDE = 1;
parameter integer DIVCLK_DIVIDE = 1;
parameter integer CLKFBOUT_MULT = 5;
parameter real CLKFBOUT_PHASE = 0.000;
parameter real CLKIN1_PERIOD = 0.000;
parameter real CLKIN2_PERIOD = 0.000;
parameter real CLKOUT0_DUTY_CYCLE = 0.500;
parameter real CLKOUT0_PHASE = 0.000;
parameter real CLKOUT1_DUTY_CYCLE = 0.500;
parameter real CLKOUT1_PHASE = 0.000;
parameter real CLKOUT2_DUTY_CYCLE = 0.500;
parameter real CLKOUT2_PHASE = 0.000;
parameter real CLKOUT3_DUTY_CYCLE = 0.500;
parameter real CLKOUT3_PHASE = 0.000;
parameter real CLKOUT4_DUTY_CYCLE = 0.500;
parameter real CLKOUT4_PHASE = 0.000;
parameter real CLKOUT5_DUTY_CYCLE = 0.500;
parameter real CLKOUT5_PHASE = 0.000;
parameter [0:0] IS_CLKINSEL_INVERTED = 1'b0;
parameter [0:0] IS_PWRDWN_INVERTED = 1'b0;
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real REF_JITTER1 = 0.010;
parameter real REF_JITTER2 = 0.010;
parameter real VCOCLK_FREQ_MAX = 2133.000;
parameter real VCOCLK_FREQ_MIN = 800.000;
parameter real CLKIN_FREQ_MAX = 1066.000;
parameter real CLKIN_FREQ_MIN = 19.000;
parameter real CLKPFD_FREQ_MAX = 550.0;
parameter real CLKPFD_FREQ_MIN = 19.0;
output CLKFBOUT;
output CLKOUT0;
output CLKOUT1;
output CLKOUT2;
output CLKOUT3;
output CLKOUT4;
output CLKOUT5;
output DRDY;
output LOCKED;
output [15:0] DO;
input CLKFBIN;
input CLKIN1;
input CLKIN2;
(* invertible_pin = "IS_CLKINSEL_INVERTED" *)
input CLKINSEL;
input DCLK;
input DEN;
input DWE;
(* invertible_pin = "IS_PWRDWN_INVERTED" *)
input PWRDWN;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
input [15:0] DI;
input [6:0] DADDR;
endmodule
module PLLE2_BASE (...);
parameter BANDWIDTH = "OPTIMIZED";
parameter integer CLKFBOUT_MULT = 5;
parameter real CLKFBOUT_PHASE = 0.000;
parameter real CLKIN1_PERIOD = 0.000;
parameter integer CLKOUT0_DIVIDE = 1;
parameter real CLKOUT0_DUTY_CYCLE = 0.500;
parameter real CLKOUT0_PHASE = 0.000;
parameter integer CLKOUT1_DIVIDE = 1;
parameter real CLKOUT1_DUTY_CYCLE = 0.500;
parameter real CLKOUT1_PHASE = 0.000;
parameter integer CLKOUT2_DIVIDE = 1;
parameter real CLKOUT2_DUTY_CYCLE = 0.500;
parameter real CLKOUT2_PHASE = 0.000;
parameter integer CLKOUT3_DIVIDE = 1;
parameter real CLKOUT3_DUTY_CYCLE = 0.500;
parameter real CLKOUT3_PHASE = 0.000;
parameter integer CLKOUT4_DIVIDE = 1;
parameter real CLKOUT4_DUTY_CYCLE = 0.500;
parameter real CLKOUT4_PHASE = 0.000;
parameter integer CLKOUT5_DIVIDE = 1;
parameter real CLKOUT5_DUTY_CYCLE = 0.500;
parameter real CLKOUT5_PHASE = 0.000;
parameter integer DIVCLK_DIVIDE = 1;
parameter real REF_JITTER1 = 0.010;
parameter STARTUP_WAIT = "FALSE";
output CLKFBOUT;
output CLKOUT0;
output CLKOUT1;
output CLKOUT2;
output CLKOUT3;
output CLKOUT4;
output CLKOUT5;
output LOCKED;
input CLKFBIN;
input CLKIN1;
input PWRDWN;
input RST;
endmodule
(* keep *)
module BSCANE2 (...);
parameter DISABLE_JTAG = "FALSE";
parameter integer JTAG_CHAIN = 1;
output CAPTURE;
output DRCK;
output RESET;
output RUNTEST;
output SEL;
output SHIFT;
output TCK;
output TDI;
output TMS;
output UPDATE;
input TDO;
endmodule
(* keep *)
module CAPTUREE2 (...);
parameter ONESHOT = "TRUE";
input CAP;
input CLK;
endmodule
module DNA_PORT (...);
parameter [56:0] SIM_DNA_VALUE = 57'h0;
output DOUT;
input CLK;
input DIN;
input READ;
input SHIFT;
endmodule
module EFUSE_USR (...);
parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000;
output [31:0] EFUSEUSR;
endmodule
module FRAME_ECCE2 (...);
parameter FARSRC = "EFAR";
parameter FRAME_RBT_IN_FILENAME = "NONE";
output CRCERROR;
output ECCERROR;
output ECCERRORSINGLE;
output SYNDROMEVALID;
output [12:0] SYNDROME;
output [25:0] FAR;
output [4:0] SYNBIT;
output [6:0] SYNWORD;
endmodule
(* keep *)
module ICAPE2 (...);
parameter [31:0] DEVICE_ID = 32'h04244093;
parameter ICAP_WIDTH = "X32";
parameter SIM_CFG_FILE_NAME = "NONE";
output [31:0] O;
input CLK;
input CSIB;
input RDWRB;
input [31:0] I;
endmodule
(* keep *)
module STARTUPE2 (...);
parameter PROG_USR = "FALSE";
parameter real SIM_CCLK_FREQ = 0.0;
output CFGCLK;
output CFGMCLK;
output EOS;
output PREQ;
input CLK;
input GSR;
input GTS;
input KEYCLEARB;
input PACK;
input USRCCLKO;
input USRCCLKTS;
input USRDONEO;
input USRDONETS;
endmodule
module USR_ACCESSE2 (...);
output CFGCLK;
output DATAVALID;
output [31:0] DATA;
endmodule
(* keep *)
module DCIRESET (...);
output LOCKED;
input RST;
endmodule
module IBUF_IBUFDISABLE (...);
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
input I;
input IBUFDISABLE;
endmodule
module IBUF_INTERMDISABLE (...);
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
input I;
input IBUFDISABLE;
input INTERMDISABLE;
endmodule
module IBUFDS (...);
parameter CAPACITANCE = "DONT_CARE";
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_DELAY_VALUE = "0";
parameter IBUF_LOW_PWR = "TRUE";
parameter IFD_DELAY_VALUE = "AUTO";
parameter IOSTANDARD = "DEFAULT";
output O;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
endmodule
module IBUFDS_DIFF_OUT (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
output O;
output OB;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
endmodule
module IBUFDS_DIFF_OUT_IBUFDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
output OB;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
input IBUFDISABLE;
endmodule
module IBUFDS_DIFF_OUT_INTERMDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
output OB;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
input IBUFDISABLE;
input INTERMDISABLE;
endmodule
module IBUFDS_GTE2 (...);
parameter CLKCM_CFG = "TRUE";
parameter CLKRCV_TRST = "TRUE";
parameter CLKSWING_CFG = "TRUE";
output O;
output ODIV2;
