Merge FPGA repository back into UHD repository

The FPGA codebase was removed from the UHD repository in 2014 to reduce
the size of the repository. However, over the last half-decade, the
split between the repositories has proven more burdensome than it has
been helpful. By merging the FPGA code back, it will be possible to
create atomic commits that touch both FPGA and UHD codebases. Continuous
integration testing is also simplified by merging the repositories,
because it was previously difficult to automatically derive the correct
UHD branch when testing a feature branch on the FPGA repository.

This commit also updates the license files and paths therein.

We are therefore merging the repositories again. Future development for
FPGA code will happen in the same repository as the UHD host code and
MPM code.

== Original Codebase and Rebasing ==

The original FPGA repository will be hosted for the foreseeable future
at its original local location: https://github.com/EttusResearch/fpga/

It can be used for bisecting, reference, and a more detailed history.

The final commit from said repository to be merged here is
05003794e2da61cabf64dd278c45685a7abad7ec. This commit is tagged as
v4.0.0.0-pre-uhd-merge.

If you have changes in the FPGA repository that you want to rebase onto
the UHD repository, simply run the following commands:

- Create a directory to store patches (this should be an empty
  directory):

    mkdir ~/patches

- Now make sure that your FPGA codebase is based on the same state as
  the code that was merged:

    cd src/fpga # Or wherever your FPGA code is stored
    git rebase v4.0.0.0-pre-uhd-merge

  Note: The rebase command may look slightly different depending on what
  exactly you're trying to rebase.

- Create a patch set for your changes versus v4.0.0.0-pre-uhd-merge:

    git format-patch v4.0.0.0-pre-uhd-merge -o ~/patches

  Note: Make sure that only patches are stored in your output directory.
  It should otherwise be empty. Make sure that you picked the correct
  range of commits, and only commits you wanted to rebase were exported
  as patch files.

- Go to the UHD repository and apply the patches:

    cd src/uhd # Or wherever your UHD repository is stored
    git am --directory fpga ~/patches/*
    rm -rf ~/patches # This is for cleanup

== Contributors ==

The following people have contributed mainly to these files (this list
is not complete):

Co-authored-by: Alex Williams <alex.williams@ni.com>
Co-authored-by: Andrej Rode <andrej.rode@ettus.com>
Co-authored-by: Ashish Chaudhari <ashish@ettus.com>
Co-authored-by: Ben Hilburn <ben.hilburn@ettus.com>
Co-authored-by: Ciro Nishiguchi <ciro.nishiguchi@ni.com>
Co-authored-by: Daniel Jepson <daniel.jepson@ni.com>
Co-authored-by: Derek Kozel <derek.kozel@ettus.com>
Co-authored-by: EJ Kreinar <ej@he360.com>
Co-authored-by: Humberto Jimenez <humberto.jimenez@ni.com>
Co-authored-by: Ian Buckley <ian.buckley@gmail.com>
Co-authored-by: Jörg Hofrichter <joerg.hofrichter@ni.com>
Co-authored-by: Jon Kiser <jon.kiser@ni.com>
Co-authored-by: Josh Blum <josh@joshknows.com>
Co-authored-by: Jonathon Pendlum <jonathan.pendlum@ettus.com>
Co-authored-by: Martin Braun <martin.braun@ettus.com>
Co-authored-by: Matt Ettus <matt@ettus.com>
Co-authored-by: Michael West <michael.west@ettus.com>
Co-authored-by: Moritz Fischer <moritz.fischer@ettus.com>
Co-authored-by: Nick Foster <nick@ettus.com>
Co-authored-by: Nicolas Cuervo <nicolas.cuervo@ettus.com>
Co-authored-by: Paul Butler <paul.butler@ni.com>
Co-authored-by: Paul David <paul.david@ettus.com>
Co-authored-by: Ryan Marlow <ryan.marlow@ettus.com>
Co-authored-by: Sugandha Gupta <sugandha.gupta@ettus.com>
Co-authored-by: Sylvain Munaut <tnt@246tNt.com>
Co-authored-by: Trung Tran <trung.tran@ettus.com>
Co-authored-by: Vidush Vishwanath <vidush.vishwanath@ettus.com>
Co-authored-by: Wade Fife <wade.fife@ettus.com>

