-------------------------------------------------------------------------------
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-------------------------------------------------------------------------------
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--
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--
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-- Copyright 2020
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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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-- 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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-- Licensed under the Apache License, Version 2.0 (the "License");
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-- Licensed under the Apache License, Version 2.0 (the "License");
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-- you may not use this file except in compliance with the License.
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-- you may not use this file except in compliance with the License.
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-- You may obtain a copy of the License at
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-- You may obtain a copy of the License at
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--
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--
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-- http://www.apache.org/licenses/LICENSE-2.0
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-- http://www.apache.org/licenses/LICENSE-2.0
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--
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--
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-- Unless required by applicable law or agreed to in writing, software
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-- Unless required by applicable law or agreed to in writing, software
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-- distributed under the License is distributed on an "AS IS" BASIS,
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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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-- 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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-- See the License for the specific language governing permissions and
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-- limitations under the License.
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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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--
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--
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-- Purpose: Test bench for the pipelined radix-2 FFT.
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-- Purpose: Test bench for the pipelined radix-2 FFT.
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--
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--
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-- The testbech uses a blockgenerator to generate data for
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-- The testbech uses a blockgenerator to generate data for
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-- the input of the parallel FFT.
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-- the input of the parallel FFT.
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-- The output of the FFT is stored in a databuffer.
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-- The output of the FFT is stored in a databuffer.
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-- Both the block generator and databuffer are controlled
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-- Both the block generator and databuffer are controlled
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-- via a mm interface.
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-- via a mm interface.
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-- Use this testbench in conjunction with ../python/tc_mmf_fft_r2_pipe.py
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-- Use this testbench in conjunction with ../python/tc_mmf_fft_r2_pipe.py
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--
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--
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-- Usage:
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-- Usage:
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-- > run -all
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-- > run -all
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-- > Run python script in separate terminal: "python tc_mmf_fft_r2_pipe.py --unb 0 --bn 0 --sim"
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-- > Run python script in separate terminal: "python tc_mmf_fft_r2_pipe.py --unb 0 --bn 0 --sim"
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-- > Check the results of the python script.
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-- > Check the results of the python script.
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-- > Stop the simulation manually in Modelsim by pressing the stop-button.
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-- > Stop the simulation manually in Modelsim by pressing the stop-button.
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LIBRARY IEEE, common_pkg_lib, unb_common_lib, astron_mm_lib, astron_diagnostics_lib, dp_pkg_lib, astron_r2sdf_fft_lib;
