-------------------------------------------------------------------------------
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-------------------------------------------------------------------------------
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--
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--
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-- Copyright (C) 2015
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-- Copyright 2020
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-- ASTRON (Netherlands Institute for Radio Astronomy) <http://www.astron.nl/>
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-- ASTRON (Netherlands Institute for Radio Astronomy) <http://www.astron.nl/>
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-- JIVE (Joint Institute for VLBI in Europe) <http://www.jive.nl/>
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-- P.O.Box 2, 7990 AA Dwingeloo, The Netherlands
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-- P.O.Box 2, 7990 AA Dwingeloo, The Netherlands
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--
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--
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-- This program is free software: you can redistribute it and/or modify
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-- Licensed under the Apache License, Version 2.0 (the "License");
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-- it under the terms of the GNU General Public License as published by
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-- you may not use this file except in compliance with the License.
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-- the Free Software Foundation, either version 3 of the License, or
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-- You may obtain a copy of the License at
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-- (at your option) any later version.
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--
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--
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-- This program is distributed in the hope that it will be useful,
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-- http://www.apache.org/licenses/LICENSE-2.0
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-- but WITHOUT ANY WARRANTY; without even the implied warranty of
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-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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-- GNU General Public License for more details.
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--
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--
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-- You should have received a copy of the GNU General Public License
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-- Unless required by applicable law or agreed to in writing, software
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-- along with this program. If not, see <http://www.gnu.org/licenses/>.
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-- distributed under the License is distributed on an "AS IS" BASIS,
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-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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-- See the License for the specific language governing permissions and
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-- limitations under the License.
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--
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--
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-------------------------------------------------------------------------------
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-------------------------------------------------------------------------------
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LIBRARY IEEE, common_pkg_lib, dp_pkg_lib;
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LIBRARY IEEE, common_pkg_lib, dp_pkg_lib;
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USE IEEE.std_logic_1164.ALL;
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USE IEEE.std_logic_1164.ALL;
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USE common_pkg_lib.common_pkg.ALL;
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USE common_pkg_lib.common_pkg.ALL;
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USE dp_pkg_lib.tb_dp_pkg.ALL;
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USE dp_pkg_lib.tb_dp_pkg.ALL;
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-- Purpose: Verify multiple variations of tb_dp_repack_data
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-- Purpose: Verify multiple variations of tb_dp_repack_data
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-- Description:
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-- Description:
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-- Usage:
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-- Usage:
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-- > as 6
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-- > as 6
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-- > run -all
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-- > run -all
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ENTITY tb_tb_dp_repack_data IS
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ENTITY tb_tb_dp_repack_data IS
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END tb_tb_dp_repack_data;
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END tb_tb_dp_repack_data;
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ARCHITECTURE tb OF tb_tb_dp_repack_data IS
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ARCHITECTURE tb OF tb_tb_dp_repack_data IS
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CONSTANT c_nof_repeat : NATURAL := 5;
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CONSTANT c_nof_repeat : NATURAL := 5;
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CONSTANT c_flow : t_dp_flow_control_enum_arr := c_dp_flow_control_enum_arr;
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CONSTANT c_flow : t_dp_flow_control_enum_arr := c_dp_flow_control_enum_arr;
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CONSTANT c_bool : t_nat_boolean_arr := c_nat_boolean_arr;
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CONSTANT c_bool : t_nat_boolean_arr := c_nat_boolean_arr;
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SIGNAL tb_end : STD_LOGIC := '0'; -- declare tb_end to avoid 'No objects found' error on 'when -label tb_end'
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SIGNAL tb_end : STD_LOGIC := '0'; -- declare tb_end to avoid 'No objects found' error on 'when -label tb_end'