1 files changed, 379 insertions, 0 deletions

diff --git a/fpga/usrp1/toplevel/usrp_multi/usrp_multi.v b/fpga/usrp1/toplevel/usrp_multi/usrp_multi.v
new file mode 100644
index 000000000..08ae0c2aa
--- /dev/null
+++ b/fpga/usrp1/toplevel/usrp_multi/usrp_multi.v
@@ -0,0 +1,379 @@
+// -*- verilog -*-
+//
+//  USRP - Universal Software Radio Peripheral
+//
+//  Copyright (C) 2003,2004,2005,2006 Matt Ettus
+//  Copyright (C) 2006 Martin Dudok van Heel
+//
+//  This program is free software; you can redistribute it and/or modify
+//  it under the terms of the GNU General Public License as published by
+//  the Free Software Foundation; either version 2 of the License, or
+//  (at your option) any later version.
+//
+//  This program is distributed in the hope that it will be useful,
+//  but WITHOUT ANY WARRANTY; without even the implied warranty of
+//  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+//  GNU General Public License for more details.
+//
+//  You should have received a copy of the GNU General Public License
+//  along with this program; if not, write to the Free Software
+//  Foundation, Inc., 51 Franklin Street, Boston, MA  02110-1301  USA
+//
+
+// Top level module for a full setup with DUCs and DDCs
+
+// Define DEBUG_OWNS_IO_PINS if we're using the daughterboard i/o pins
+// for debugging info.  NB, This can kill the m'board and/or d'board if you
+// have anything except basic d'boards installed.
+
+// Uncomment the following to include optional circuitry
+
+`include "config.vh"
+`include "../../common/fpga_regs_common.v"
+`include "../../common/fpga_regs_standard.v"
+
+module usrp_multi
+(output MYSTERY_SIGNAL,
+ input master_clk,
+ input SCLK,
+ input SDI,
+ inout SDO,
+ input SEN_FPGA,
+
+ input FX2_1,
+ output FX2_2,
+ output FX2_3,
+ 
+ input wire [11:0] rx_a_a,
+ input wire [11:0] rx_b_a,
+ input wire [11:0] rx_a_b,
+ input wire [11:0] rx_b_b,
+
+ output wire [13:0] tx_a,
+ output wire [13:0] tx_b,
+
+ output wire TXSYNC_A,
+ output wire TXSYNC_B,
+ 
+  // USB interface
+ input usbclk,
+ input wire [2:0] usbctl,
+ output wire [1:0] usbrdy,
+ inout [15:0] usbdata,  // NB Careful, inout
+
+ // These are the general purpose i/o's that go to the daughterboard slots
+ inout wire [15:0] io_tx_a,
+ inout wire [15:0] io_tx_b,
+ inout wire [15:0] io_rx_a,
+ inout wire [15:0] io_rx_b
+ );	
+   wire [15:0] debugdata,debugctrl;
+   assign MYSTERY_SIGNAL = 1'b0;
+   
+   wire clk64,clk128;
+   
+   wire WR = usbctl[0];
+   wire RD = usbctl[1];
+   wire OE = usbctl[2];
+
+   wire have_space, have_pkt_rdy;
+   assign usbrdy[0] = have_space;
+   assign usbrdy[1] = have_pkt_rdy;
+
+   wire   tx_underrun, rx_overrun;    
+   wire   clear_status = FX2_1;
+   assign FX2_2 = rx_overrun;
+   assign FX2_3 = tx_underrun;
+      
+   wire [15:0] usbdata_out;
+   
+   wire [3:0]  dac0mux,dac1mux,dac2mux,dac3mux;
+   
+   wire        tx_realsignals;
+   wire [3:0]  rx_numchan;
+   wire [2:0]  tx_numchan;
+   