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LIBRARY IEEE, common_pkg_lib, astron_mm_lib, astron_diagnostics_lib, dp_pkg_lib, astron_r2sdf_fft_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 IEEE.numeric_std.ALL;
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USE IEEE.numeric_std.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 common_lib.common_mem_pkg.ALL;
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USE common_lib.common_mem_pkg.ALL;
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USE common_pkg_lib.common_str_pkg.ALL;
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USE common_pkg_lib.common_str_pkg.ALL;
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USE common_pkg_lib.tb_common_pkg.ALL;
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USE common_pkg_lib.tb_common_pkg.ALL;
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USE common_lib.tb_common_mem_pkg.ALL;
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USE common_lib.tb_common_mem_pkg.ALL;
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USE astron_mm_lib.mm_file_unb_pkg.ALL;
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USE astron_mm_lib.mm_file_unb_pkg.ALL;
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USE astron_mm_lib.mm_file_pkg.ALL;
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USE astron_mm_lib.mm_file_pkg.ALL;
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USE dp_pkg_lib.dp_stream_pkg.ALL;
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USE dp_pkg_lib.dp_stream_pkg.ALL;
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USE astron_r2sdf_fft_lib.rTwoSDFPkg.all;
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USE astron_r2sdf_fft_lib.rTwoSDFPkg.all;
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USE work.fft_pkg.all;
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USE work.fft_pkg.all;
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ENTITY tb_mmf_fft_r2_pipe IS
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ENTITY tb_mmf_fft_r2_pipe IS
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GENERIC(
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GENERIC(
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g_fft : t_fft := (true, false, false, 1, 1, 0, 64, 8, 14, 0, c_dsp_mult_w, 2, true, 56, 2)
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g_fft : t_fft := (true, false, false, 1, 1, 0, 64, 8, 14, 0, c_dsp_mult_w, 2, true, 56, 2)
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-- type t_rtwo_fft is record
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-- type t_rtwo_fft is record
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-- use_reorder : boolean; -- = false for bit-reversed output, true for normal output
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-- use_reorder : boolean; -- = false for bit-reversed output, true for normal output
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-- use_fft_shift : boolean; -- = false for [0, pos, neg] bin frequencies order, true for [neg, 0, pos] bin frequencies order in case of complex input
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-- use_fft_shift : boolean; -- = false for [0, pos, neg] bin frequencies order, true for [neg, 0, pos] bin frequencies order in case of complex input
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-- use_separate : boolean; -- = false for complex input, true for two real inputs
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-- use_separate : boolean; -- = false for complex input, true for two real inputs
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-- nof_chan : natural; -- = default 0, defines the number of channels (=time-multiplexed input signals): nof channels = 2**nof_chan
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-- nof_chan : natural; -- = default 0, defines the number of channels (=time-multiplexed input signals): nof channels = 2**nof_chan
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-- wb_factor : natural; -- = default 1, wideband factor
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-- wb_factor : natural; -- = default 1, wideband factor
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-- twiddle_offset : natural; -- = default 0, twiddle offset for PFT sections in a wideband FFT
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-- twiddle_offset : natural; -- = default 0, twiddle offset for PFT sections in a wideband FFT
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-- nof_points : natural; -- = 1024, N point FFT
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-- nof_points : natural; -- = 1024, N point FFT
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-- in_dat_w : natural; -- = 8, number of input bits
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-- in_dat_w : natural; -- = 8, number of input bits
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-- out_dat_w : natural; -- = 13, number of output bits: in_dat_w + natural((ceil_log2(nof_points))/2 + 2)
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-- out_dat_w : natural; -- = 13, number of output bits: in_dat_w + natural((ceil_log2(nof_points))/2 + 2)
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-- out_gain_w : natural; -- = 0, output gain factor applied after the last stage output, before requantization to out_dat_w
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-- out_gain_w : natural; -- = 0, output gain factor applied after the last stage output, before requantization to out_dat_w