input CEB;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
endmodule
module IBUFDS_IBUFDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
input IBUFDISABLE;
endmodule
module IBUFDS_INTERMDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
input IBUFDISABLE;
input INTERMDISABLE;
endmodule
module IBUFG (...);
parameter CAPACITANCE = "DONT_CARE";
parameter IBUF_DELAY_VALUE = "0";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
output O;
(* iopad_external_pin *)
input I;
endmodule
module IBUFGDS (...);
parameter CAPACITANCE = "DONT_CARE";
parameter DIFF_TERM = "FALSE";
parameter IBUF_DELAY_VALUE = "0";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
output O;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
endmodule
module IBUFGDS_DIFF_OUT (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
output O;
output OB;
(* iopad_external_pin *)
input I;
(* iopad_external_pin *)
input IB;
endmodule
(* keep *)
module IDELAYCTRL (...);
parameter SIM_DEVICE = "7SERIES";
output RDY;
(* clkbuf_sink *)
input REFCLK;
input RST;
endmodule
module IDELAYE2 (...);
parameter CINVCTRL_SEL = "FALSE";
parameter DELAY_SRC = "IDATAIN";
parameter HIGH_PERFORMANCE_MODE = "FALSE";
parameter IDELAY_TYPE = "FIXED";
parameter integer IDELAY_VALUE = 0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_DATAIN_INVERTED = 1'b0;
parameter [0:0] IS_IDATAIN_INVERTED = 1'b0;
parameter PIPE_SEL = "FALSE";
parameter real REFCLK_FREQUENCY = 200.0;
parameter SIGNAL_PATTERN = "DATA";
parameter integer SIM_DELAY_D = 0;
output [4:0] CNTVALUEOUT;
output DATAOUT;
(* clkbuf_sink *)
(* invertible_pin = "IS_C_INVERTED" *)
input C;
input CE;
input CINVCTRL;
input [4:0] CNTVALUEIN;
(* invertible_pin = "IS_DATAIN_INVERTED" *)
input DATAIN;
(* invertible_pin = "IS_IDATAIN_INVERTED" *)
input IDATAIN;
input INC;
input LD;
input LDPIPEEN;
input REGRST;
endmodule
module IN_FIFO (...);
parameter integer ALMOST_EMPTY_VALUE = 1;
parameter integer ALMOST_FULL_VALUE = 1;
parameter ARRAY_MODE = "ARRAY_MODE_4_X_8";
parameter SYNCHRONOUS_MODE = "FALSE";
output ALMOSTEMPTY;
output ALMOSTFULL;
output EMPTY;
output FULL;
output [7:0] Q0;
output [7:0] Q1;
output [7:0] Q2;
output [7:0] Q3;
output [7:0] Q4;
output [7:0] Q5;
output [7:0] Q6;
output [7:0] Q7;
output [7:0] Q8;
output [7:0] Q9;
(* clkbuf_sink *)
input RDCLK;
input RDEN;
input RESET;
(* clkbuf_sink *)
input WRCLK;
input WREN;
input [3:0] D0;
input [3:0] D1;
input [3:0] D2;
input [3:0] D3;
input [3:0] D4;
input [3:0] D7;
input [3:0] D8;
input [3:0] D9;
input [7:0] D5;
input [7:0] D6;
endmodule
module IOBUF (...);
parameter integer DRIVE = 12;
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SLEW = "SLOW";
output O;
(* iopad_external_pin *)
inout IO;
input I;
input T;
endmodule
module IOBUF_DCIEN (...);
parameter integer DRIVE = 12;
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter SLEW = "SLOW";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
inout IO;
input DCITERMDISABLE;
input I;
input IBUFDISABLE;
input T;
endmodule
module IOBUF_INTERMDISABLE (...);
parameter integer DRIVE = 12;
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter SLEW = "SLOW";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
inout IO;
input I;
input IBUFDISABLE;
input INTERMDISABLE;
input T;
endmodule
module IOBUFDS (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SLEW = "SLOW";
output O;
(* iopad_external_pin *)
inout IO;
inout IOB;
input I;
input T;
endmodule
module IOBUFDS_DCIEN (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter SLEW = "SLOW";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
inout IO;
(* iopad_external_pin *)
inout IOB;
input DCITERMDISABLE;
input I;
input IBUFDISABLE;
input T;
endmodule
module IOBUFDS_DIFF_OUT (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
output O;
output OB;
(* iopad_external_pin *)
inout IO;
(* iopad_external_pin *)
inout IOB;
input I;
input TM;
input TS;
endmodule
module IOBUFDS_DIFF_OUT_DCIEN (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
output OB;
(* iopad_external_pin *)
inout IO;
(* iopad_external_pin *)
inout IOB;
input DCITERMDISABLE;
input I;
input IBUFDISABLE;
input TM;
input TS;
endmodule
module IOBUFDS_DIFF_OUT_INTERMDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter USE_IBUFDISABLE = "TRUE";
output O;
output OB;
(* iopad_external_pin *)
inout IO;
(* iopad_external_pin *)
inout IOB;
input I;
input IBUFDISABLE;
input INTERMDISABLE;
input TM;
input TS;
endmodule
module IOBUFDS_INTERMDISABLE (...);
parameter DIFF_TERM = "FALSE";
parameter DQS_BIAS = "FALSE";
parameter IBUF_LOW_PWR = "TRUE";
parameter IOSTANDARD = "DEFAULT";
parameter SIM_DEVICE = "7SERIES";
parameter SLEW = "SLOW";
parameter USE_IBUFDISABLE = "TRUE";
output O;
(* iopad_external_pin *)
inout IO;
(* iopad_external_pin *)
inout IOB;
input I;
input IBUFDISABLE;
input INTERMDISABLE;
input T;
endmodule
module ISERDESE2 (...);
parameter DATA_RATE = "DDR";
parameter integer DATA_WIDTH = 4;
parameter DYN_CLKDIV_INV_EN = "FALSE";
parameter DYN_CLK_INV_EN = "FALSE";
parameter [0:0] INIT_Q1 = 1'b0;
parameter [0:0] INIT_Q2 = 1'b0;
parameter [0:0] INIT_Q3 = 1'b0;
parameter [0:0] INIT_Q4 = 1'b0;
parameter INTERFACE_TYPE = "MEMORY";
parameter IOBDELAY = "NONE";
parameter [0:0] IS_CLKB_INVERTED = 1'b0;
parameter [0:0] IS_CLKDIVP_INVERTED = 1'b0;
parameter [0:0] IS_CLKDIV_INVERTED = 1'b0;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter [0:0] IS_OCLKB_INVERTED = 1'b0;
parameter [0:0] IS_OCLK_INVERTED = 1'b0;
parameter integer NUM_CE = 2;
parameter OFB_USED = "FALSE";
parameter SERDES_MODE = "MASTER";
