// Created by cells_xtra.sh from Xilinx models (* 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 (* clkbuf_driver = "O" *) module BUFGCE (...); parameter CE_TYPE = "SYNC"; parameter [0:0] IS_CE_INVERTED = 1'b0; parameter [0:0] IS_I_INVERTED = 1'b0; output O; input CE; input I; endmodule (* clkbuf_driver = "O" *) module BUFGCE_1 (...); output O; input CE; input I; endmodule (* clkbuf_driver = "O" *) module BUFGMUX (...); parameter CLK_SEL_TYPE = "SYNC"; output O; input I0, I1, S; endmodule (* clkbuf_driver = "O" *) module BUFGMUX_1 (...); parameter CLK_SEL_TYPE = "SYNC"; output O; input I0, I1, S; endmodule (* clkbuf_driver = "O" *) module BUFGMUX_CTRL (...); output O; input I0; input I1; input S; endmodule (* clkbuf_driver = "O" *) module BUFH (...); output O; input I; endmodule (* clkbuf_driver = "O" *) module BUFIO (...); output O; input I; endmodule (* clkbuf_driver = "O" *) module BUFMR (...); output O; input I; endmodule (* clkbuf_driver = "O" *) module BUFMRCE (...); parameter CE_TYPE = "SYNC"; parameter integer INIT_OUT = 0; parameter [0:0] IS_CE_INVERTED = 1'b0; output O; input CE; input I; endmodule (* clkbuf_driver = "O" *) module BUFR (...); output O; input CE; input CLR; input I; parameter BUFR_DIVIDE = "BYPASS"; parameter SIM_DEVICE = "7SERIES"; endmodule (* keep *) module CAPTUREE2 (...); parameter ONESHOT = "TRUE"; input CAP; input CLK; endmodule (* clkbuf_sink = "CLK" *) module CFGLUT5 (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_CLK_INVERTED = 1'b0; output CDO; output O5; output O6; input I4, I3, I2, I1, I0; input CDI, CE, CLK; endmodule (* keep *) module DCIRESET (...); output LOCKED; input RST; endmodule module DNA_PORT (...); parameter [56:0] SIM_DNA_VALUE = 57'h0; output DOUT; input CLK, DIN, READ, SHIFT; endmodule (* clkbuf_sink = "CLK" *) 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; input [3:0] ALUMODE; input [17:0] B; input [17:0] BCIN; input [47:0] C; input CARRYCASCIN; 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; input CLK; input [24:0] D; input [4:0] INMODE; input MULTSIGNIN; 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 EFUSE_USR (...); parameter [31:0] SIM_EFUSE_VALUE = 32'h00000000; output [31:0] EFUSEUSR; endmodule (* clkbuf_sink = "RDCLK,WRCLK" *) 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; input RDCLK; input RDEN; input REGCE; input RST; input RSTREG; input WRCLK; input WREN; endmodule (* clkbuf_sink = "RDCLK,WRCLK" *) 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; input RDCLK; input RDEN; input REGCE; input RST; input RSTREG; input WRCLK; input WREN; 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 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; input CLKRSVD0; input CLKRSVD1; input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; input DMONFIFORESET; input DMONITORCLK; input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; 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; input RXUSRCLK2; input RXUSRCLK; input SETERRSTATUS; 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; 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; input TXUSRCLK2; 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; input DRPCLK; input DRPEN; input DRPWE; input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; 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; input CLKRSVD0; input CLKRSVD1; input DMONFIFORESET; input DMONITORCLK; 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; input RXUSRCLK2; input RXUSRCLK; input SETERRSTATUS; 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; 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; input TXUSRCLK2; 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; input DRPCLK; input DRPEN; input DRPWE; input GTEASTREFCLK0; input GTEASTREFCLK1; input GTGREFCLK0; input GTGREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTWESTREFCLK0; input GTWESTREFCLK1; input PLL0LOCKDETCLK; input PLL0LOCKEN; input PLL0PD; input PLL0RESET; 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; input CPLLLOCKDETCLK; input CPLLLOCKEN; input CPLLPD; input CPLLRESET; input DRPCLK; input DRPEN; input DRPWE; input EYESCANMODE; input EYESCANRESET; input EYESCANTRIGGER; 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; input RXUSRCLK2; 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; 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; input TXUSRCLK2; 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; input DRPCLK; input DRPEN; input DRPWE; input GTGREFCLK; input GTNORTHREFCLK0; input GTNORTHREFCLK1; input GTREFCLK0; input GTREFCLK1; input GTSOUTHREFCLK0; input GTSOUTHREFCLK1; 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 (* iopad_external_pin = "I" *) module IBUF_IBUFDISABLE (...); parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IBUFDISABLE; endmodule (* iopad_external_pin = "I" *) module IBUF_INTERMDISABLE (...); parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SIM_DEVICE = "7SERIES"; parameter USE_IBUFDISABLE = "TRUE"; output O; input I; input IBUFDISABLE; input INTERMDISABLE; endmodule (* iopad_external_pin = "I,IB" *) 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; input I, IB; endmodule (* iopad_external_pin = "I,IB" *) module IBUFDS_DIFF_OUT (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O, OB; input I, IB; endmodule (* iopad_external_pin = "I,IB" *) 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; input I; input IB; input IBUFDISABLE; endmodule (* iopad_external_pin = "I,IB" *) 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; input I; input IB; input IBUFDISABLE; input INTERMDISABLE; endmodule (* iopad_external_pin = "I,IB" *) module IBUFDS_GTE2 (...); parameter CLKCM_CFG = "TRUE"; parameter CLKRCV_TRST = "TRUE"; parameter CLKSWING_CFG = "TRUE"; output O; output ODIV2; input CEB; input I; input IB; endmodule (* iopad_external_pin = "I,IB" *) 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; input I; input IB; input IBUFDISABLE; endmodule (* iopad_external_pin = "I,IB" *) 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; input I; input IB; input IBUFDISABLE; input INTERMDISABLE; endmodule (* iopad_external_pin = "I" *) module IBUFG (...); parameter CAPACITANCE = "DONT_CARE"; parameter IBUF_DELAY_VALUE = "0"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O; input I; endmodule (* iopad_external_pin = "I,IB" *) 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; input I, IB; endmodule (* iopad_external_pin = "I,IB" *) module IBUFGDS_DIFF_OUT (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O, OB; input I, IB; 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 (* clkbuf_sink = "C" *) 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; input C; input CE; input D; input R; input S; endmodule (* clkbuf_sink = "C,CB" *) 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; input C; input CB; input CE; input D; input R; input S; endmodule (* keep *) (* clkbuf_sink = "REFCLK" *) module IDELAYCTRL (...); parameter SIM_DEVICE = "7SERIES"; output RDY; input REFCLK; input RST; endmodule (* clkbuf_sink = "C" *) 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; input C; input CE; input CINVCTRL; input [4:0] CNTVALUEIN; input DATAIN; input IDATAIN; input INC; input LD; input LDPIPEEN; input REGRST; endmodule (* clkbuf_sink = "RDCLK,WRCLK" *) 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; input RDCLK; input RDEN; input RESET; 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 (* iopad_external_pin = "IO" *) module IOBUF (...); parameter integer DRIVE = 12; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; inout IO; input I, T; endmodule (* iopad_external_pin = "IO" *) 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; inout IO; input DCITERMDISABLE; input I; input IBUFDISABLE; input T; endmodule (* iopad_external_pin = "IO" *) 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; inout IO; input I; input IBUFDISABLE; input INTERMDISABLE; input T; endmodule (* iopad_external_pin = "IO" *) module IOBUFDS (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; inout IO, IOB; input I, T; endmodule (* iopad_external_pin = "IO,IOB" *) 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; inout IO; inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; input T; endmodule (* iopad_external_pin = "IO,IOB" *) module IOBUFDS_DIFF_OUT (...); parameter DIFF_TERM = "FALSE"; parameter DQS_BIAS = "FALSE"; parameter IBUF_LOW_PWR = "TRUE"; parameter IOSTANDARD = "DEFAULT"; output O; output OB; inout IO; inout IOB; input I; input TM; input TS; endmodule (* iopad_external_pin = "IO,IOB" *) 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; inout IO; inout IOB; input DCITERMDISABLE; input I; input IBUFDISABLE; input TM; input TS; endmodule (* iopad_external_pin = "IO,IOB" *) 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; inout IO; inout IOB; input I; input IBUFDISABLE; input INTERMDISABLE; input TM; input TS; endmodule (* clkbuf_sink = "CLK,CLKB,CLKDIV,CLKDIVP,OCLK,OCLKB" *) 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; input CLK; input CLKB; input CLKDIV; input CLKDIVP; input D; input DDLY; input DYNCLKDIVSEL; input DYNCLKSEL; input OCLK; input OCLKB; input OFB; input RST; input SHIFTIN1; input SHIFTIN2; endmodule module KEEPER (...); inout O; endmodule module LDCE (...); parameter [0:0] INIT = 1'b0; parameter [0:0] IS_CLR_INVERTED = 1'b0; parameter [0:0] IS_G_INVERTED = 1'b0; parameter MSGON = "TRUE"; parameter XON = "TRUE"; output Q; input CLR, D, G, GE; endmodule