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-- stage_dat_w : natural; -- = 18, data width used between the stages(= DSP multiplier-width)
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-- stage_dat_w : natural; -- = 18, data width used between the stages(= DSP multiplier-width)
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-- guard_w : natural; -- = 2, Guard used to avoid overflow in FFT stage.
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-- guard_w : natural; -- = 2, Guard used to avoid overflow in FFT stage.
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-- guard_enable : boolean; -- = true when input needs guarding, false when input requires no guarding but scaling must be skipped at the last stage(s) (used in wb fft)
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-- guard_enable : boolean; -- = true when input needs guarding, false when input requires no guarding but scaling must be skipped at the last stage(s) (used in wb fft)
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-- stat_data_w : positive; -- = 56
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-- stat_data_w : positive; -- = 56
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-- stat_data_sz : positive; -- = 2
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-- stat_data_sz : positive; -- = 2
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-- end record;
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-- end record;
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);
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);
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END tb_mmf_fft_r2_pipe;
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END tb_mmf_fft_r2_pipe;
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ARCHITECTURE tb OF tb_mmf_fft_r2_pipe IS
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ARCHITECTURE tb OF tb_mmf_fft_r2_pipe IS
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CONSTANT c_sim : BOOLEAN := TRUE;
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CONSTANT c_sim : BOOLEAN := TRUE;
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- Clocks and resets
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-- Clocks and resets
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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CONSTANT c_mm_clk_period : TIME := 1 ns;
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CONSTANT c_mm_clk_period : TIME := 1 ns;
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CONSTANT c_dp_clk_period : TIME := 5 ns;
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CONSTANT c_dp_clk_period : TIME := 5 ns;
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CONSTANT c_dp_pps_period : NATURAL := 64;
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CONSTANT c_dp_pps_period : NATURAL := 64;
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SIGNAL dp_pps : STD_LOGIC;
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SIGNAL dp_pps : STD_LOGIC;
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SIGNAL mm_rst : STD_LOGIC;
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SIGNAL mm_rst : STD_LOGIC;
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SIGNAL mm_clk : STD_LOGIC := '0';
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SIGNAL mm_clk : STD_LOGIC := '0';
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SIGNAL dp_rst : STD_LOGIC;
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SIGNAL dp_rst : STD_LOGIC;
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SIGNAL dp_clk : STD_LOGIC := '0';
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SIGNAL dp_clk : STD_LOGIC := '0';
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- MM buses
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-- MM buses
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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SIGNAL reg_diag_bg_mosi : t_mem_mosi;
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SIGNAL reg_diag_bg_mosi : t_mem_mosi;
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SIGNAL reg_diag_bg_miso : t_mem_miso;
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SIGNAL reg_diag_bg_miso : t_mem_miso;
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SIGNAL ram_diag_bg_mosi : t_mem_mosi;
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SIGNAL ram_diag_bg_mosi : t_mem_mosi;
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SIGNAL ram_diag_bg_miso : t_mem_miso;
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SIGNAL ram_diag_bg_miso : t_mem_miso;
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SIGNAL ram_ss_ss_wide_mosi : t_mem_mosi;
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SIGNAL ram_ss_ss_wide_mosi : t_mem_mosi;
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SIGNAL ram_ss_ss_wide_miso : t_mem_miso;
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SIGNAL ram_ss_ss_wide_miso : t_mem_miso;
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SIGNAL ram_diag_data_buf_re_mosi : t_mem_mosi;
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SIGNAL ram_diag_data_buf_re_mosi : t_mem_mosi;
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SIGNAL ram_diag_data_buf_re_miso : t_mem_miso;
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SIGNAL ram_diag_data_buf_re_miso : t_mem_miso;
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SIGNAL reg_diag_data_buf_re_mosi : t_mem_mosi;
