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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [usbhostslave/] [SIEReceiver_simlib.v] - Blame information for rev 854

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// File        : ../RTL/serialInterfaceEngine/siereceiver.v
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// Generated   : 11/10/06 05:37:23
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// From        : ../RTL/serialInterfaceEngine/siereceiver.asf
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// By          : FSM2VHDL ver. 5.0.0.9
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// SIEReceiver
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////                                                              ////
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//// This file is part of the usbhostslave opencores effort.
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//// http://www.opencores.org/cores/usbhostslave/                 ////
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////                                                              ////
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//// Module Description:                                          ////
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//// 
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////                                                              ////
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//// To Do:                                                       ////
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//// 
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////                                                              ////
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//// Author(s):                                                   ////
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//// - Steve Fielding, sfielding@base2designs.com                 ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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////                                                              ////
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//// Copyright (C) 2004 Steve Fielding and OPENCORES.ORG          ////
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////                                                              ////
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//// This source file may be used and distributed without         ////
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//// restriction provided that this copyright statement is not    ////
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//// removed from the file and that any derivative work contains  ////
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//// the original copyright notice and the associated disclaimer. ////
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////                                                              ////
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//// This source file is free software; you can redistribute it   ////
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//// and/or modify it under the terms of the GNU Lesser General   ////
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//// Public License as published by the Free Software Foundation; ////
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//// either version 2.1 of the License, or (at your option) any   ////
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//// later version.                                               ////
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////                                                              ////
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//// This source is distributed in the hope that it will be       ////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
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//// PURPOSE. See the GNU Lesser General Public License for more  ////
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//// details.                                                     ////
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////                                                              ////
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//// You should have received a copy of the GNU Lesser General    ////
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//// Public License along with this source; if not, download it   ////
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//// from http://www.opencores.org/lgpl.shtml                     ////
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////                                                              ////
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//////////////////////////////////////////////////////////////////////
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//
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`include "timescale.v"
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`include "usbSerialInterfaceEngine_h.v"
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module SIEReceiver_simlib (RxWireDataIn, RxWireDataWEn, clk, connectState, rst);
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input   [1:0] RxWireDataIn;
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input   RxWireDataWEn;
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input   clk;
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input   rst;
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output  [1:0] connectState;
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wire    [1:0] RxWireDataIn;
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wire    RxWireDataWEn;
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wire    clk;
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reg     [1:0] connectState, next_connectState;
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wire    rst;
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// diagram signals declarations
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reg  [3:0]RXStMachCurrState, next_RXStMachCurrState;
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reg  [7:0]RXWaitCount, next_RXWaitCount;
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reg  [1:0]RxBits, next_RxBits;
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// BINARY ENCODED state machine: rcvr
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// State codes definitions:
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`define WAIT_FS_CONN_CHK_RX_BITS 4'b0000
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`define WAIT_LS_CONN_CHK_RX_BITS 4'b0001
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`define LS_CONN_CHK_RX_BITS 4'b0010
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`define DISCNCT_CHK_RXBITS 4'b0011
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`define WAIT_BIT 4'b0100
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`define START_SRX 4'b0101
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`define FS_CONN_CHK_RX_BITS1 4'b0110
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`define WAIT_LS_DIS_CHK_RX_BITS 4'b0111
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`define WAIT_FS_DIS_CHK_RX_BITS2 4'b1000
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reg [3:0] CurrState_rcvr;
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reg [3:0] NextState_rcvr;
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//--------------------------------------------------------------------
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// Machine: rcvr
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//--------------------------------------------------------------------
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//----------------------------------
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// Next State Logic (combinatorial)
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//----------------------------------
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always @ (RxWireDataIn or RxBits or RXWaitCount or RxWireDataWEn or RXStMachCurrState or connectState or CurrState_rcvr)
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begin : rcvr_NextState
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  NextState_rcvr <= CurrState_rcvr;
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  // Set default values for outputs and signals
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  next_RxBits <= RxBits;
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  next_RXStMachCurrState <= RXStMachCurrState;
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  next_RXWaitCount <= RXWaitCount;
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  next_connectState <= connectState;
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  case (CurrState_rcvr)
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    `WAIT_BIT:
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      if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `WAIT_LOW_SPEED_CONN_ST))
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      begin
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        NextState_rcvr <= `WAIT_LS_CONN_CHK_RX_BITS;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `CONNECT_LOW_SPEED_ST))
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      begin
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        NextState_rcvr <= `LS_CONN_CHK_RX_BITS;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `CONNECT_FULL_SPEED_ST))
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      begin
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        NextState_rcvr <= `FS_CONN_CHK_RX_BITS1;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `WAIT_LOW_SP_DISCONNECT_ST))
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      begin
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        NextState_rcvr <= `WAIT_LS_DIS_CHK_RX_BITS;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `WAIT_FULL_SP_DISCONNECT_ST))
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      begin
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        NextState_rcvr <= `WAIT_FS_DIS_CHK_RX_BITS2;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `DISCONNECT_ST))
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      begin
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        NextState_rcvr <= `DISCNCT_CHK_RXBITS;
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        next_RxBits <= RxWireDataIn;
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      end
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      else if ((RxWireDataWEn == 1'b1) && (RXStMachCurrState == `WAIT_FULL_SPEED_CONN_ST))
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      begin
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        NextState_rcvr <= `WAIT_FS_CONN_CHK_RX_BITS;
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        next_RxBits <= RxWireDataIn;
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      end
