// // Copyright 2013 Ettus Research LLC // // 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 3 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, see . // module chdr_16sc_to_32f #(parameter BASE=0) ( input clk, input reset, input set_stb, input [7:0] set_addr, input [31:0] set_data, input [63:0] i_tdata, input i_tlast, input i_tvalid, output i_tready, output reg [63:0] o_tdata, output o_tlast, output o_tvalid, input o_tready, output [31:0] debug ); wire [31:0] s0_real; wire [31:0] s0_imag; wire [31:0] s1_real; wire [31:0] s1_imag; wire chdr_has_hdr = 1'b1; wire chdr_has_time = i_tdata[61]; wire chdr_has_tlr = 1'b0; //chdr length calculations wire [15:0] chdr_header_lines = chdr_has_time? 16:8; wire [15:0] samples = ((i_tdata[47:32] - chdr_header_lines) << 1); wire [15:0] i_samples = (i_tdata[47:32] - chdr_header_lines); wire [15:0] chdr_payload_lines = samples + chdr_header_lines; wire set_sid; wire [15:0] my_newhome; setting_reg #(.my_addr(BASE), .width(17)) new_destination (.clk(clk), .rst(reset), .strobe(set_stb), .addr(set_addr), .in(set_data),.out({set_sid, my_newhome[15:0]})); //state machines localparam HEADER = 2'd0;//IDLE localparam TIME = 2'd1; localparam ODD = 2'd2; localparam EVEN = 2'd3; reg [1:0] state; reg end_on_odd; always @(posedge clk) begin if (reset) begin state <= HEADER; end_on_odd <= 1'b0; end else if (o_tready && i_tvalid) case(state) HEADER: begin state <= (i_tdata[61])? TIME : ODD; end_on_odd <= (i_samples[2:1] == 2 || i_samples[2:1] == 1); end TIME: begin state <= (i_tlast)? HEADER: ODD; end ODD: begin state <= (i_tlast & end_on_odd)? HEADER:EVEN; end EVEN: begin state <= (i_tlast) ? HEADER: ODD; end default: state <= HEADER; endcase end iq_to_float #(.BITS_IN(16), .BITS_OUT(32)) iq_to_float_imag0 (.in(i_tdata[63:48]), .out(s0_imag[31:0])); iq_to_float #(.BITS_IN(16), .BITS_OUT(32)) iq_to_float_real0 (.in(i_tdata[47:32]), .out(s0_real[31:0])); iq_to_float #(.BITS_IN(16), .BITS_OUT(32)) iq_to_float_imag1 (.in(i_tdata[31:16]), .out(s1_imag[31:0])); iq_to_float #(.BITS_IN(16), .BITS_OUT(32)) iq_to_float_real1 (.in(i_tdata[15:0]), .out(s1_real[31:0])); always @(*) case(state) HEADER: o_tdata <= {i_tdata[63:48], chdr_payload_lines, set_sid ? {i_tdata[15:0], my_newhome[15:0]}:i_tdata[31:0]}; TIME: o_tdata <= i_tdata; ODD: o_tdata <= {s0_imag,s0_real}; EVEN: o_tdata <= {s1_imag,s1_real}; default : o_tdata = i_tdata; endcase assign o_tvalid = i_tvalid; assign i_tready = o_tready && ((state != ODD) || (i_tlast && end_on_odd)); assign o_tlast = i_tlast && ((state == EVEN) || (state == ODD && end_on_odd)); endmodule