+   wire [7:0]  interp_rate, decim_rate;
+   wire [15:0] tx_debugbus, rx_debugbus;
+   
+   wire        enable_tx, enable_rx;
+   wire        reset_data;
+`ifdef MULTI_ON
+   wire        sync_rx;
+   assign reset_data = sync_rx;
+`else
+   assign reset_data = 1'b0;
+`endif //  `ifdef MULTI_ON
+
+   wire        tx_dsp_reset, rx_dsp_reset, tx_bus_reset, rx_bus_reset;
+   wire [7:0]  settings;
+   
+   // Tri-state bus macro
+   bustri bustri( .data(usbdata_out),.enabledt(OE),.tridata(usbdata) );
+
+   assign      clk64 = master_clk;
+
+   wire [15:0] ch0tx,ch1tx,ch2tx,ch3tx; //,ch4tx,ch5tx,ch6tx,ch7tx;
+   wire [15:0] ch0rx,ch1rx,ch2rx,ch3rx,ch4rx,ch5rx,ch6rx,ch7rx;
+   
+   // TX
+   wire [15:0] i_out_0,i_out_1,q_out_0,q_out_1;
+   wire [15:0] bb_tx_i0,bb_tx_q0,bb_tx_i1,bb_tx_q1;  // bb_tx_i2,bb_tx_q2,bb_tx_i3,bb_tx_q3;
+   
+   wire        strobe_interp, tx_sample_strobe;
+   wire        tx_empty;
+   
+   wire        serial_strobe;
+   wire [6:0]  serial_addr;
+   wire [31:0] serial_data;
+
+   reg [15:0] debug_counter;
+`ifdef COUNTER_32BIT_ON
+   reg [31:0] sample_counter_32bit;
+`endif //  `ifdef COUNTER_32BIT_ON
+   reg [15:0] loopback_i_0,loopback_q_0;
+   
+   ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+   // Transmit Side
+`ifdef TX_ON
+   assign     bb_tx_i0 = ch0tx;
+   assign      bb_tx_q0 = ch1tx;
+   assign      bb_tx_i1 = ch2tx;
+   assign      bb_tx_q1 = ch3tx;
+   
+   tx_buffer tx_buffer
+     ( .usbclk(usbclk),.bus_reset(tx_bus_reset),.reset(tx_dsp_reset),
+       .usbdata(usbdata),.WR(WR),.have_space(have_space),.tx_underrun(tx_underrun),
+       .channels({tx_numchan,1'b0}),
+       .tx_i_0(ch0tx),.tx_q_0(ch1tx),
+       .tx_i_1(ch2tx),.tx_q_1(ch3tx),
+       .tx_i_2(),.tx_q_2(),
+       .tx_i_3(),.tx_q_3(),
+       .txclk(clk64),.txstrobe(strobe_interp),
+       .clear_status(clear_status),
+       .tx_empty(tx_empty),
+       .debugbus(tx_debugbus) );
+
+   tx_chain tx_chain_0
+     ( .clock(clk64),.reset(tx_dsp_reset),.enable(enable_tx),
+       .interp_rate(interp_rate),.sample_strobe(tx_sample_strobe),
+       .interpolator_strobe(strobe_interp),.freq(),
+       .i_in(bb_tx_i0),.q_in(bb_tx_q0),.i_out(i_out_0),.q_out(q_out_0) );
+
+   tx_chain tx_chain_1
+     ( .clock(clk64),.reset(tx_dsp_reset),.enable(enable_tx),
+       .interp_rate(interp_rate),.sample_strobe(tx_sample_strobe),
+       .interpolator_strobe(strobe_interp),.freq(),
+       .i_in(bb_tx_i1),.q_in(bb_tx_q1),.i_out(i_out_1),.q_out(q_out_1) );
+
+   setting_reg #(`FR_TX_MUX) 
+     sr_txmux(.clock(clk64),.reset(tx_dsp_reset),.strobe(serial_strobe),.addr(serial_addr),.in(serial_data),
+	      .out({dac3mux,dac2mux,dac1mux,dac0mux,tx_realsignals,tx_numchan}));
+   
+   wire [15:0] tx_a_a = dac0mux[3] ? (dac0mux[1] ? (dac0mux[0] ? q_out_1 : i_out_1) : (dac0mux[0] ? q_out_0 : i_out_0)) : 16'b0;
+   wire [15:0] tx_b_a = dac1mux[3] ? (dac1mux[1] ? (dac1mux[0] ? q_out_1 : i_out_1) : (dac1mux[0] ? q_out_0 : i_out_0)) : 16'b0;