parameter [0:0] SRVAL_Q1 = 1'b0;
parameter [0:0] SRVAL_Q2 = 1'b0;
parameter [0:0] SRVAL_Q3 = 1'b0;
parameter [0:0] SRVAL_Q4 = 1'b0;
output O;
output Q1;
output Q2;
output Q3;
output Q4;
output Q5;
output Q6;
output Q7;
output Q8;
output SHIFTOUT1;
output SHIFTOUT2;
input BITSLIP;
input CE1;
input CE2;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLK_INVERTED" *)
input CLK;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLKB_INVERTED" *)
input CLKB;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLKDIV_INVERTED" *)
input CLKDIV;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLKDIVP_INVERTED" *)
input CLKDIVP;
(* invertible_pin = "IS_D_INVERTED" *)
input D;
input DDLY;
input DYNCLKDIVSEL;
input DYNCLKSEL;
(* clkbuf_sink *)
(* invertible_pin = "IS_OCLK_INVERTED" *)
input OCLK;
(* clkbuf_sink *)
(* invertible_pin = "IS_OCLKB_INVERTED" *)
input OCLKB;
input OFB;
input RST;
input SHIFTIN1;
input SHIFTIN2;
endmodule
module KEEPER (...);
inout O;
endmodule
module OBUFDS (...);
parameter CAPACITANCE = "DONT_CARE";
parameter IOSTANDARD = "DEFAULT";
parameter SLEW = "SLOW";
(* iopad_external_pin *)
output O;
(* iopad_external_pin *)
output OB;
input I;
endmodule
module OBUFT (...);
parameter CAPACITANCE = "DONT_CARE";
parameter integer DRIVE = 12;
parameter IOSTANDARD = "DEFAULT";
parameter SLEW = "SLOW";
(* iopad_external_pin *)
output O;
input I;
input T;
endmodule
module OBUFTDS (...);
parameter CAPACITANCE = "DONT_CARE";
parameter IOSTANDARD = "DEFAULT";
parameter SLEW = "SLOW";
(* iopad_external_pin *)
output O;
(* iopad_external_pin *)
output OB;
input I;
input T;
endmodule
module ODELAYE2 (...);
parameter CINVCTRL_SEL = "FALSE";
parameter DELAY_SRC = "ODATAIN";
parameter HIGH_PERFORMANCE_MODE = "FALSE";
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_ODATAIN_INVERTED = 1'b0;
parameter ODELAY_TYPE = "FIXED";
parameter integer ODELAY_VALUE = 0;
parameter PIPE_SEL = "FALSE";
parameter real REFCLK_FREQUENCY = 200.0;
parameter SIGNAL_PATTERN = "DATA";
parameter integer SIM_DELAY_D = 0;
output [4:0] CNTVALUEOUT;
output DATAOUT;
(* clkbuf_sink *)
(* invertible_pin = "IS_C_INVERTED" *)
input C;
input CE;
input CINVCTRL;
input CLKIN;
input [4:0] CNTVALUEIN;
input INC;
input LD;
input LDPIPEEN;
(* invertible_pin = "IS_ODATAIN_INVERTED" *)
input ODATAIN;
input REGRST;
endmodule
module OSERDESE2 (...);
parameter DATA_RATE_OQ = "DDR";
parameter DATA_RATE_TQ = "DDR";
parameter integer DATA_WIDTH = 4;
parameter [0:0] INIT_OQ = 1'b0;
parameter [0:0] INIT_TQ = 1'b0;
parameter [0:0] IS_CLKDIV_INVERTED = 1'b0;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
parameter [0:0] IS_D1_INVERTED = 1'b0;
parameter [0:0] IS_D2_INVERTED = 1'b0;
parameter [0:0] IS_D3_INVERTED = 1'b0;
parameter [0:0] IS_D4_INVERTED = 1'b0;
parameter [0:0] IS_D5_INVERTED = 1'b0;
parameter [0:0] IS_D6_INVERTED = 1'b0;
parameter [0:0] IS_D7_INVERTED = 1'b0;
parameter [0:0] IS_D8_INVERTED = 1'b0;
parameter [0:0] IS_T1_INVERTED = 1'b0;
parameter [0:0] IS_T2_INVERTED = 1'b0;
parameter [0:0] IS_T3_INVERTED = 1'b0;
parameter [0:0] IS_T4_INVERTED = 1'b0;
parameter SERDES_MODE = "MASTER";
parameter [0:0] SRVAL_OQ = 1'b0;
parameter [0:0] SRVAL_TQ = 1'b0;
parameter TBYTE_CTL = "FALSE";
parameter TBYTE_SRC = "FALSE";
parameter integer TRISTATE_WIDTH = 4;
output OFB;
output OQ;
output SHIFTOUT1;
output SHIFTOUT2;
output TBYTEOUT;
output TFB;
output TQ;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLK_INVERTED" *)
input CLK;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLKDIV_INVERTED" *)
input CLKDIV;
(* invertible_pin = "IS_D1_INVERTED" *)
input D1;
(* invertible_pin = "IS_D2_INVERTED" *)
input D2;
(* invertible_pin = "IS_D3_INVERTED" *)
input D3;
(* invertible_pin = "IS_D4_INVERTED" *)
input D4;
(* invertible_pin = "IS_D5_INVERTED" *)
input D5;
(* invertible_pin = "IS_D6_INVERTED" *)
input D6;
(* invertible_pin = "IS_D7_INVERTED" *)
input D7;
(* invertible_pin = "IS_D8_INVERTED" *)
input D8;
input OCE;
input RST;
input SHIFTIN1;
input SHIFTIN2;
(* invertible_pin = "IS_T1_INVERTED" *)
input T1;
(* invertible_pin = "IS_T2_INVERTED" *)
input T2;
(* invertible_pin = "IS_T3_INVERTED" *)
input T3;
(* invertible_pin = "IS_T4_INVERTED" *)
input T4;
input TBYTEIN;
input TCE;
endmodule
module OUT_FIFO (...);
parameter integer ALMOST_EMPTY_VALUE = 1;
parameter integer ALMOST_FULL_VALUE = 1;
parameter ARRAY_MODE = "ARRAY_MODE_8_X_4";
parameter OUTPUT_DISABLE = "FALSE";
parameter SYNCHRONOUS_MODE = "FALSE";
output ALMOSTEMPTY;
output ALMOSTFULL;
output EMPTY;
output FULL;
output [3:0] Q0;
output [3:0] Q1;
output [3:0] Q2;
output [3:0] Q3;
output [3:0] Q4;
output [3:0] Q7;
output [3:0] Q8;
output [3:0] Q9;
output [7:0] Q5;
output [7:0] Q6;
(* clkbuf_sink *)
input RDCLK;
input RDEN;
input RESET;
(* clkbuf_sink *)
input WRCLK;
input WREN;
input [7:0] D0;
input [7:0] D1;
input [7:0] D2;
input [7:0] D3;
input [7:0] D4;
input [7:0] D5;
input [7:0] D6;
input [7:0] D7;
input [7:0] D8;
input [7:0] D9;
endmodule
module PHASER_IN (...);
parameter integer CLKOUT_DIV = 4;
parameter DQS_BIAS_MODE = "FALSE";
parameter EN_ISERDES_RST = "FALSE";
parameter integer FINE_DELAY = 0;
parameter FREQ_REF_DIV = "NONE";
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real MEMREFCLK_PERIOD = 0.000;
parameter OUTPUT_CLK_SRC = "PHASE_REF";
parameter real PHASEREFCLK_PERIOD = 0.000;
parameter real REFCLK_PERIOD = 0.000;
parameter integer SEL_CLK_OFFSET = 5;
parameter SYNC_IN_DIV_RST = "FALSE";
output FINEOVERFLOW;
output ICLK;
output ICLKDIV;
output ISERDESRST;
output RCLK;
output [5:0] COUNTERREADVAL;
input COUNTERLOADEN;
input COUNTERREADEN;