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SIGNAL reg_diag_data_buf_re_mosi : t_mem_mosi;
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SIGNAL reg_diag_data_buf_re_miso : t_mem_miso;
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SIGNAL reg_diag_data_buf_re_miso : t_mem_miso;
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SIGNAL ram_diag_data_buf_im_mosi : t_mem_mosi;
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SIGNAL ram_diag_data_buf_im_mosi : t_mem_mosi;
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SIGNAL ram_diag_data_buf_im_miso : t_mem_miso;
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SIGNAL ram_diag_data_buf_im_miso : t_mem_miso;
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SIGNAL reg_diag_data_buf_im_mosi : t_mem_mosi;
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SIGNAL reg_diag_data_buf_im_mosi : t_mem_mosi;
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SIGNAL reg_diag_data_buf_im_miso : t_mem_miso;
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SIGNAL reg_diag_data_buf_im_miso : t_mem_miso;
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CONSTANT c_nof_channels : NATURAL := 2**g_fft.nof_chan;
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CONSTANT c_nof_channels : NATURAL := 2**g_fft.nof_chan;
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CONSTANT c_nof_streams : POSITIVE := g_fft.wb_factor;
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CONSTANT c_nof_streams : POSITIVE := g_fft.wb_factor;
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CONSTANT c_nof_integration : NATURAL := 8;
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CONSTANT c_nof_integration : NATURAL := 8;
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CONSTANT c_bg_block_len : NATURAL := g_fft.nof_points*c_nof_integration*c_nof_channels;
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CONSTANT c_bg_block_len : NATURAL := g_fft.nof_points*c_nof_integration*c_nof_channels;
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CONSTANT c_bg_buf_adr_w : NATURAL := ceil_log2(c_bg_block_len);
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CONSTANT c_bg_buf_adr_w : NATURAL := ceil_log2(c_bg_block_len);
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CONSTANT c_bg_data_file_index_arr : t_nat_natural_arr := array_init(0, 16, 1);
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CONSTANT c_bg_data_file_index_arr : t_nat_natural_arr := array_init(0, 16, 1);
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CONSTANT c_bg_data_file_prefix : STRING := "UNUSED";
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CONSTANT c_bg_data_file_prefix : STRING := "UNUSED";
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SIGNAL bg_siso_arr : t_dp_siso_arr(0 DOWNTO 0) := (OTHERS=>c_dp_siso_rdy);
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SIGNAL bg_siso_arr : t_dp_siso_arr(0 DOWNTO 0) := (OTHERS=>c_dp_siso_rdy);
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SIGNAL bg_sosi_arr : t_dp_sosi_arr(0 DOWNTO 0);
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SIGNAL bg_sosi_arr : t_dp_sosi_arr(0 DOWNTO 0);
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SIGNAL ss_out_sosi_re_arr : t_dp_sosi_arr(0 DOWNTO 0) := (OTHERS => c_dp_sosi_rst);
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SIGNAL ss_out_sosi_re_arr : t_dp_sosi_arr(0 DOWNTO 0) := (OTHERS => c_dp_sosi_rst);
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SIGNAL ss_out_sosi_im_arr : t_dp_sosi_arr(0 DOWNTO 0) := (OTHERS => c_dp_sosi_rst);
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SIGNAL ss_out_sosi_im_arr : t_dp_sosi_arr(0 DOWNTO 0) := (OTHERS => c_dp_sosi_rst);
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SIGNAL in_re : STD_LOGIC_VECTOR(g_fft.in_dat_w-1 DOWNTO 0);
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SIGNAL in_re : STD_LOGIC_VECTOR(g_fft.in_dat_w-1 DOWNTO 0);
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SIGNAL in_im : STD_LOGIC_VECTOR(g_fft.in_dat_w-1 DOWNTO 0);
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SIGNAL in_im : STD_LOGIC_VECTOR(g_fft.in_dat_w-1 DOWNTO 0);
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SIGNAL in_val : STD_LOGIC := '0';
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SIGNAL in_val : STD_LOGIC := '0';
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SIGNAL out_re : STD_LOGIC_VECTOR(g_fft.out_dat_w-1 DOWNTO 0);
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SIGNAL out_re : STD_LOGIC_VECTOR(g_fft.out_dat_w-1 DOWNTO 0);
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SIGNAL out_im : STD_LOGIC_VECTOR(g_fft.out_dat_w-1 DOWNTO 0);
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SIGNAL out_im : STD_LOGIC_VECTOR(g_fft.out_dat_w-1 DOWNTO 0);
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SIGNAL out_val : STD_LOGIC := '0';
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SIGNAL out_val : STD_LOGIC := '0';
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BEGIN
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BEGIN
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- Clock and reset generation
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-- Clock and reset generation
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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mm_clk <= NOT mm_clk AFTER c_mm_clk_period/2;
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mm_clk <= NOT mm_clk AFTER c_mm_clk_period/2;