module LDPE (...); parameter [0:0] INIT = 1'b1; parameter [0:0] IS_G_INVERTED = 1'b0; parameter [0:0] IS_PRE_INVERTED = 1'b0; parameter MSGON = "TRUE"; parameter XON = "TRUE"; output Q; input D, G, GE, PRE; 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; input CLKINSEL; input [6:0] DADDR; input DCLK; input DEN; input [15:0] DI; input DWE; input PSCLK; input PSEN; input PSINCDEC; input PWRDWN; 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 (* iopad_external_pin = "O,OB" *) module OBUFDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O, OB; input I; endmodule (* iopad_external_pin = "O" *) module OBUFT (...); parameter CAPACITANCE = "DONT_CARE"; parameter integer DRIVE = 12; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O; input I, T; endmodule (* iopad_external_pin = "O,OB" *) module OBUFTDS (...); parameter CAPACITANCE = "DONT_CARE"; parameter IOSTANDARD = "DEFAULT"; parameter SLEW = "SLOW"; output O, OB; input I, T; endmodule (* clkbuf_sink = "C" *) module ODDR (...); output Q; input C; input CE; input D1; input D2; input R; input S; 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"; endmodule (* clkbuf_sink = "C" *) 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; input C; input CE; input CINVCTRL; input CLKIN; input [4:0] CNTVALUEIN; input INC; input LD; input LDPIPEEN; input ODATAIN; input REGRST; endmodule (* clkbuf_sink = "CLK,CLKDIV" *) 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; input CLK; input CLKDIV; input D1; input D2; input D3; input D4; input D5; input D6; input D7; input D8; input OCE; input RST; input SHIFTIN1; input SHIFTIN2; input T1; input T2; input T3; input T4; input TBYTEIN; input TCE; endmodule (* clkbuf_sink = "RDCLK,WRCLK" *) 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; input RDCLK; input RDEN; input RESET; 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; 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; 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; 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; 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; input PWRDWN; 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 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; input CLKINSEL; input DCLK; input DEN; input DWE; input PWRDWN; 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 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 module PULLDOWN (...); output O; endmodule module PULLUP (...); output O; endmodule (* clkbuf_sink = "WCLK" *) module RAM128X1S (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, A6, D, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) module RAM256X1S (...); parameter [255:0] INIT = 256'h0; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input [7:0] A; input D; input WCLK; input WE; endmodule (* clkbuf_sink = "WCLK" *) 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; input WCLK; input WE; endmodule (* clkbuf_sink = "WCLK" *) module RAM32X1S (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, D, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) module RAM32X1S_1 (...); parameter [31:0] INIT = 32'h00000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, D, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) 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, O1; input A0, A1, A2, A3, A4, D0, D1, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) 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; input WCLK; input WE; endmodule (* clkbuf_sink = "WCLK" *) module RAM64X1S (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, D, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) module RAM64X1S_1 (...); parameter [63:0] INIT = 64'h0000000000000000; parameter [0:0] IS_WCLK_INVERTED = 1'b0; output O; input A0, A1, A2, A3, A4, A5, D, WCLK, WE; endmodule (* clkbuf_sink = "WCLK" *) 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, O1; input A0, A1, A2, A3, A4, A5, D0, D1, WCLK, WE; endmodule module ROM128X1 (...); parameter [127:0] INIT = 128'h00000000000000000000000000000000; output O; input A0, A1, A2, A3, A4, A5, A6; endmodule module ROM256X1 (...); parameter [255:0] INIT = 256'h0000000000000000000000000000000000000000000000000000000000000000; output O; input A0, A1, A2, A3, A4, A5, A6, A7; endmodule module ROM32X1 (...); parameter [31:0] INIT = 32'h00000000; output O; input A0, A1, A2, A3, A4; endmodule module ROM64X1 (...); parameter [63:0] INIT = 64'h0000000000000000; output O; input A0, A1, A2, A3, A4, A5; 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 module XADC (...); 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; input CONVSTCLK; 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; 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"; endmodule