// // Copyright 2016 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: LGPL-3.0-or-later // module axi_round #(parameter WIDTH_IN=17, parameter WIDTH_OUT=16, parameter round_to_zero=0, // original behavior parameter round_to_nearest=1, // lowest noise parameter trunc=0, // round to negative infinity parameter FIFOSIZE=0) // leave at 0 for a normal single flop (input clk, input reset, input [WIDTH_IN-1:0] i_tdata, input i_tlast, input i_tvalid, output i_tready, output [WIDTH_OUT-1:0] o_tdata, output o_tlast, output o_tvalid, input o_tready); wire [WIDTH_OUT-1:0] out; generate if (WIDTH_IN == WIDTH_OUT) begin assign o_tdata = i_tdata; assign o_tlast = i_tlast; assign o_tvalid = i_tvalid; assign i_tready = o_tready; end else begin wire round_corr,round_corr_trunc,round_corr_rtz,round_corr_nearest,round_corr_nearest_safe; wire [WIDTH_IN-WIDTH_OUT-1:0] err; assign round_corr_trunc = 0; assign round_corr_rtz = (i_tdata[WIDTH_IN-1] & |i_tdata[WIDTH_IN-WIDTH_OUT-1:0]); assign round_corr_nearest = i_tdata[WIDTH_IN-WIDTH_OUT-1]; assign round_corr_nearest_safe = (WIDTH_IN-WIDTH_OUT > 1) ? ((~i_tdata[WIDTH_IN-1] & (&i_tdata[WIDTH_IN-2:WIDTH_IN-WIDTH_OUT])) ? 1'b0 : round_corr_nearest) : round_corr_nearest; assign round_corr = round_to_nearest ? round_corr_nearest_safe : trunc ? round_corr_trunc : round_to_zero ? round_corr_rtz : 0; // default to trunc assign out = i_tdata[WIDTH_IN-1:WIDTH_IN-WIDTH_OUT] + round_corr; assign err = i_tdata - {out,{(WIDTH_IN-WIDTH_OUT){1'b0}}}; axi_fifo #(.WIDTH(WIDTH_OUT+1), .SIZE(FIFOSIZE)) flop (.clk(clk), .reset(reset), .clear(1'b0), .i_tdata({i_tlast, out}), .i_tvalid(i_tvalid), .i_tready(i_tready), .o_tdata({o_tlast, o_tdata}), .o_tvalid(o_tvalid), .o_tready(o_tready), .occupied(), .space()); end endgenerate endmodule // axi_round