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    `START_SRX:
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    begin
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      next_RXStMachCurrState <= `DISCONNECT_ST;
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      next_RXWaitCount <= 8'h00;
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      next_connectState <= `DISCONNECT;
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      next_RxBits <= 2'b00;
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      NextState_rcvr <= `WAIT_BIT;
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    end
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    `DISCNCT_CHK_RXBITS:
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      if (RxBits == `ZERO_ONE)
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      begin
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        NextState_rcvr <= `WAIT_BIT;
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        next_RXStMachCurrState <= `WAIT_LOW_SPEED_CONN_ST;
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        next_RXWaitCount <= 8'h00;
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      end
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      else if (RxBits == `ONE_ZERO)
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      begin
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        NextState_rcvr <= `WAIT_BIT;
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        next_RXStMachCurrState <= `WAIT_FULL_SPEED_CONN_ST;
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        next_RXWaitCount <= 8'h00;
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      end
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      else
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        NextState_rcvr <= `WAIT_BIT;
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    `WAIT_FS_CONN_CHK_RX_BITS:
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    begin
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      if (RxBits == `ONE_ZERO)
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      begin
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        next_RXWaitCount <= RXWaitCount + 1'b1;
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          if (RXWaitCount == `CONNECT_WAIT_TIME)
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          begin
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          next_connectState <= `FULL_SPEED_CONNECT;
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          next_RXStMachCurrState <= `CONNECT_FULL_SPEED_ST;
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          end
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      end
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      else
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      begin
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        next_RXStMachCurrState <= `DISCONNECT_ST;
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      end
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      NextState_rcvr <= `WAIT_BIT;
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    end
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    `WAIT_LS_CONN_CHK_RX_BITS:
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    begin
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      if (RxBits == `ZERO_ONE)
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      begin
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        next_RXWaitCount <= RXWaitCount + 1'b1;
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          if (RXWaitCount == `CONNECT_WAIT_TIME)
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          begin
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          next_connectState <= `LOW_SPEED_CONNECT;
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          next_RXStMachCurrState <= `CONNECT_LOW_SPEED_ST;
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          end
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      end
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      else
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      begin
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        next_RXStMachCurrState <= `DISCONNECT_ST;
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      end
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      NextState_rcvr <= `WAIT_BIT;
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    end
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    `LS_CONN_CHK_RX_BITS:
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    begin
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      NextState_rcvr <= `WAIT_BIT;
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      if (RxBits == `SE0)
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      begin
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        next_RXStMachCurrState <= `WAIT_LOW_SP_DISCONNECT_ST;
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        next_RXWaitCount <= 0;
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      end
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    end
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    `FS_CONN_CHK_RX_BITS1:
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    begin
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      NextState_rcvr <= `WAIT_BIT;
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      if (RxBits == `SE0)
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      begin
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        next_RXStMachCurrState <= `WAIT_FULL_SP_DISCONNECT_ST;
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        next_RXWaitCount <= 0;
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      end
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    end
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    `WAIT_LS_DIS_CHK_RX_BITS:
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    begin
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      NextState_rcvr <= `WAIT_BIT;
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      if (RxBits == `SE0)
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      begin
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        next_RXWaitCount <= RXWaitCount + 1'b1;
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          if (RXWaitCount == `DISCONNECT_WAIT_TIME)
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          begin
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          next_RXStMachCurrState <= `DISCONNECT_ST;
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          next_connectState <= `DISCONNECT;
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          end
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      end
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      else
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      begin
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        next_RXStMachCurrState <= `CONNECT_LOW_SPEED_ST;
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      end
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    end
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    `WAIT_FS_DIS_CHK_RX_BITS2:
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    begin
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      NextState_rcvr <= `WAIT_BIT;
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      if (RxBits == `SE0)
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      begin
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        next_RXWaitCount <= RXWaitCount + 1'b1;
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          if (RXWaitCount == `DISCONNECT_WAIT_TIME)
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          begin
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          next_RXStMachCurrState <= `DISCONNECT_ST;
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          next_connectState <= `DISCONNECT;
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          end
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      end
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      else
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      begin
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        next_RXStMachCurrState <= `CONNECT_FULL_SPEED_ST;
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      end
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    end
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  endcase
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end
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//----------------------------------
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// Current State Logic (sequential)
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//----------------------------------
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always @ (posedge clk)
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begin : rcvr_CurrentState
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  if (rst)
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    CurrState_rcvr <= `START_SRX;
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  else
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    CurrState_rcvr <= NextState_rcvr;
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end
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//----------------------------------
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// Registered outputs logic
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//----------------------------------
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always @ (posedge clk)
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begin : rcvr_RegOutput
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  if (rst)
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  begin
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    RXStMachCurrState <= `DISCONNECT_ST;
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    RXWaitCount <= 8'h00;
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    RxBits <= 2'b00;
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    connectState <= `DISCONNECT;
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  end
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  else
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  begin
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    RXStMachCurrState <= next_RXStMachCurrState;
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    RXWaitCount <= next_RXWaitCount;
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    RxBits <= next_RxBits;
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    connectState <= next_connectState;
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  end
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end
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endmodule

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