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mm_rst <= '1', '0' AFTER c_mm_clk_period*5;
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mm_rst <= '1', '0' AFTER c_mm_clk_period*5;
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dp_clk <= NOT dp_clk AFTER c_dp_clk_period/2;
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dp_clk <= NOT dp_clk AFTER c_dp_clk_period/2;
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dp_rst <= '1', '0' AFTER c_dp_clk_period*5;
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dp_rst <= '1', '0' AFTER c_dp_clk_period*5;
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------------------------------------------------------------------------------
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------------------------------------------------------------------------------
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-- External PPS
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-- External PPS
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------------------------------------------------------------------------------
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------------------------------------------------------------------------------
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proc_common_gen_pulse(1, c_dp_pps_period, '1', dp_clk, dp_pps);
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proc_common_gen_pulse(1, c_dp_pps_period, '1', dp_clk, dp_pps);
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- Procedure that polls a sim control file that can be used to e.g. get
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-- Procedure that polls a sim control file that can be used to e.g. get
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-- the simulation time in ns
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-- the simulation time in ns
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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mmf_poll_sim_ctrl_file(c_mmf_unb_file_path & "sim.ctrl", c_mmf_unb_file_path & "sim.stat");
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mmf_poll_sim_ctrl_file(c_mmf_unb_file_path & "sim.ctrl", c_mmf_unb_file_path & "sim.stat");
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- MM buses
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-- MM buses
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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u_mm_file_reg_diag_bg : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_BG")
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u_mm_file_reg_diag_bg : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_BG")
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PORT MAP(mm_rst, mm_clk, reg_diag_bg_mosi, reg_diag_bg_miso);
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PORT MAP(mm_rst, mm_clk, reg_diag_bg_mosi, reg_diag_bg_miso);
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u_mm_file_ram_diag_bg : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_BG")
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u_mm_file_ram_diag_bg : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_BG")
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PORT MAP(mm_rst, mm_clk, ram_diag_bg_mosi, ram_diag_bg_miso);
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PORT MAP(mm_rst, mm_clk, ram_diag_bg_mosi, ram_diag_bg_miso);
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u_mm_file_ram_diag_data_buf_re : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_DATA_BUFFER_REAL")
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u_mm_file_ram_diag_data_buf_re : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_DATA_BUFFER_REAL")
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PORT MAP(mm_rst, mm_clk, ram_diag_data_buf_re_mosi, ram_diag_data_buf_re_miso);
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PORT MAP(mm_rst, mm_clk, ram_diag_data_buf_re_mosi, ram_diag_data_buf_re_miso);
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u_mm_file_reg_diag_data_buf_re : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_DATA_BUFFER_REAL")
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u_mm_file_reg_diag_data_buf_re : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_DATA_BUFFER_REAL")
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PORT MAP(mm_rst, mm_clk, reg_diag_data_buf_re_mosi, reg_diag_data_buf_re_miso);
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PORT MAP(mm_rst, mm_clk, reg_diag_data_buf_re_mosi, reg_diag_data_buf_re_miso);
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|
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u_mm_file_ram_diag_data_buf_im : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_DATA_BUFFER_IMAG")
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u_mm_file_ram_diag_data_buf_im : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "RAM_DIAG_DATA_BUFFER_IMAG")
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PORT MAP(mm_rst, mm_clk, ram_diag_data_buf_im_mosi, ram_diag_data_buf_im_miso);
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PORT MAP(mm_rst, mm_clk, ram_diag_data_buf_im_mosi, ram_diag_data_buf_im_miso);
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|
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u_mm_file_reg_diag_data_buf_im : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_DATA_BUFFER_IMAG")
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u_mm_file_reg_diag_data_buf_im : mm_file GENERIC MAP(mmf_unb_file_prefix(0, 0, "BN") & "REG_DIAG_DATA_BUFFER_IMAG")
