pluto_hdl_adi/library/util_upack/util_upack.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2011(c) Analog Devices, Inc.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
// - Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// - Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in
// the documentation and/or other materials provided with the
// distribution.
// - Neither the name of Analog Devices, Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
// - The use of this software may or may not infringe the patent rights
// of one or more patent holders. This license does not release you
// from the requirement that you obtain separate licenses from these
// patent holders to use this software.
// - Use of the software either in source or binary form, must be run
// on or directly connected to an Analog Devices Inc. component.
//
// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED.
//
// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/100ps
module util_upack (
// dac interface
dac_clk,
dac_enable_0,
dac_valid_0,
dac_data_0,
dac_enable_1,
dac_valid_1,
dac_data_1,
dac_enable_2,
dac_valid_2,
dac_data_2,
dac_enable_3,
dac_valid_3,
dac_data_3,
dac_enable_4,
dac_valid_4,
dac_data_4,
dac_enable_5,
dac_valid_5,
dac_data_5,
dac_enable_6,
dac_valid_6,
dac_data_6,
dac_enable_7,
dac_valid_7,
dac_data_7,
// fifo interface
dac_valid,
dac_sync,
dac_data);
// parameters
parameter CH_DW = 32;
parameter CH_CNT = 8;
localparam M_CNT = 8;
localparam P_CNT = CH_CNT;
localparam CH_SCNT = CH_DW/16;
localparam M_WIDTH = CH_DW*M_CNT;
localparam P_WIDTH = CH_DW*P_CNT;
// adc interface
input dac_clk;
input dac_enable_0;
input dac_valid_0;
output [(CH_DW-1):0] dac_data_0;
input dac_enable_1;
input dac_valid_1;
output [(CH_DW-1):0] dac_data_1;
input dac_enable_2;
input dac_valid_2;
output [(CH_DW-1):0] dac_data_2;
input dac_enable_3;
input dac_valid_3;
output [(CH_DW-1):0] dac_data_3;
input dac_enable_4;
input dac_valid_4;
output [(CH_DW-1):0] dac_data_4;
input dac_enable_5;
input dac_valid_5;
output [(CH_DW-1):0] dac_data_5;
input dac_enable_6;
input dac_valid_6;
output [(CH_DW-1):0] dac_data_6;
input dac_enable_7;
input dac_valid_7;
output [(CH_DW-1):0] dac_data_7;
// fifo interface
output dac_valid;
output dac_sync;
input [((CH_CNT*CH_DW)-1):0] dac_data;
// internal registers
reg dac_valid = 'd0;
reg dac_sync = 'd0;
reg [(M_WIDTH-1):0] dac_dsf_data = 'd0;
reg [ 7:0] dac_dmx_enable = 'd0;
// internal signals
wire dac_valid_s;
wire dac_dsf_valid_s[(M_CNT-1):0];
wire dac_dsf_sync_s[(M_CNT-1):0];
wire [(M_WIDTH-1):0] dac_dsf_data_s[(M_CNT-1):0];
wire [(CH_SCNT-1):0] dac_dmx_enable_7_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_6_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_5_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_4_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_3_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_2_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_1_s;
wire [(CH_SCNT-1):0] dac_dmx_enable_0_s;
// loop variables
genvar n;
// parameter breaks here (max. 8) -- reduce won't work across 2d arrays.
assign dac_valid_s = dac_valid_7 | dac_valid_6 | dac_valid_5 | dac_valid_4 |
dac_valid_3 | dac_valid_2 | dac_valid_1 | dac_valid_0;
always @(posedge dac_clk) begin
dac_valid <= dac_dsf_valid_s[7] | dac_dsf_valid_s[6] |
dac_dsf_valid_s[5] | dac_dsf_valid_s[4] |
dac_dsf_valid_s[3] | dac_dsf_valid_s[2] |
dac_dsf_valid_s[1] | dac_dsf_valid_s[0];
dac_sync <= dac_dsf_sync_s[7] | dac_dsf_sync_s[6] |
dac_dsf_sync_s[5] | dac_dsf_sync_s[4] |
dac_dsf_sync_s[3] | dac_dsf_sync_s[2] |
dac_dsf_sync_s[1] | dac_dsf_sync_s[0];
dac_dsf_data <= dac_dsf_data_s[7] | dac_dsf_data_s[6] |
dac_dsf_data_s[5] | dac_dsf_data_s[4] |
dac_dsf_data_s[3] | dac_dsf_data_s[2] |
dac_dsf_data_s[1] | dac_dsf_data_s[0];
dac_dmx_enable[7] <= | dac_dmx_enable_7_s;
dac_dmx_enable[6] <= | dac_dmx_enable_6_s;
dac_dmx_enable[5] <= | dac_dmx_enable_5_s;
dac_dmx_enable[4] <= | dac_dmx_enable_4_s;
dac_dmx_enable[3] <= | dac_dmx_enable_3_s;
dac_dmx_enable[2] <= | dac_dmx_enable_2_s;
dac_dmx_enable[1] <= | dac_dmx_enable_1_s;
dac_dmx_enable[0] <= | dac_dmx_enable_0_s;
end
// store & fwd
generate
if (P_CNT < M_CNT) begin
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for (n = P_CNT; n < M_CNT; n = n + 1) begin: g_def
assign dac_dsf_valid_s[n] = 'd0;
assign dac_dsf_sync_s[n] = 'd0;
assign dac_dsf_data_s[n] = 'd0;
end
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end
for (n = 0; n < P_CNT; n = n + 1) begin: g_dsf
util_upack_dsf #(
.P_CNT (P_CNT),
.M_CNT (M_CNT),
.CH_DW (CH_DW),
.CH_OCNT ((n+1)))
i_dsf (
.dac_clk (dac_clk),
.dac_valid (dac_valid_s),
.dac_data (dac_data),
.dac_dmx_enable (dac_dmx_enable[n]),
.dac_dsf_valid (dac_dsf_valid_s[n]),
.dac_dsf_sync (dac_dsf_sync_s[n]),
.dac_dsf_data (dac_dsf_data_s[n]));
end
endgenerate
// demux
generate
for (n = 0; n < CH_SCNT; n = n + 1) begin: g_dmx
util_upack_dmx i_dmx (
.dac_clk (dac_clk),
.dac_enable ({dac_enable_7, dac_enable_6, dac_enable_5, dac_enable_4,
dac_enable_3, dac_enable_2, dac_enable_1, dac_enable_0}),
.dac_data_0 (dac_data_0[((16*n)+15):(16*n)]),
.dac_data_1 (dac_data_1[((16*n)+15):(16*n)]),
.dac_data_2 (dac_data_2[((16*n)+15):(16*n)]),
.dac_data_3 (dac_data_3[((16*n)+15):(16*n)]),
.dac_data_4 (dac_data_4[((16*n)+15):(16*n)]),
.dac_data_5 (dac_data_5[((16*n)+15):(16*n)]),
.dac_data_6 (dac_data_6[((16*n)+15):(16*n)]),
.dac_data_7 (dac_data_7[((16*n)+15):(16*n)]),
.dac_dmx_enable ({dac_dmx_enable_7_s[n], dac_dmx_enable_6_s[n],
dac_dmx_enable_5_s[n], dac_dmx_enable_4_s[n],
dac_dmx_enable_3_s[n], dac_dmx_enable_2_s[n],
dac_dmx_enable_1_s[n], dac_dmx_enable_0_s[n]}),
.dac_dsf_data (dac_dsf_data[((M_CNT*16*(n+1))-1):(M_CNT*16*n)]));
end
endgenerate
endmodule
// ***************************************************************************
// ***************************************************************************