// -*- verilog -*- // // USRP - Universal Software Radio Peripheral // // 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // `include "usrp_multi.vh" `include "../../../firmware/include/fpga_regs_common.v" `include "../../../firmware/include/fpga_regs_standard.v" // Clock, enable, and reset controls for whole system // Modified version to enable multi_usrp synchronisation module master_control_multi ( input master_clk, input usbclk, input wire [6:0] serial_addr, input wire [31:0] serial_data, input wire serial_strobe, input wire rx_slave_sync, output tx_bus_reset, output rx_bus_reset, output wire tx_dsp_reset, output wire rx_dsp_reset, output wire enable_tx, output wire enable_rx, output wire sync_rx, output wire [7:0] interp_rate, output wire [7:0] decim_rate, output tx_sample_strobe, output strobe_interp, output rx_sample_strobe, output strobe_decim, input tx_empty, input wire [15:0] debug_0,input wire [15:0] debug_1,input wire [15:0] debug_2,input wire [15:0] debug_3, output wire [15:0] reg_0, output wire [15:0] reg_1, output wire [15:0] reg_2, output wire [15:0] reg_3 ); wire [15:0] reg_1_std; master_control master_control_standard ( .master_clk(master_clk),.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(debug_0),.debug_1(debug_1), .debug_2(debug_2),.debug_3(debug_3), .reg_0(reg_0),.reg_1(reg_1_std),.reg_2(reg_2),.reg_3(reg_3) ); // FIXME need a separate reset for all control settings // Master/slave Controls assignments wire [7:0] rx_master_slave_controls; setting_reg_masked #(`FR_RX_MASTER_SLAVE) sr_rx_mstr_slv_ctrl(.clock(master_clk),.reset(1'b0),.strobe(serial_strobe),.addr(serial_addr),.in(serial_data),.out(rx_master_slave_controls)); assign sync_rx = rx_master_slave_controls[`bitnoFR_RX_SYNC] | (rx_master_slave_controls[`bitnoFR_RX_SYNC_SLAVE] & rx_slave_sync); //sync if we are told by master_control or if we get a hardware slave sync //TODO There can be a one sample difference between master and slave sync. // Maybe use a register for sync_rx which uses the (neg or pos) edge of master_clock and/or rx_slave_sync to trigger // Or even use a seperate sync_rx_out and sync_rx_internal (which lags behind) //TODO make output pin not hardwired assign reg_1 ={(rx_master_slave_controls[`bitnoFR_RX_SYNC_MASTER])? sync_rx:reg_1_std[15],reg_1_std[14:0]}; endmodule // master_control