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PORT MAP(mm_rst, mm_clk, reg_diag_data_buf_im_mosi, reg_diag_data_buf_im_miso);
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PORT MAP(mm_rst, mm_clk, reg_diag_data_buf_im_mosi, reg_diag_data_buf_im_miso);
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|
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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-- Source: block generator
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-- Source: block generator
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----------------------------------------------------------------------------
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----------------------------------------------------------------------------
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u_bg : ENTITY astron_diagnostics_lib.mms_diag_block_gen
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u_bg : ENTITY astron_diagnostics_lib.mms_diag_block_gen
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GENERIC MAP(
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GENERIC MAP(
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g_nof_output_streams => c_nof_streams,
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g_nof_output_streams => c_nof_streams,
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g_buf_dat_w => c_nof_complex*g_fft.in_dat_w,
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g_buf_dat_w => c_nof_complex*g_fft.in_dat_w,
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g_buf_addr_w => c_bg_buf_adr_w, -- Waveform buffer size 2**g_buf_addr_w nof samples
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g_buf_addr_w => c_bg_buf_adr_w, -- Waveform buffer size 2**g_buf_addr_w nof samples
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g_file_index_arr => c_bg_data_file_index_arr,
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g_file_index_arr => c_bg_data_file_index_arr,
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g_file_name_prefix => c_bg_data_file_prefix
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g_file_name_prefix => c_bg_data_file_prefix
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)
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)
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PORT MAP(
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PORT MAP(
|
-- System
|
-- System
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mm_rst => mm_rst,
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mm_rst => mm_rst,
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mm_clk => mm_clk,
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mm_clk => mm_clk,
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dp_rst => dp_rst,
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dp_rst => dp_rst,
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dp_clk => dp_clk,
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dp_clk => dp_clk,
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en_sync => dp_pps,
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en_sync => dp_pps,
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-- MM interface
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-- MM interface
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reg_bg_ctrl_mosi => reg_diag_bg_mosi,
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reg_bg_ctrl_mosi => reg_diag_bg_mosi,
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reg_bg_ctrl_miso => reg_diag_bg_miso,
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reg_bg_ctrl_miso => reg_diag_bg_miso,
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ram_bg_data_mosi => ram_diag_bg_mosi,
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ram_bg_data_mosi => ram_diag_bg_mosi,
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ram_bg_data_miso => ram_diag_bg_miso,
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ram_bg_data_miso => ram_diag_bg_miso,
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-- ST interface
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-- ST interface
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out_siso_arr => bg_siso_arr,
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out_siso_arr => bg_siso_arr,
|
out_sosi_arr => bg_sosi_arr
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out_sosi_arr => bg_sosi_arr
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);
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);
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|
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in_re <= bg_sosi_arr(0).re(g_fft.in_dat_w-1 DOWNTO 0);
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in_re <= bg_sosi_arr(0).re(g_fft.in_dat_w-1 DOWNTO 0);
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in_im <= bg_sosi_arr(0).im(g_fft.in_dat_w-1 DOWNTO 0);
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in_im <= bg_sosi_arr(0).im(g_fft.in_dat_w-1 DOWNTO 0);
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in_val <= bg_sosi_arr(0).valid;
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in_val <= bg_sosi_arr(0).valid;
|
|
|
-- DUT = Device Under Test
|
-- DUT = Device Under Test
|
u_dut : ENTITY work.fft_r2_pipe
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u_dut : ENTITY work.fft_r2_pipe
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GENERIC MAP(