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BEGIN
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BEGIN
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-- -- general
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-- -- general
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-- g_flow_control_stimuli : t_dp_flow_control_enum := e_active; -- always e_active, e_random or e_pulse flow control
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-- g_flow_control_stimuli : t_dp_flow_control_enum := e_active; -- always e_active, e_random or e_pulse flow control
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-- g_flow_control_verify : t_dp_flow_control_enum := e_active; -- always e_active, e_random or e_pulse flow control
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-- g_flow_control_verify : t_dp_flow_control_enum := e_active; -- always e_active, e_random or e_pulse flow control
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-- -- specific
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-- -- specific
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-- g_in_dat_w : NATURAL := 5;
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-- g_in_dat_w : NATURAL := 5;
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-- g_in_nof_words : NATURAL := 2;
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-- g_in_nof_words : NATURAL := 2;
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-- g_pack_dat_w : NATURAL := 16;
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-- g_pack_dat_w : NATURAL := 16;
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-- g_pack_nof_words : NATURAL := 1;
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-- g_pack_nof_words : NATURAL := 1;
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-- g_in_bypass : BOOLEAN := FALSE; -- can use TRUE when g_in_nof_words=1 or g_in_nof_words=g_out_nof_words
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-- g_in_bypass : BOOLEAN := FALSE; -- can use TRUE when g_in_nof_words=1 or g_in_nof_words=g_out_nof_words
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-- g_pack_bypass : BOOLEAN := FALSE; -- can use TRUE when g_out_nof_words=1 or g_in_nof_words=g_out_nof_words
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-- g_pack_bypass : BOOLEAN := FALSE; -- can use TRUE when g_out_nof_words=1 or g_in_nof_words=g_out_nof_words
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-- g_in_symbol_w : NATURAL := 1; -- default 1 for snk_in.empty in nof bits, else use power of 2
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-- g_in_symbol_w : NATURAL := 1; -- default 1 for snk_in.empty in nof bits, else use power of 2
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-- g_pack_symbol_w : NATURAL := 1; -- default 1 for src_out.empty in nof bits, else use power of 2
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-- g_pack_symbol_w : NATURAL := 1; -- default 1 for src_out.empty in nof bits, else use power of 2
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-- g_nof_repeat : NATURAL := 10;
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-- g_nof_repeat : NATURAL := 10;
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-- g_pkt_len : NATURAL := 11; -- if not a multiple of g_in_nof_words then the input stage flush creates gap between blocks
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-- g_pkt_len : NATURAL := 11; -- if not a multiple of g_in_nof_words then the input stage flush creates gap between blocks
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-- g_pkt_gap : NATURAL := 0
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-- g_pkt_gap : NATURAL := 0
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g_flow_control_stimuli : FOR I IN 0 TO 2 GENERATE -- 0 = e_active, 1 = e_random, 2 = e_pulse
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g_flow_control_stimuli : FOR I IN 0 TO 2 GENERATE -- 0 = e_active, 1 = e_random, 2 = e_pulse
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g_flow_control_verify : FOR J IN 0 TO 2 GENERATE -- 0 = e_active, 1 = e_random, 2 = e_pulse
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g_flow_control_verify : FOR J IN 0 TO 2 GENERATE -- 0 = e_active, 1 = e_random, 2 = e_pulse
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-------------------------------------------------------------------------
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-------------------------------------------------------------------------
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-- Tests that can use bypass
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-- Tests that can use bypass
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-- . g_in_nof_words = 1
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-- . g_in_nof_words = 1
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-- . g_out_nof_words = 1
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-- . g_out_nof_words = 1
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-- . g_in_nof_words = g_in_nof_words >= 1
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-- . g_in_nof_words = g_in_nof_words >= 1
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-------------------------------------------------------------------------
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-------------------------------------------------------------------------
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gen_bool_bypass : FOR K IN 0 TO 1 GENERATE
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gen_bool_bypass : FOR K IN 0 TO 1 GENERATE
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gen_bool_bypass : FOR L IN 0 TO 1 GENERATE
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gen_bool_bypass : FOR L IN 0 TO 1 GENERATE
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-- no repack, g_in_nof_words = g_out_nof_words = 1
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-- no repack, g_in_nof_words = g_out_nof_words = 1
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u_16_1_16_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words
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u_16_1_16_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words
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u_16_1_16_1_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words, odd
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u_16_1_16_1_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words, odd
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u_16_1_16_1_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len > g_in_nof_words, even
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u_16_1_16_1_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len > g_in_nof_words, even
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u_16_1_16_1_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len = g_in_nof_words