+   wire [15:0] tx_a_b = dac2mux[3] ? (dac2mux[1] ? (dac2mux[0] ? q_out_1 : i_out_1) : (dac2mux[0] ? q_out_0 : i_out_0)) : 16'b0;
+   wire [15:0] tx_b_b = dac3mux[3] ? (dac3mux[1] ? (dac3mux[0] ? q_out_1 : i_out_1) : (dac3mux[0] ? q_out_0 : i_out_0)) : 16'b0;
+
+   wire txsync = tx_sample_strobe;
+   assign TXSYNC_A = txsync;
+   assign TXSYNC_B = txsync;
+
+   assign tx_a = txsync ? tx_b_a[15:2] : tx_a_a[15:2];
+   assign tx_b = txsync ? tx_b_b[15:2] : tx_a_b[15:2];
+`endif //  `ifdef TX_ON
+   
+   /////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+   // Receive Side
+`ifdef RX_ON
+   wire        rx_sample_strobe,strobe_decim,hb_strobe;
+   wire [15:0] bb_rx_i0,bb_rx_q0,bb_rx_i1,bb_rx_q1,
+	       bb_rx_i2,bb_rx_q2,bb_rx_i3,bb_rx_q3;
+
+   wire loopback = settings[0];
+   wire counter = settings[1];
+`ifdef COUNTER_32BIT_ON
+   wire counter_32bit = settings[2];
+
+   always @(posedge clk64)
+     if(rx_dsp_reset)
+       sample_counter_32bit <= #1 32'd0;
+     else if(~enable_rx | reset_data)
+       sample_counter_32bit <=#1 32'd0;
+     else if(hb_strobe)
+       sample_counter_32bit <=#1 sample_counter_32bit + 32'd1;
+`endif //  `ifdef COUNTER_32BIT_ON
+
+   always @(posedge clk64)
+     if(rx_dsp_reset)
+       debug_counter <= #1 16'd0;
+     else if(~enable_rx)
+       debug_counter <= #1 16'd0;
+     else if(hb_strobe)
+       debug_counter <=#1 debug_counter + 16'd2;
+   
+   always @(posedge clk64)
+     if(strobe_interp)
+       begin
+	  loopback_i_0 <= #1 ch0tx;
+	  loopback_q_0 <= #1 ch1tx;
+       end
+   
+`ifdef COUNTER_32BIT_ON
+   assign ch0rx = counter_32bit?sample_counter_32bit[31:16]:counter ? debug_counter : loopback ? loopback_i_0 : bb_rx_i0;
+   assign ch1rx = counter_32bit?sample_counter_32bit[15:0]:counter ? debug_counter + 16'd1 : loopback ? loopback_q_0 : bb_rx_q0;
+   assign ch2rx = bb_rx_i1;
+   assign ch3rx = bb_rx_q1;
+   assign ch4rx = counter_32bit?bb_rx_i0:bb_rx_i2;
+   assign ch5rx = counter_32bit?bb_rx_q0:bb_rx_q2;// If using counter replicate channels here to be able to get rx_i0 when using counter
+                           //This means if you use 4 channels that channel 3 will be replaced by channel 0
+                           // and channel 0 will output the 32 bit counter.
+   assign ch6rx = bb_rx_i3;
+   assign ch7rx = bb_rx_q3;
+`else
+   assign ch0rx = counter ? debug_counter : loopback ? loopback_i_0 : bb_rx_i0;
+   assign ch1rx = counter ? debug_counter + 16'd1 : loopback ? loopback_q_0 : bb_rx_q0;
+   assign ch2rx = bb_rx_i1;
+   assign ch3rx = bb_rx_q1;
+   assign ch4rx = bb_rx_i2;
+   assign ch5rx = bb_rx_q2;
+   assign ch6rx = bb_rx_i3;
+   assign ch7rx = bb_rx_q3;
+`endif //  `ifdef COUNTER_32BIT_ON
+
+
+   wire [15:0] ddc0_in_i,ddc0_in_q,ddc1_in_i,ddc1_in_q,ddc2_in_i,ddc2_in_q,ddc3_in_i,ddc3_in_q;
+   adc_interface adc_interface(.clock(clk64),.reset(rx_dsp_reset),.enable(1'b1),
+			       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+			       .rx_a_a(rx_a_a),.rx_b_a(rx_b_a),.rx_a_b(rx_a_b),.rx_b_b(rx_b_b),