input DIVIDERST;
input EDGEADV;
input FINEENABLE;
input FINEINC;
input FREQREFCLK;
input MEMREFCLK;
input PHASEREFCLK;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
input SYNCIN;
input SYSCLK;
input [1:0] RANKSEL;
input [5:0] COUNTERLOADVAL;
endmodule
module PHASER_IN_PHY (...);
parameter BURST_MODE = "FALSE";
parameter integer CLKOUT_DIV = 4;
parameter [0:0] DQS_AUTO_RECAL = 1'b1;
parameter DQS_BIAS_MODE = "FALSE";
parameter [2:0] DQS_FIND_PATTERN = 3'b001;
parameter integer FINE_DELAY = 0;
parameter FREQ_REF_DIV = "NONE";
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real MEMREFCLK_PERIOD = 0.000;
parameter OUTPUT_CLK_SRC = "PHASE_REF";
parameter real PHASEREFCLK_PERIOD = 0.000;
parameter real REFCLK_PERIOD = 0.000;
parameter integer SEL_CLK_OFFSET = 5;
parameter SYNC_IN_DIV_RST = "FALSE";
parameter WR_CYCLES = "FALSE";
output DQSFOUND;
output DQSOUTOFRANGE;
output FINEOVERFLOW;
output ICLK;
output ICLKDIV;
output ISERDESRST;
output PHASELOCKED;
output RCLK;
output WRENABLE;
output [5:0] COUNTERREADVAL;
input BURSTPENDINGPHY;
input COUNTERLOADEN;
input COUNTERREADEN;
input FINEENABLE;
input FINEINC;
input FREQREFCLK;
input MEMREFCLK;
input PHASEREFCLK;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
input RSTDQSFIND;
input SYNCIN;
input SYSCLK;
input [1:0] ENCALIBPHY;
input [1:0] RANKSELPHY;
input [5:0] COUNTERLOADVAL;
endmodule
module PHASER_OUT (...);
parameter integer CLKOUT_DIV = 4;
parameter COARSE_BYPASS = "FALSE";
parameter integer COARSE_DELAY = 0;
parameter EN_OSERDES_RST = "FALSE";
parameter integer FINE_DELAY = 0;
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real MEMREFCLK_PERIOD = 0.000;
parameter OCLKDELAY_INV = "FALSE";
parameter integer OCLK_DELAY = 0;
parameter OUTPUT_CLK_SRC = "PHASE_REF";
parameter real PHASEREFCLK_PERIOD = 0.000;
parameter [2:0] PO = 3'b000;
parameter real REFCLK_PERIOD = 0.000;
parameter SYNC_IN_DIV_RST = "FALSE";
output COARSEOVERFLOW;
output FINEOVERFLOW;
output OCLK;
output OCLKDELAYED;
output OCLKDIV;
output OSERDESRST;
output [8:0] COUNTERREADVAL;
input COARSEENABLE;
input COARSEINC;
input COUNTERLOADEN;
input COUNTERREADEN;
input DIVIDERST;
input EDGEADV;
input FINEENABLE;
input FINEINC;
input FREQREFCLK;
input MEMREFCLK;
input PHASEREFCLK;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
input SELFINEOCLKDELAY;
input SYNCIN;
input SYSCLK;
input [8:0] COUNTERLOADVAL;
endmodule
module PHASER_OUT_PHY (...);
parameter integer CLKOUT_DIV = 4;
parameter COARSE_BYPASS = "FALSE";
parameter integer COARSE_DELAY = 0;
parameter DATA_CTL_N = "FALSE";
parameter DATA_RD_CYCLES = "FALSE";
parameter integer FINE_DELAY = 0;
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter real MEMREFCLK_PERIOD = 0.000;
parameter OCLKDELAY_INV = "FALSE";
parameter integer OCLK_DELAY = 0;
parameter OUTPUT_CLK_SRC = "PHASE_REF";
parameter real PHASEREFCLK_PERIOD = 0.000;
parameter [2:0] PO = 3'b000;
parameter real REFCLK_PERIOD = 0.000;
parameter SYNC_IN_DIV_RST = "FALSE";
output COARSEOVERFLOW;
output FINEOVERFLOW;
output OCLK;
output OCLKDELAYED;
output OCLKDIV;
output OSERDESRST;
output RDENABLE;
output [1:0] CTSBUS;
output [1:0] DQSBUS;
output [1:0] DTSBUS;
output [8:0] COUNTERREADVAL;
input BURSTPENDINGPHY;
input COARSEENABLE;
input COARSEINC;
input COUNTERLOADEN;
input COUNTERREADEN;
input FINEENABLE;
input FINEINC;
input FREQREFCLK;
input MEMREFCLK;
input PHASEREFCLK;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
input SELFINEOCLKDELAY;
input SYNCIN;
input SYSCLK;
input [1:0] ENCALIBPHY;
input [8:0] COUNTERLOADVAL;
endmodule
module PHASER_REF (...);
parameter [0:0] IS_RST_INVERTED = 1'b0;
parameter [0:0] IS_PWRDWN_INVERTED = 1'b0;
output LOCKED;
input CLKIN;
(* invertible_pin = "IS_PWRDWN_INVERTED" *)
input PWRDWN;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
endmodule
module PHY_CONTROL (...);
parameter integer AO_TOGGLE = 0;
parameter [3:0] AO_WRLVL_EN = 4'b0000;
parameter BURST_MODE = "FALSE";
parameter integer CLK_RATIO = 1;
parameter integer CMD_OFFSET = 0;
parameter integer CO_DURATION = 0;
parameter DATA_CTL_A_N = "FALSE";
parameter DATA_CTL_B_N = "FALSE";
parameter DATA_CTL_C_N = "FALSE";
parameter DATA_CTL_D_N = "FALSE";
parameter DISABLE_SEQ_MATCH = "TRUE";
parameter integer DI_DURATION = 0;
parameter integer DO_DURATION = 0;
parameter integer EVENTS_DELAY = 63;
parameter integer FOUR_WINDOW_CLOCKS = 63;
parameter MULTI_REGION = "FALSE";
parameter PHY_COUNT_ENABLE = "FALSE";
parameter integer RD_CMD_OFFSET_0 = 0;
parameter integer RD_CMD_OFFSET_1 = 00;
parameter integer RD_CMD_OFFSET_2 = 0;
parameter integer RD_CMD_OFFSET_3 = 0;
parameter integer RD_DURATION_0 = 0;
parameter integer RD_DURATION_1 = 0;
parameter integer RD_DURATION_2 = 0;
parameter integer RD_DURATION_3 = 0;
parameter SYNC_MODE = "FALSE";
parameter integer WR_CMD_OFFSET_0 = 0;
parameter integer WR_CMD_OFFSET_1 = 0;
parameter integer WR_CMD_OFFSET_2 = 0;
parameter integer WR_CMD_OFFSET_3 = 0;
parameter integer WR_DURATION_0 = 0;
parameter integer WR_DURATION_1 = 0;
parameter integer WR_DURATION_2 = 0;
parameter integer WR_DURATION_3 = 0;
output PHYCTLALMOSTFULL;
output PHYCTLEMPTY;
output PHYCTLFULL;
output PHYCTLREADY;
output [1:0] INRANKA;
output [1:0] INRANKB;
output [1:0] INRANKC;
output [1:0] INRANKD;
output [1:0] PCENABLECALIB;
output [3:0] AUXOUTPUT;
output [3:0] INBURSTPENDING;
output [3:0] OUTBURSTPENDING;
input MEMREFCLK;
input PHYCLK;
input PHYCTLMSTREMPTY;
input PHYCTLWRENABLE;
input PLLLOCK;
input READCALIBENABLE;
input REFDLLLOCK;
input RESET;
input SYNCIN;
input WRITECALIBENABLE;
input [31:0] PHYCTLWD;
endmodule