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u_16_1_16_1_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len = g_in_nof_words
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u_16_1_16_1_len_1_gap_1 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 1, 1); -- g_pkt_gap > 0
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u_16_1_16_1_len_1_gap_1 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 1, 16, 1, c_bool(K), c_bool(L), 1, 1, c_nof_repeat, 1, 1); -- g_pkt_gap > 0
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END GENERATE;
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END GENERATE;
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-- no repack, g_in_nof_words = g_out_nof_words > 1
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-- no repack, g_in_nof_words = g_out_nof_words > 1
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u_16_3_16_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 3, 16, 3, c_bool(K), c_bool(K), 1, 1, c_nof_repeat, 10, 0);
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u_16_3_16_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 16, 3, 16, 3, c_bool(K), c_bool(K), 1, 1, c_nof_repeat, 10, 0);
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-- g_in_nof_words > g_pack_nof_words can use always active stimuli except when g_pkt_len MOD g_in_nof_words /= 0, because then the input stage needs to flush
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-- g_in_nof_words > g_pack_nof_words can use always active stimuli except when g_pkt_len MOD g_in_nof_words /= 0, because then the input stage needs to flush
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u_8_4_32_1_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
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u_8_4_32_1_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
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u_8_4_32_1_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
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u_8_4_32_1_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
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u_8_4_32_1_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len > g_in_nof_words, MOD /= 0
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u_8_4_32_1_len_12_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 12, 0); -- g_pkt_len > g_in_nof_words, MOD = 0
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u_8_4_32_1_len_12_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 12, 0); -- g_pkt_len > g_in_nof_words, MOD = 0
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u_8_4_32_1_len_12_gap_2 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 12, 2); -- g_pkt_gap > 0
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u_8_4_32_1_len_12_gap_2 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 4, 32, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 12, 2); -- g_pkt_gap > 0
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-- g_in_nof_words < g_pack_nof_words will apply backpressure, because the output stage needs to output more
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-- g_in_nof_words < g_pack_nof_words will apply backpressure, because the output stage needs to output more
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u_32_1_8_4_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len = g_in_nof_words
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u_32_1_8_4_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len = g_in_nof_words
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u_32_1_8_4_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len > g_in_nof_words
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u_32_1_8_4_len_11_gap_1 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 11, 1); -- g_pkt_gap > 0
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u_32_1_8_4_len_11_gap_1 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 8, 4, c_bool(K), FALSE, 1, 1, c_nof_repeat, 11, 1); -- g_pkt_gap > 0
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-- g_in_dat_w MOD 8 /= 0, g_in_nof_words=1
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-- g_in_dat_w MOD 8 /= 0, g_in_nof_words=1
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u_14_1_8_2_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 14, 1, 8, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- repack with subsection padding, even multiple of g_in_nof_words
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u_14_1_8_2_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 14, 1, 8, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- repack with subsection padding, even multiple of g_in_nof_words
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u_14_1_8_2_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 14, 1, 8, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 11, 0); -- repack with subsection padding, odd multiple of g_in_nof_words
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u_14_1_8_2_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 14, 1, 8, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 11, 0); -- repack with subsection padding, odd multiple of g_in_nof_words
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-- g_in_dat_w MOD 8 /= 0, g_out_nof_words=1
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-- g_in_dat_w MOD 8 /= 0, g_out_nof_words=1
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u_5_2_16_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 5, 2, 16, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 10, 0); -- repack with subsection padding, integer multiple of g_in_nof_words
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u_5_2_16_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 5, 2, 16, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 10, 0); -- repack with subsection padding, integer multiple of g_in_nof_words
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u_5_2_16_1_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 5, 2, 16, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 11, 0); -- repack with subsection padding, fractional multiple of g_in_nof_words
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u_5_2_16_1_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 5, 2, 16, 1, FALSE, c_bool(K), 1, 1, c_nof_repeat, 11, 0); -- repack with subsection padding, fractional multiple of g_in_nof_words
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-- g_in_nof_words=1, g_pack_nof_words>1
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-- g_in_nof_words=1, g_pack_nof_words>1
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u_8_1_4_2_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 1, 4, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0);