+			       .ddc0_in_i(ddc0_in_i),.ddc0_in_q(ddc0_in_q),
+			       .ddc1_in_i(ddc1_in_i),.ddc1_in_q(ddc1_in_q),
+			       .ddc2_in_i(ddc2_in_i),.ddc2_in_q(ddc2_in_q),
+			       .ddc3_in_i(ddc3_in_i),.ddc3_in_q(ddc3_in_q),.rx_numchan(rx_numchan) );
+   
+   rx_buffer rx_buffer
+     ( .usbclk(usbclk),.bus_reset(rx_bus_reset),.reset(rx_dsp_reset | reset_data),
+       .reset_regs(rx_dsp_reset),
+       .usbdata(usbdata_out),.RD(RD),.have_pkt_rdy(have_pkt_rdy),.rx_overrun(rx_overrun),
+       .channels(rx_numchan),
+       .ch_0(ch0rx),.ch_1(ch1rx),
+       .ch_2(ch2rx),.ch_3(ch3rx),
+       .ch_4(ch4rx),.ch_5(ch5rx),
+       .ch_6(ch6rx),.ch_7(ch7rx),
+       .rxclk(clk64),.rxstrobe(hb_strobe),
+       .clear_status(clear_status),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .debugbus(rx_debugbus) );
+   
+ `ifdef RX_EN_0
+   rx_chain #(`FR_RX_FREQ_0,`FR_RX_PHASE_0) rx_chain_0
+     ( .clock(clk64),.reset(reset_data),.enable(enable_rx),
+       .decim_rate(decim_rate),.sample_strobe(rx_sample_strobe),.decimator_strobe(strobe_decim),.hb_strobe(hb_strobe),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .i_in(ddc0_in_i),.q_in(ddc0_in_q),.i_out(bb_rx_i0),.q_out(bb_rx_q0),.debugdata(debugdata),.debugctrl(debugctrl));
+ `else
+   assign      bb_rx_i0=16'd0;
+   assign      bb_rx_q0=16'd0;
+ `endif
+   
+ `ifdef RX_EN_1
+   rx_chain #(`FR_RX_FREQ_1,`FR_RX_PHASE_1) rx_chain_1
+     ( .clock(clk64),.reset(reset_data),.enable(enable_rx),
+       .decim_rate(decim_rate),.sample_strobe(rx_sample_strobe),.decimator_strobe(strobe_decim),.hb_strobe(),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .i_in(ddc1_in_i),.q_in(ddc1_in_q),.i_out(bb_rx_i1),.q_out(bb_rx_q1));
+ `else
+   assign      bb_rx_i1=16'd0;
+   assign      bb_rx_q1=16'd0;
+ `endif
+   
+ `ifdef RX_EN_2
+   rx_chain #(`FR_RX_FREQ_2,`FR_RX_PHASE_2) rx_chain_2
+     ( .clock(clk64),.reset(reset_data),.enable(enable_rx),
+       .decim_rate(decim_rate),.sample_strobe(rx_sample_strobe),.decimator_strobe(strobe_decim),.hb_strobe(),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .i_in(ddc2_in_i),.q_in(ddc2_in_q),.i_out(bb_rx_i2),.q_out(bb_rx_q2));
+ `else
+   assign      bb_rx_i2=16'd0;
+   assign      bb_rx_q2=16'd0;
+ `endif
+
+ `ifdef RX_EN_3
+   rx_chain #(`FR_RX_FREQ_3,`FR_RX_PHASE_3) rx_chain_3
+     ( .clock(clk64),.reset(reset_data),.enable(enable_rx),
+       .decim_rate(decim_rate),.sample_strobe(rx_sample_strobe),.decimator_strobe(strobe_decim),.hb_strobe(),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .i_in(ddc3_in_i),.q_in(ddc3_in_q),.i_out(bb_rx_i3),.q_out(bb_rx_q3));
+   assign      bb_rx_i3=16'd0;
+   assign      bb_rx_q3=16'd0;
+ `endif
+
+`endif //  `ifdef RX_ON
+   
+   ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+   // Control Functions
+
+   wire [31:0] capabilities;
+   assign      capabilities[7] =   `TX_CAP_HB;
+   assign      capabilities[6:4] = `TX_CAP_NCHAN;
+   assign      capabilities[3] =   `RX_CAP_HB;