module PULLDOWN (...);
output O;
endmodule
module PULLUP (...);
output O;
endmodule
module FIFO18E1 (...);
parameter ALMOST_EMPTY_OFFSET = 13'h0080;
parameter ALMOST_FULL_OFFSET = 13'h0080;
parameter integer DATA_WIDTH = 4;
parameter integer DO_REG = 1;
parameter EN_SYN = "FALSE";
parameter FIFO_MODE = "FIFO18";
parameter FIRST_WORD_FALL_THROUGH = "FALSE";
parameter INIT = 36'h0;
parameter SIM_DEVICE = "VIRTEX6";
parameter SRVAL = 36'h0;
parameter IS_RDCLK_INVERTED = 1'b0;
parameter IS_RDEN_INVERTED = 1'b0;
parameter IS_RSTREG_INVERTED = 1'b0;
parameter IS_RST_INVERTED = 1'b0;
parameter IS_WRCLK_INVERTED = 1'b0;
parameter IS_WREN_INVERTED = 1'b0;
output ALMOSTEMPTY;
output ALMOSTFULL;
output [31:0] DO;
output [3:0] DOP;
output EMPTY;
output FULL;
output [11:0] RDCOUNT;
output RDERR;
output [11:0] WRCOUNT;
output WRERR;
input [31:0] DI;
input [3:0] DIP;
(* clkbuf_sink *)
(* invertible_pin = "IS_RDCLK_INVERTED" *)
input RDCLK;
(* invertible_pin = "IS_RDEN_INVERTED" *)
input RDEN;
input REGCE;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
(* invertible_pin = "IS_RSTREG_INVERTED" *)
input RSTREG;
(* clkbuf_sink *)
(* invertible_pin = "IS_WRCLK_INVERTED" *)
input WRCLK;
(* invertible_pin = "IS_WREN_INVERTED" *)
input WREN;
endmodule
module FIFO36E1 (...);
parameter ALMOST_EMPTY_OFFSET = 13'h0080;
parameter ALMOST_FULL_OFFSET = 13'h0080;
parameter integer DATA_WIDTH = 4;
parameter integer DO_REG = 1;
parameter EN_ECC_READ = "FALSE";
parameter EN_ECC_WRITE = "FALSE";
parameter EN_SYN = "FALSE";
parameter FIFO_MODE = "FIFO36";
parameter FIRST_WORD_FALL_THROUGH = "FALSE";
parameter INIT = 72'h0;
parameter SIM_DEVICE = "VIRTEX6";
parameter SRVAL = 72'h0;
parameter IS_RDCLK_INVERTED = 1'b0;
parameter IS_RDEN_INVERTED = 1'b0;
parameter IS_RSTREG_INVERTED = 1'b0;
parameter IS_RST_INVERTED = 1'b0;
parameter IS_WRCLK_INVERTED = 1'b0;
parameter IS_WREN_INVERTED = 1'b0;
output ALMOSTEMPTY;
output ALMOSTFULL;
output DBITERR;
output [63:0] DO;
output [7:0] DOP;
output [7:0] ECCPARITY;
output EMPTY;
output FULL;
output [12:0] RDCOUNT;
output RDERR;
output SBITERR;
output [12:0] WRCOUNT;
output WRERR;
input [63:0] DI;
input [7:0] DIP;
input INJECTDBITERR;
input INJECTSBITERR;
(* clkbuf_sink *)
(* invertible_pin = "IS_RDCLK_INVERTED" *)
input RDCLK;
(* invertible_pin = "IS_RDEN_INVERTED" *)
input RDEN;
input REGCE;
(* invertible_pin = "IS_RST_INVERTED" *)
input RST;
(* invertible_pin = "IS_RSTREG_INVERTED" *)
input RSTREG;
(* clkbuf_sink *)
(* invertible_pin = "IS_WRCLK_INVERTED" *)
input WRCLK;
(* invertible_pin = "IS_WREN_INVERTED" *)
input WREN;
endmodule
module RAM128X1S (...);
parameter [127:0] INIT = 128'h00000000000000000000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input A6;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM256X1S (...);
parameter [255:0] INIT = 256'h0;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input [7:0] A;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM32M (...);
parameter [63:0] INIT_A = 64'h0000000000000000;
parameter [63:0] INIT_B = 64'h0000000000000000;
parameter [63:0] INIT_C = 64'h0000000000000000;
parameter [63:0] INIT_D = 64'h0000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output [1:0] DOA;
output [1:0] DOB;
output [1:0] DOC;
output [1:0] DOD;
input [4:0] ADDRA;
input [4:0] ADDRB;
input [4:0] ADDRC;
input [4:0] ADDRD;
input [1:0] DIA;
input [1:0] DIB;
input [1:0] DIC;
input [1:0] DID;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM32X1S (...);
parameter [31:0] INIT = 32'h00000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM32X1S_1 (...);
parameter [31:0] INIT = 32'h00000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM32X2S (...);
parameter [31:0] INIT_00 = 32'h00000000;
parameter [31:0] INIT_01 = 32'h00000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O0;
output O1;
input A0;
input A1;
input A2;
input A3;
input A4;
input D0;
input D1;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM64M (...);
parameter [63:0] INIT_A = 64'h0000000000000000;
parameter [63:0] INIT_B = 64'h0000000000000000;
parameter [63:0] INIT_C = 64'h0000000000000000;
parameter [63:0] INIT_D = 64'h0000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output DOA;
output DOB;
output DOC;
output DOD;
input [5:0] ADDRA;
input [5:0] ADDRB;
input [5:0] ADDRC;
input [5:0] ADDRD;
input DIA;
input DIB;
input DIC;
input DID;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM64X1S (...);
parameter [63:0] INIT = 64'h0000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM64X1S_1 (...);
parameter [63:0] INIT = 64'h0000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input D;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module RAM64X2S (...);
parameter [63:0] INIT_00 = 64'h0000000000000000;
parameter [63:0] INIT_01 = 64'h0000000000000000;
parameter [0:0] IS_WCLK_INVERTED = 1'b0;
output O0;
output O1;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input D0;
input D1;
(* clkbuf_sink *)
(* invertible_pin = "IS_WCLK_INVERTED" *)
input WCLK;
input WE;
endmodule
module ROM128X1 (...);
parameter [127:0] INIT = 128'h00000000000000000000000000000000;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input A6;
endmodule
module ROM256X1 (...);
parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
input A6;
input A7;
endmodule
module ROM32X1 (...);
parameter [31:0] INIT = 32'h00000000;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
endmodule
module ROM64X1 (...);
parameter [63:0] INIT = 64'h0000000000000000;
output O;
input A0;
input A1;
input A2;
input A3;
input A4;
input A5;
endmodule
module IDDR (...);