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GENERIC MAP(
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g_fft => g_fft -- generics for the FFT
|
g_fft => g_fft -- generics for the FFT
|
)
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)
|
port map(
|
port map(
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clk => dp_clk,
|
clk => dp_clk,
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rst => dp_rst,
|
rst => dp_rst,
|
in_re => in_re,
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in_re => in_re,
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in_im => in_im,
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in_im => in_im,
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in_val => in_val,
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in_val => in_val,
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out_re => out_re,
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out_re => out_re,
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out_im => out_im,
|
out_im => out_im,
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out_val => out_val
|
out_val => out_val
|
);
|
);
|
|
|
ss_out_sosi_re_arr(0).data <= RESIZE_SVEC(out_re, ss_out_sosi_re_arr(0).data'LENGTH);
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ss_out_sosi_re_arr(0).data <= RESIZE_SVEC(out_re, ss_out_sosi_re_arr(0).data'LENGTH);
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ss_out_sosi_re_arr(0).valid <= out_val;
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ss_out_sosi_re_arr(0).valid <= out_val;
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ss_out_sosi_re_arr(0).sync <= out_val;
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ss_out_sosi_re_arr(0).sync <= out_val;
|
|
|
ss_out_sosi_im_arr(0).data <= RESIZE_SVEC(out_im, ss_out_sosi_im_arr(0).data'LENGTH);
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ss_out_sosi_im_arr(0).data <= RESIZE_SVEC(out_im, ss_out_sosi_im_arr(0).data'LENGTH);
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ss_out_sosi_im_arr(0).valid <= out_val;
|
ss_out_sosi_im_arr(0).valid <= out_val;
|
ss_out_sosi_im_arr(0).sync <= out_val;
|
ss_out_sosi_im_arr(0).sync <= out_val;
|
|
|
|
|
----------------------------------------------------------------------------
|
----------------------------------------------------------------------------
|
-- Sink: data buffer real
|
-- Sink: data buffer real
|
----------------------------------------------------------------------------
|
----------------------------------------------------------------------------
|
u_data_buf_re : ENTITY astron_diagnostics_lib.mms_diag_data_buffer
|
u_data_buf_re : ENTITY astron_diagnostics_lib.mms_diag_data_buffer
|
GENERIC MAP (
|
GENERIC MAP (
|
g_nof_streams => c_nof_streams,
|
g_nof_streams => c_nof_streams,
|
g_data_w => g_fft.out_dat_w,
|
g_data_w => g_fft.out_dat_w,
|
g_buf_nof_data => c_bg_block_len,
|
g_buf_nof_data => c_bg_block_len,
|
g_buf_use_sync => FALSE
|
g_buf_use_sync => FALSE
|
)
|
)
|
PORT MAP (
|
PORT MAP (
|
-- System
|
-- System
|
mm_rst => mm_rst,
|
mm_rst => mm_rst,
|
mm_clk => mm_clk,
|
mm_clk => mm_clk,
|
dp_rst => dp_rst,
|
dp_rst => dp_rst,
|
dp_clk => dp_clk,
|
dp_clk => dp_clk,
|
|
|
-- MM interface
|
-- MM interface
|
ram_data_buf_mosi => ram_diag_data_buf_re_mosi,
|
ram_data_buf_mosi => ram_diag_data_buf_re_mosi,
|
ram_data_buf_miso => ram_diag_data_buf_re_miso,
|
ram_data_buf_miso => ram_diag_data_buf_re_miso,
|
|
|
reg_data_buf_mosi => reg_diag_data_buf_re_mosi,
|
reg_data_buf_mosi => reg_diag_data_buf_re_mosi,
|
reg_data_buf_miso => reg_diag_data_buf_re_miso,
|
reg_data_buf_miso => reg_diag_data_buf_re_miso,
|
|
|
-- ST interface
|
-- ST interface
|
in_sync => ss_out_sosi_re_arr(0).sync,
|
in_sync => ss_out_sosi_re_arr(0).sync,
|
in_sosi_arr => ss_out_sosi_re_arr
|
in_sosi_arr => ss_out_sosi_re_arr
|
);
|
);
|
|
|
----------------------------------------------------------------------------
|
----------------------------------------------------------------------------
|
-- Sink: data buffer imag
|
-- Sink: data buffer imag
|
----------------------------------------------------------------------------
|
----------------------------------------------------------------------------
|
u_data_buf_im : ENTITY astron_diagnostics_lib.mms_diag_data_buffer
|
u_data_buf_im : ENTITY astron_diagnostics_lib.mms_diag_data_buffer
|
GENERIC MAP (
|
GENERIC MAP (
|
g_nof_streams => c_nof_streams,
|
g_nof_streams => c_nof_streams,
|
g_data_w => g_fft.out_dat_w,
|
g_data_w => g_fft.out_dat_w,
|
g_buf_nof_data => c_bg_block_len,
|
g_buf_nof_data => c_bg_block_len,
|
g_buf_use_sync => FALSE
|
g_buf_use_sync => FALSE
|
)
|
)
|
PORT MAP (
|
PORT MAP (
|
-- System
|
-- System
|
mm_rst => mm_rst,
|
mm_rst => mm_rst,
|
mm_clk => mm_clk,
|
mm_clk => mm_clk,
|
dp_rst => dp_rst,
|
dp_rst => dp_rst,
|
dp_clk => dp_clk,
|
dp_clk => dp_clk,
|
|
|
-- MM interface
|
-- MM interface
|
ram_data_buf_mosi => ram_diag_data_buf_im_mosi,
|
ram_data_buf_mosi => ram_diag_data_buf_im_mosi,
|
ram_data_buf_miso => ram_diag_data_buf_im_miso,
|
ram_data_buf_miso => ram_diag_data_buf_im_miso,
|
|
|
reg_data_buf_mosi => reg_diag_data_buf_im_mosi,
|
reg_data_buf_mosi => reg_diag_data_buf_im_mosi,
|
reg_data_buf_miso => reg_diag_data_buf_im_miso,
|
reg_data_buf_miso => reg_diag_data_buf_im_miso,
|
|
|
-- ST interface
|
-- ST interface
|
in_sync => ss_out_sosi_im_arr(0).sync,
|
in_sync => ss_out_sosi_im_arr(0).sync,
|
in_sosi_arr => ss_out_sosi_im_arr
|
in_sosi_arr => ss_out_sosi_im_arr
|
);
|
);
|
|
|
END tb;
|
END tb;
|
|
|