+   assign      capabilities[2:0] = `RX_CAP_NCHAN;
+
+
+   serial_io serial_io
+     ( .master_clk(clk64),.serial_clock(SCLK),.serial_data_in(SDI),
+       .enable(SEN_FPGA),.reset(1'b0),.serial_data_out(SDO),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .readback_0({io_rx_a,io_tx_a}),.readback_1({io_rx_b,io_tx_b}),.readback_2(capabilities),.readback_3(32'hf0f0931a) );
+
+   wire [15:0] reg_0,reg_1,reg_2,reg_3;
+
+`ifdef MULTI_ON
+
+   master_control_multi master_control
+     ( .master_clk(clk64),.usbclk(usbclk),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .rx_slave_sync(io_rx_a[`bitnoFR_RX_SYNC_INPUT_IOPIN]),
+       .tx_bus_reset(tx_bus_reset),.rx_bus_reset(rx_bus_reset),
+       .tx_dsp_reset(tx_dsp_reset),.rx_dsp_reset(rx_dsp_reset),
+       .enable_tx(enable_tx),.enable_rx(enable_rx),
+       .sync_rx(sync_rx),
+       .interp_rate(interp_rate),.decim_rate(decim_rate),
+       .tx_sample_strobe(tx_sample_strobe),.strobe_interp(strobe_interp),
+       .rx_sample_strobe(rx_sample_strobe),.strobe_decim(strobe_decim),
+       .tx_empty(tx_empty),
+       //.debug_0(rx_a_a),.debug_1(ddc0_in_i),
+       .debug_0(rx_debugbus),.debug_1(ddc0_in_i),
+       .debug_2({rx_sample_strobe,strobe_decim,serial_strobe,serial_addr}),.debug_3({rx_dsp_reset,tx_dsp_reset,rx_bus_reset,tx_bus_reset,enable_rx,tx_underrun,rx_overrun,decim_rate}),
+       .reg_0(reg_0),.reg_1(reg_1),.reg_2(reg_2),.reg_3(reg_3) );
+
+`else //`ifdef MULTI_ON
+
+   master_control master_control
+     ( .master_clk(clk64),.usbclk(usbclk),
+       .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe),
+       .tx_bus_reset(tx_bus_reset),.rx_bus_reset(rx_bus_reset),
+       .tx_dsp_reset(tx_dsp_reset),.rx_dsp_reset(rx_dsp_reset),
+       .enable_tx(enable_tx),.enable_rx(enable_rx),
+       .interp_rate(interp_rate),.decim_rate(decim_rate),
+       .tx_sample_strobe(tx_sample_strobe),.strobe_interp(strobe_interp),
+       .rx_sample_strobe(rx_sample_strobe),.strobe_decim(strobe_decim),
+       .tx_empty(tx_empty),
+       //.debug_0(rx_a_a),.debug_1(ddc0_in_i),
+       .debug_0(rx_debugbus),.debug_1(ddc0_in_i),
+       .debug_2({rx_sample_strobe,strobe_decim,serial_strobe,serial_addr}),.debug_3({rx_dsp_reset,tx_dsp_reset,rx_bus_reset,tx_bus_reset,enable_rx,tx_underrun,rx_overrun,decim_rate}),
+       .reg_0(reg_0),.reg_1(reg_1),.reg_2(reg_2),.reg_3(reg_3) );
+
+`endif //`ifdef MULTI_ON   
+
+   io_pins io_pins
+     (.io_0(io_tx_a),.io_1(io_rx_a),.io_2(io_tx_b),.io_3(io_rx_b),
+      .reg_0(reg_0),.reg_1(reg_1),.reg_2(reg_2),.reg_3(reg_3),
+      .clock(clk64),.rx_reset(rx_dsp_reset),.tx_reset(tx_dsp_reset),
+      .serial_addr(serial_addr),.serial_data(serial_data),.serial_strobe(serial_strobe));
+   
+   ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+   // Misc Settings
+   setting_reg #(`FR_MODE) sr_misc(.clock(clk64),.reset(rx_dsp_reset),.strobe(serial_strobe),.addr(serial_addr),.in(serial_data),.out(settings));
+
+endmodule // usrp_multi