parameter DDR_CLK_EDGE = "OPPOSITE_EDGE";
parameter INIT_Q1 = 1'b0;
parameter INIT_Q2 = 1'b0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter SRTYPE = "SYNC";
parameter MSGON = "TRUE";
parameter XON = "TRUE";
output Q1;
output Q2;
(* clkbuf_sink *)
(* invertible_pin = "IS_C_INVERTED" *)
input C;
input CE;
(* invertible_pin = "IS_D_INVERTED" *)
input D;
input R;
input S;
endmodule
module IDDR_2CLK (...);
parameter DDR_CLK_EDGE = "OPPOSITE_EDGE";
parameter INIT_Q1 = 1'b0;
parameter INIT_Q2 = 1'b0;
parameter [0:0] IS_CB_INVERTED = 1'b0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter SRTYPE = "SYNC";
output Q1;
output Q2;
(* clkbuf_sink *)
(* invertible_pin = "IS_C_INVERTED" *)
input C;
(* clkbuf_sink *)
(* invertible_pin = "IS_CB_INVERTED" *)
input CB;
input CE;
(* invertible_pin = "IS_D_INVERTED" *)
input D;
input R;
input S;
endmodule
module ODDR (...);
parameter DDR_CLK_EDGE = "OPPOSITE_EDGE";
parameter INIT = 1'b0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D1_INVERTED = 1'b0;
parameter [0:0] IS_D2_INVERTED = 1'b0;
parameter SRTYPE = "SYNC";
parameter MSGON = "TRUE";
parameter XON = "TRUE";
output Q;
(* clkbuf_sink *)
(* invertible_pin = "IS_C_INVERTED" *)
input C;
input CE;
(* invertible_pin = "IS_D1_INVERTED" *)
input D1;
(* invertible_pin = "IS_D2_INVERTED" *)
input D2;
input R;
input S;
endmodule
module CFGLUT5 (...);
parameter [31:0] INIT = 32'h00000000;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
output CDO;
output O5;
output O6;
input I4;
input I3;
input I2;
input I1;
input I0;
input CDI;
input CE;
(* clkbuf_sink *)
(* invertible_pin = "IS_CLK_INVERTED" *)
input CLK;
endmodule
(* keep *)
module PS7 (...);
output DMA0DAVALID;
output DMA0DRREADY;
output DMA0RSTN;
output DMA1DAVALID;
output DMA1DRREADY;
output DMA1RSTN;
output DMA2DAVALID;
output DMA2DRREADY;
output DMA2RSTN;
output DMA3DAVALID;
output DMA3DRREADY;
output DMA3RSTN;
output EMIOCAN0PHYTX;
output EMIOCAN1PHYTX;
output EMIOENET0GMIITXEN;
output EMIOENET0GMIITXER;
output EMIOENET0MDIOMDC;
output EMIOENET0MDIOO;
output EMIOENET0MDIOTN;
output EMIOENET0PTPDELAYREQRX;
output EMIOENET0PTPDELAYREQTX;
output EMIOENET0PTPPDELAYREQRX;
output EMIOENET0PTPPDELAYREQTX;
output EMIOENET0PTPPDELAYRESPRX;
output EMIOENET0PTPPDELAYRESPTX;
output EMIOENET0PTPSYNCFRAMERX;
output EMIOENET0PTPSYNCFRAMETX;
output EMIOENET0SOFRX;
output EMIOENET0SOFTX;
output EMIOENET1GMIITXEN;
output EMIOENET1GMIITXER;
output EMIOENET1MDIOMDC;
output EMIOENET1MDIOO;
output EMIOENET1MDIOTN;
output EMIOENET1PTPDELAYREQRX;
output EMIOENET1PTPDELAYREQTX;
output EMIOENET1PTPPDELAYREQRX;
output EMIOENET1PTPPDELAYREQTX;
output EMIOENET1PTPPDELAYRESPRX;
output EMIOENET1PTPPDELAYRESPTX;
output EMIOENET1PTPSYNCFRAMERX;
output EMIOENET1PTPSYNCFRAMETX;
output EMIOENET1SOFRX;
output EMIOENET1SOFTX;
output EMIOI2C0SCLO;
output EMIOI2C0SCLTN;
output EMIOI2C0SDAO;
output EMIOI2C0SDATN;
output EMIOI2C1SCLO;
output EMIOI2C1SCLTN;
output EMIOI2C1SDAO;
output EMIOI2C1SDATN;
output EMIOPJTAGTDO;
output EMIOPJTAGTDTN;
output EMIOSDIO0BUSPOW;
output EMIOSDIO0CLK;
output EMIOSDIO0CMDO;
output EMIOSDIO0CMDTN;
output EMIOSDIO0LED;
output EMIOSDIO1BUSPOW;
output EMIOSDIO1CLK;
output EMIOSDIO1CMDO;
output EMIOSDIO1CMDTN;
output EMIOSDIO1LED;
output EMIOSPI0MO;
output EMIOSPI0MOTN;
output EMIOSPI0SCLKO;
output EMIOSPI0SCLKTN;
output EMIOSPI0SO;
output EMIOSPI0SSNTN;
output EMIOSPI0STN;
output EMIOSPI1MO;
output EMIOSPI1MOTN;
output EMIOSPI1SCLKO;
output EMIOSPI1SCLKTN;
output EMIOSPI1SO;
output EMIOSPI1SSNTN;
output EMIOSPI1STN;
output EMIOTRACECTL;
output EMIOUART0DTRN;
output EMIOUART0RTSN;
output EMIOUART0TX;
output EMIOUART1DTRN;
output EMIOUART1RTSN;
output EMIOUART1TX;
output EMIOUSB0VBUSPWRSELECT;
output EMIOUSB1VBUSPWRSELECT;
output EMIOWDTRSTO;
output EVENTEVENTO;
output MAXIGP0ARESETN;
output MAXIGP0ARVALID;
output MAXIGP0AWVALID;
output MAXIGP0BREADY;
output MAXIGP0RREADY;
output MAXIGP0WLAST;
output MAXIGP0WVALID;
output MAXIGP1ARESETN;
output MAXIGP1ARVALID;
output MAXIGP1AWVALID;
output MAXIGP1BREADY;
output MAXIGP1RREADY;
output MAXIGP1WLAST;
output MAXIGP1WVALID;
output SAXIACPARESETN;
output SAXIACPARREADY;
output SAXIACPAWREADY;
output SAXIACPBVALID;
output SAXIACPRLAST;
output SAXIACPRVALID;
output SAXIACPWREADY;
output SAXIGP0ARESETN;
output SAXIGP0ARREADY;
output SAXIGP0AWREADY;
output SAXIGP0BVALID;
output SAXIGP0RLAST;
output SAXIGP0RVALID;
output SAXIGP0WREADY;
output SAXIGP1ARESETN;
output SAXIGP1ARREADY;
output SAXIGP1AWREADY;
output SAXIGP1BVALID;
output SAXIGP1RLAST;
output SAXIGP1RVALID;
output SAXIGP1WREADY;
output SAXIHP0ARESETN;
output SAXIHP0ARREADY;
output SAXIHP0AWREADY;
output SAXIHP0BVALID;
output SAXIHP0RLAST;
output SAXIHP0RVALID;
output SAXIHP0WREADY;
output SAXIHP1ARESETN;
output SAXIHP1ARREADY;
output SAXIHP1AWREADY;
output SAXIHP1BVALID;
output SAXIHP1RLAST;
output SAXIHP1RVALID;
output SAXIHP1WREADY;
output SAXIHP2ARESETN;
output SAXIHP2ARREADY;
output SAXIHP2AWREADY;
output SAXIHP2BVALID;
output SAXIHP2RLAST;
output SAXIHP2RVALID;
output SAXIHP2WREADY;
output SAXIHP3ARESETN;
output SAXIHP3ARREADY;
output SAXIHP3AWREADY;
output SAXIHP3BVALID;
output SAXIHP3RLAST;
output SAXIHP3RVALID;
output SAXIHP3WREADY;
output [11:0] MAXIGP0ARID;
output [11:0] MAXIGP0AWID;
output [11:0] MAXIGP0WID;
output [11:0] MAXIGP1ARID;
output [11:0] MAXIGP1AWID;
output [11:0] MAXIGP1WID;
output [1:0] DMA0DATYPE;
output [1:0] DMA1DATYPE;
output [1:0] DMA2DATYPE;
output [1:0] DMA3DATYPE;
output [1:0] EMIOUSB0PORTINDCTL;
output [1:0] EMIOUSB1PORTINDCTL;
output [1:0] EVENTSTANDBYWFE;
output [1:0] EVENTSTANDBYWFI;
output [1:0] MAXIGP0ARBURST;