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u_8_1_4_2_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 1, 4, 2, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0);
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u_512_1_32_16_len_1_gap_20 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 512, 1, 32, 16, c_bool(K), FALSE, 1, 1, c_nof_repeat, 1, 20); -- pack a larger header slv into g_pack_dat_w words
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u_512_1_32_16_len_1_gap_20 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 512, 1, 32, 16, c_bool(K), FALSE, 1, 1, c_nof_repeat, 1, 20); -- pack a larger header slv into g_pack_dat_w words
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-- serialize to and deserialize from g_pack_dat_w=1 bit
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-- serialize to and deserialize from g_pack_dat_w=1 bit
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u_8_1_1_8_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 1, 1, 8, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pack_dat_w=1
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u_8_1_1_8_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 8, 1, 1, 8, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pack_dat_w=1
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u_32_1_1_32_len_10_gap_7 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 1, 32, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 7); -- g_pack_dat_w=1
|
u_32_1_1_32_len_10_gap_7 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 32, 1, 1, 32, c_bool(K), FALSE, 1, 1, c_nof_repeat, 10, 7); -- g_pack_dat_w=1
|
|
|
-- g_in_symbol_w /= 1, g_out_symbol_w /= 1
|
-- g_in_symbol_w /= 1, g_out_symbol_w /= 1
|
u_20_1_8_3_symbol_1_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 1, 4, c_nof_repeat, 10, 0); -- no repack
|
u_20_1_8_3_symbol_1_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 1, 4, c_nof_repeat, 10, 0); -- no repack
|
u_20_1_8_3_symbol_4_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 4, 1, c_nof_repeat, 10, 0); -- no repack
|
u_20_1_8_3_symbol_4_1_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 4, 1, c_nof_repeat, 10, 0); -- no repack
|
u_20_1_8_3_symbol_4_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 4, 4, c_nof_repeat, 10, 0); -- no repack
|
u_20_1_8_3_symbol_4_4_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 20, 1, 8, 3, c_bool(K), FALSE, 4, 4, c_nof_repeat, 10, 0); -- no repack
|
|
|
-- pack ETH/IP/UDP header, g_in_symbol_w = 8, g_out_symbol_w = 8
|
-- pack ETH/IP/UDP header, g_in_symbol_w = 8, g_out_symbol_w = 8
|
u_336_1_32_11_symbol_8_8_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 336, 1, 32, 11, c_bool(K), FALSE, 8, 8, c_nof_repeat, 1, 0); --pack to 32 bit --> empty = 2
|
u_336_1_32_11_symbol_8_8_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 336, 1, 32, 11, c_bool(K), FALSE, 8, 8, c_nof_repeat, 1, 0); --pack to 32 bit --> empty = 2
|
u_336_1_64_6_symbol_8_8_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 336, 1, 64, 6, c_bool(K), FALSE, 8, 8, c_nof_repeat, 1, 0); --pack to 64 bit --> empty = 6
|
u_336_1_64_6_symbol_8_8_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 336, 1, 64, 6, c_bool(K), FALSE, 8, 8, c_nof_repeat, 1, 0); --pack to 64 bit --> empty = 6
|
END GENERATE;
|
END GENERATE;
|
|
|
-------------------------------------------------------------------------
|
-------------------------------------------------------------------------
|
-- Tests that cannot use bypass
|
-- Tests that cannot use bypass
|
-------------------------------------------------------------------------
|
-------------------------------------------------------------------------
|
|
|
-- g_in_nof_words > 1 and g_pack_nof_words > 1
|
-- g_in_nof_words > 1 and g_pack_nof_words > 1
|
u_24_2_16_3_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_24_2_16_3_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_24_2_16_3_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
|
u_24_2_16_3_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
|
u_24_2_16_3_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_24_2_16_3_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_24_2_16_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
u_24_2_16_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
u_24_2_16_3_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_24_2_16_3_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
|
|
u_24_2_16_3_len_11_gap_3 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 3); -- g_pkt_gap > 0
|
u_24_2_16_3_len_11_gap_3 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 24, 2, 16, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 3); -- g_pkt_gap > 0
|
|
|
-- g_in_dat_w MOD 8 /= 0
|
-- g_in_dat_w MOD 8 /= 0
|
u_6_5_10_3_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_4_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 4, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_4_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 4, 0); -- g_pkt_len < g_in_nof_words
|
u_6_5_10_3_len_5_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 5, 0); -- g_pkt_len = g_in_nof_words
|
u_6_5_10_3_len_5_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 5, 0); -- g_pkt_len = g_in_nof_words
|
u_6_5_10_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
u_6_5_10_3_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
u_6_5_10_3_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_6_5_10_3_len_11_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 11, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
|
|
u_6_5_10_3_len_21_gap_3 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 21, 3); -- g_pkt_gap > 0
|
u_6_5_10_3_len_21_gap_3 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 6, 5, 10, 3, FALSE, FALSE, 1, 1, c_nof_repeat, 21, 3); -- g_pkt_gap > 0
|
|
|
-- subsection padding, g_in_dat_w * g_in_nof_words < g_pack_dat_w * g_pack_nof_words
|
-- subsection padding, g_in_dat_w * g_in_nof_words < g_pack_dat_w * g_pack_nof_words
|
u_18_2_8_5_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_18_2_8_5_len_1_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 1, 0); -- g_pkt_len < g_in_nof_words
|
u_18_2_8_5_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
|
u_18_2_8_5_len_2_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 2, 0); -- g_pkt_len = g_in_nof_words
|
u_18_2_8_5_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_18_2_8_5_len_3_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 3, 0); -- g_pkt_len = fractional multiple of g_in_nof_words
|
u_18_2_8_5_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
u_18_2_8_5_len_10_gap_0 : ENTITY work.tb_dp_repack_data GENERIC MAP (c_flow(I), c_flow(J), 18, 2, 8, 5, FALSE, FALSE, 1, 1, c_nof_repeat, 10, 0); -- g_pkt_len = integer multiple of g_in_nof_words
|
|
|
END GENERATE;
|
END GENERATE;
|
END GENERATE;
|
END GENERATE;
|
|
|
END tb;
|
END tb;
|
|
|