output [1:0] MAXIGP0ARLOCK;
output [1:0] MAXIGP0ARSIZE;
output [1:0] MAXIGP0AWBURST;
output [1:0] MAXIGP0AWLOCK;
output [1:0] MAXIGP0AWSIZE;
output [1:0] MAXIGP1ARBURST;
output [1:0] MAXIGP1ARLOCK;
output [1:0] MAXIGP1ARSIZE;
output [1:0] MAXIGP1AWBURST;
output [1:0] MAXIGP1AWLOCK;
output [1:0] MAXIGP1AWSIZE;
output [1:0] SAXIACPBRESP;
output [1:0] SAXIACPRRESP;
output [1:0] SAXIGP0BRESP;
output [1:0] SAXIGP0RRESP;
output [1:0] SAXIGP1BRESP;
output [1:0] SAXIGP1RRESP;
output [1:0] SAXIHP0BRESP;
output [1:0] SAXIHP0RRESP;
output [1:0] SAXIHP1BRESP;
output [1:0] SAXIHP1RRESP;
output [1:0] SAXIHP2BRESP;
output [1:0] SAXIHP2RRESP;
output [1:0] SAXIHP3BRESP;
output [1:0] SAXIHP3RRESP;
output [28:0] IRQP2F;
output [2:0] EMIOSDIO0BUSVOLT;
output [2:0] EMIOSDIO1BUSVOLT;
output [2:0] EMIOSPI0SSON;
output [2:0] EMIOSPI1SSON;
output [2:0] EMIOTTC0WAVEO;
output [2:0] EMIOTTC1WAVEO;
output [2:0] MAXIGP0ARPROT;
output [2:0] MAXIGP0AWPROT;
output [2:0] MAXIGP1ARPROT;
output [2:0] MAXIGP1AWPROT;
output [2:0] SAXIACPBID;
output [2:0] SAXIACPRID;
output [2:0] SAXIHP0RACOUNT;
output [2:0] SAXIHP1RACOUNT;
output [2:0] SAXIHP2RACOUNT;
output [2:0] SAXIHP3RACOUNT;
output [31:0] EMIOTRACEDATA;
output [31:0] FTMTP2FDEBUG;
output [31:0] MAXIGP0ARADDR;
output [31:0] MAXIGP0AWADDR;
output [31:0] MAXIGP0WDATA;
output [31:0] MAXIGP1ARADDR;
output [31:0] MAXIGP1AWADDR;
output [31:0] MAXIGP1WDATA;
output [31:0] SAXIGP0RDATA;
output [31:0] SAXIGP1RDATA;
output [3:0] EMIOSDIO0DATAO;
output [3:0] EMIOSDIO0DATATN;
output [3:0] EMIOSDIO1DATAO;
output [3:0] EMIOSDIO1DATATN;
output [3:0] FCLKCLK;
output [3:0] FCLKRESETN;
output [3:0] FTMTF2PTRIGACK;
output [3:0] FTMTP2FTRIG;
output [3:0] MAXIGP0ARCACHE;
output [3:0] MAXIGP0ARLEN;
output [3:0] MAXIGP0ARQOS;
output [3:0] MAXIGP0AWCACHE;
output [3:0] MAXIGP0AWLEN;
output [3:0] MAXIGP0AWQOS;
output [3:0] MAXIGP0WSTRB;
output [3:0] MAXIGP1ARCACHE;
output [3:0] MAXIGP1ARLEN;
output [3:0] MAXIGP1ARQOS;
output [3:0] MAXIGP1AWCACHE;
output [3:0] MAXIGP1AWLEN;
output [3:0] MAXIGP1AWQOS;
output [3:0] MAXIGP1WSTRB;
output [5:0] SAXIGP0BID;
output [5:0] SAXIGP0RID;
output [5:0] SAXIGP1BID;
output [5:0] SAXIGP1RID;
output [5:0] SAXIHP0BID;
output [5:0] SAXIHP0RID;
output [5:0] SAXIHP0WACOUNT;
output [5:0] SAXIHP1BID;
output [5:0] SAXIHP1RID;
output [5:0] SAXIHP1WACOUNT;
output [5:0] SAXIHP2BID;
output [5:0] SAXIHP2RID;
output [5:0] SAXIHP2WACOUNT;
output [5:0] SAXIHP3BID;
output [5:0] SAXIHP3RID;
output [5:0] SAXIHP3WACOUNT;
output [63:0] EMIOGPIOO;
output [63:0] EMIOGPIOTN;
output [63:0] SAXIACPRDATA;
output [63:0] SAXIHP0RDATA;
output [63:0] SAXIHP1RDATA;
output [63:0] SAXIHP2RDATA;
output [63:0] SAXIHP3RDATA;
output [7:0] EMIOENET0GMIITXD;
output [7:0] EMIOENET1GMIITXD;
output [7:0] SAXIHP0RCOUNT;
output [7:0] SAXIHP0WCOUNT;
output [7:0] SAXIHP1RCOUNT;
output [7:0] SAXIHP1WCOUNT;
output [7:0] SAXIHP2RCOUNT;
output [7:0] SAXIHP2WCOUNT;
output [7:0] SAXIHP3RCOUNT;
output [7:0] SAXIHP3WCOUNT;
inout DDRCASB;
inout DDRCKE;
inout DDRCKN;
inout DDRCKP;
inout DDRCSB;
inout DDRDRSTB;
inout DDRODT;
inout DDRRASB;
inout DDRVRN;
inout DDRVRP;
inout DDRWEB;
inout PSCLK;
inout PSPORB;
inout PSSRSTB;
inout [14:0] DDRA;
inout [2:0] DDRBA;
inout [31:0] DDRDQ;
inout [3:0] DDRDM;
inout [3:0] DDRDQSN;
inout [3:0] DDRDQSP;
inout [53:0] MIO;
input DMA0ACLK;
input DMA0DAREADY;
input DMA0DRLAST;
input DMA0DRVALID;
input DMA1ACLK;
input DMA1DAREADY;
input DMA1DRLAST;
input DMA1DRVALID;
input DMA2ACLK;
input DMA2DAREADY;
input DMA2DRLAST;
input DMA2DRVALID;
input DMA3ACLK;
input DMA3DAREADY;
input DMA3DRLAST;
input DMA3DRVALID;
input EMIOCAN0PHYRX;
input EMIOCAN1PHYRX;
input EMIOENET0EXTINTIN;
input EMIOENET0GMIICOL;
input EMIOENET0GMIICRS;
input EMIOENET0GMIIRXCLK;
input EMIOENET0GMIIRXDV;
input EMIOENET0GMIIRXER;
input EMIOENET0GMIITXCLK;
input EMIOENET0MDIOI;
input EMIOENET1EXTINTIN;
input EMIOENET1GMIICOL;
input EMIOENET1GMIICRS;
input EMIOENET1GMIIRXCLK;
input EMIOENET1GMIIRXDV;
input EMIOENET1GMIIRXER;
input EMIOENET1GMIITXCLK;
input EMIOENET1MDIOI;
input EMIOI2C0SCLI;
input EMIOI2C0SDAI;
input EMIOI2C1SCLI;
input EMIOI2C1SDAI;
input EMIOPJTAGTCK;
input EMIOPJTAGTDI;
input EMIOPJTAGTMS;
input EMIOSDIO0CDN;
input EMIOSDIO0CLKFB;
input EMIOSDIO0CMDI;
input EMIOSDIO0WP;
input EMIOSDIO1CDN;
input EMIOSDIO1CLKFB;
input EMIOSDIO1CMDI;
input EMIOSDIO1WP;
input EMIOSPI0MI;
input EMIOSPI0SCLKI;
input EMIOSPI0SI;
input EMIOSPI0SSIN;
input EMIOSPI1MI;
input EMIOSPI1SCLKI;
input EMIOSPI1SI;
input EMIOSPI1SSIN;
input EMIOSRAMINTIN;
input EMIOTRACECLK;
input EMIOUART0CTSN;
input EMIOUART0DCDN;
input EMIOUART0DSRN;
input EMIOUART0RIN;
input EMIOUART0RX;
input EMIOUART1CTSN;
input EMIOUART1DCDN;
input EMIOUART1DSRN;
input EMIOUART1RIN;
input EMIOUART1RX;
input EMIOUSB0VBUSPWRFAULT;
input EMIOUSB1VBUSPWRFAULT;
input EMIOWDTCLKI;
input EVENTEVENTI;
input FPGAIDLEN;
input FTMDTRACEINCLOCK;
input FTMDTRACEINVALID;
input MAXIGP0ACLK;
input MAXIGP0ARREADY;
input MAXIGP0AWREADY;
input MAXIGP0BVALID;
input MAXIGP0RLAST;
input MAXIGP0RVALID;
input MAXIGP0WREADY;
input MAXIGP1ACLK;
input MAXIGP1ARREADY;
input MAXIGP1AWREADY;
input MAXIGP1BVALID;
input MAXIGP1RLAST;
input MAXIGP1RVALID;
input MAXIGP1WREADY;
input SAXIACPACLK;
input SAXIACPARVALID;
input SAXIACPAWVALID;
input SAXIACPBREADY;
input SAXIACPRREADY;
input SAXIACPWLAST;
input SAXIACPWVALID;
input SAXIGP0ACLK;
input SAXIGP0ARVALID;
input SAXIGP0AWVALID;
input SAXIGP0BREADY;
input SAXIGP0RREADY;
input SAXIGP0WLAST;
input SAXIGP0WVALID;
input SAXIGP1ACLK;
input SAXIGP1ARVALID;
input SAXIGP1AWVALID;
input SAXIGP1BREADY;
input SAXIGP1RREADY;
input SAXIGP1WLAST;
input SAXIGP1WVALID;
input SAXIHP0ACLK;
input SAXIHP0ARVALID;
input SAXIHP0AWVALID;
input SAXIHP0BREADY;
input SAXIHP0RDISSUECAP1EN;
input SAXIHP0RREADY;
input SAXIHP0WLAST;
input SAXIHP0WRISSUECAP1EN;
input SAXIHP0WVALID;
input SAXIHP1ACLK;
input SAXIHP1ARVALID;
input SAXIHP1AWVALID;
input SAXIHP1BREADY;
input SAXIHP1RDISSUECAP1EN;
input SAXIHP1RREADY;
input SAXIHP1WLAST;
input SAXIHP1WRISSUECAP1EN;
input SAXIHP1WVALID;
input SAXIHP2ACLK;
input SAXIHP2ARVALID;
input SAXIHP2AWVALID;
input SAXIHP2BREADY;
input SAXIHP2RDISSUECAP1EN;
input SAXIHP2RREADY;
input SAXIHP2WLAST;
input SAXIHP2WRISSUECAP1EN;
input SAXIHP2WVALID;
input SAXIHP3ACLK;
input SAXIHP3ARVALID;
input SAXIHP3AWVALID;
input SAXIHP3BREADY;
input SAXIHP3RDISSUECAP1EN;
input SAXIHP3RREADY;
input SAXIHP3WLAST;
input SAXIHP3WRISSUECAP1EN;
input SAXIHP3WVALID;
input [11:0] MAXIGP0BID;
input [11:0] MAXIGP0RID;
input [11:0] MAXIGP1BID;
input [11:0] MAXIGP1RID;
input [19:0] IRQF2P;
input [1:0] DMA0DRTYPE;
input [1:0] DMA1DRTYPE;
input [1:0] DMA2DRTYPE;
input [1:0] DMA3DRTYPE;
input [1:0] MAXIGP0BRESP;
input [1:0] MAXIGP0RRESP;
input [1:0] MAXIGP1BRESP;
input [1:0] MAXIGP1RRESP;
input [1:0] SAXIACPARBURST;
input [1:0] SAXIACPARLOCK;
input [1:0] SAXIACPARSIZE;
input [1:0] SAXIACPAWBURST;
input [1:0] SAXIACPAWLOCK;
input [1:0] SAXIACPAWSIZE;
input [1:0] SAXIGP0ARBURST;
input [1:0] SAXIGP0ARLOCK;
input [1:0] SAXIGP0ARSIZE;
input [1:0] SAXIGP0AWBURST;
input [1:0] SAXIGP0AWLOCK;
input [1:0] SAXIGP0AWSIZE;
input [1:0] SAXIGP1ARBURST;
input [1:0] SAXIGP1ARLOCK;
input [1:0] SAXIGP1ARSIZE;
input [1:0] SAXIGP1AWBURST;
input [1:0] SAXIGP1AWLOCK;
input [1:0] SAXIGP1AWSIZE;
input [1:0] SAXIHP0ARBURST;
input [1:0] SAXIHP0ARLOCK;
input [1:0] SAXIHP0ARSIZE;
input [1:0] SAXIHP0AWBURST;
input [1:0] SAXIHP0AWLOCK;
input [1:0] SAXIHP0AWSIZE;
input [1:0] SAXIHP1ARBURST;
input [1:0] SAXIHP1ARLOCK;
input [1:0] SAXIHP1ARSIZE;
input [1:0] SAXIHP1AWBURST;
input [1:0] SAXIHP1AWLOCK;
input [1:0] SAXIHP1AWSIZE;
input [1:0] SAXIHP2ARBURST;
input [1:0] SAXIHP2ARLOCK;
input [1:0] SAXIHP2ARSIZE;
input [1:0] SAXIHP2AWBURST;
input [1:0] SAXIHP2AWLOCK;
input [1:0] SAXIHP2AWSIZE;
input [1:0] SAXIHP3ARBURST;
input [1:0] SAXIHP3ARLOCK;
input [1:0] SAXIHP3ARSIZE;
input [1:0] SAXIHP3AWBURST;
input [1:0] SAXIHP3AWLOCK;
input [1:0] SAXIHP3AWSIZE;
input [2:0] EMIOTTC0CLKI;
input [2:0] EMIOTTC1CLKI;
input [2:0] SAXIACPARID;
input [2:0] SAXIACPARPROT;
input [2:0] SAXIACPAWID;
input [2:0] SAXIACPAWPROT;
input [2:0] SAXIACPWID;
input [2:0] SAXIGP0ARPROT;
input [2:0] SAXIGP0AWPROT;
input [2:0] SAXIGP1ARPROT;
input [2:0] SAXIGP1AWPROT;
input [2:0] SAXIHP0ARPROT;
input [2:0] SAXIHP0AWPROT;
input [2:0] SAXIHP1ARPROT;
input [2:0] SAXIHP1AWPROT;
input [2:0] SAXIHP2ARPROT;
input [2:0] SAXIHP2AWPROT;
input [2:0] SAXIHP3ARPROT;
input [2:0] SAXIHP3AWPROT;
input [31:0] FTMDTRACEINDATA;
input [31:0] FTMTF2PDEBUG;
input [31:0] MAXIGP0RDATA;
input [31:0] MAXIGP1RDATA;
input [31:0] SAXIACPARADDR;
input [31:0] SAXIACPAWADDR;
input [31:0] SAXIGP0ARADDR;
input [31:0] SAXIGP0AWADDR;
input [31:0] SAXIGP0WDATA;
input [31:0] SAXIGP1ARADDR;
input [31:0] SAXIGP1AWADDR;
input [31:0] SAXIGP1WDATA;
input [31:0] SAXIHP0ARADDR;
input [31:0] SAXIHP0AWADDR;
input [31:0] SAXIHP1ARADDR;
input [31:0] SAXIHP1AWADDR;
input [31:0] SAXIHP2ARADDR;
input [31:0] SAXIHP2AWADDR;
input [31:0] SAXIHP3ARADDR;
input [31:0] SAXIHP3AWADDR;
input [3:0] DDRARB;
input [3:0] EMIOSDIO0DATAI;
input [3:0] EMIOSDIO1DATAI;
input [3:0] FCLKCLKTRIGN;
input [3:0] FTMDTRACEINATID;
input [3:0] FTMTF2PTRIG;
input [3:0] FTMTP2FTRIGACK;
input [3:0] SAXIACPARCACHE;
input [3:0] SAXIACPARLEN;
input [3:0] SAXIACPARQOS;
input [3:0] SAXIACPAWCACHE;
input [3:0] SAXIACPAWLEN;
input [3:0] SAXIACPAWQOS;
input [3:0] SAXIGP0ARCACHE;
input [3:0] SAXIGP0ARLEN;
input [3:0] SAXIGP0ARQOS;
input [3:0] SAXIGP0AWCACHE;
input [3:0] SAXIGP0AWLEN;
input [3:0] SAXIGP0AWQOS;
input [3:0] SAXIGP0WSTRB;
input [3:0] SAXIGP1ARCACHE;
input [3:0] SAXIGP1ARLEN;
input [3:0] SAXIGP1ARQOS;
input [3:0] SAXIGP1AWCACHE;
input [3:0] SAXIGP1AWLEN;
input [3:0] SAXIGP1AWQOS;
input [3:0] SAXIGP1WSTRB;
input [3:0] SAXIHP0ARCACHE;
input [3:0] SAXIHP0ARLEN;
input [3:0] SAXIHP0ARQOS;
input [3:0] SAXIHP0AWCACHE;
input [3:0] SAXIHP0AWLEN;
input [3:0] SAXIHP0AWQOS;
input [3:0] SAXIHP1ARCACHE;
input [3:0] SAXIHP1ARLEN;
input [3:0] SAXIHP1ARQOS;
input [3:0] SAXIHP1AWCACHE;
input [3:0] SAXIHP1AWLEN;
input [3:0] SAXIHP1AWQOS;
input [3:0] SAXIHP2ARCACHE;
input [3:0] SAXIHP2ARLEN;
input [3:0] SAXIHP2ARQOS;
input [3:0] SAXIHP2AWCACHE;
input [3:0] SAXIHP2AWLEN;
input [3:0] SAXIHP2AWQOS;
input [3:0] SAXIHP3ARCACHE;
input [3:0] SAXIHP3ARLEN;
input [3:0] SAXIHP3ARQOS;
input [3:0] SAXIHP3AWCACHE;
input [3:0] SAXIHP3AWLEN;
input [3:0] SAXIHP3AWQOS;
input [4:0] SAXIACPARUSER;
input [4:0] SAXIACPAWUSER;
input [5:0] SAXIGP0ARID;
input [5:0] SAXIGP0AWID;
input [5:0] SAXIGP0WID;
input [5:0] SAXIGP1ARID;
input [5:0] SAXIGP1AWID;
input [5:0] SAXIGP1WID;
input [5:0] SAXIHP0ARID;
input [5:0] SAXIHP0AWID;
input [5:0] SAXIHP0WID;
input [5:0] SAXIHP1ARID;
input [5:0] SAXIHP1AWID;
input [5:0] SAXIHP1WID;
input [5:0] SAXIHP2ARID;
input [5:0] SAXIHP2AWID;
input [5:0] SAXIHP2WID;
input [5:0] SAXIHP3ARID;
input [5:0] SAXIHP3AWID;
input [5:0] SAXIHP3WID;
input [63:0] EMIOGPIOI;
input [63:0] SAXIACPWDATA;
input [63:0] SAXIHP0WDATA;
input [63:0] SAXIHP1WDATA;
input [63:0] SAXIHP2WDATA;
input [63:0] SAXIHP3WDATA;
input [7:0] EMIOENET0GMIIRXD;
input [7:0] EMIOENET1GMIIRXD;
input [7:0] SAXIACPWSTRB;
input [7:0] SAXIHP0WSTRB;
input [7:0] SAXIHP1WSTRB;
input [7:0] SAXIHP2WSTRB;
input [7:0] SAXIHP3WSTRB;
endmodule