434 lines
21 KiB
VHDL
434 lines
21 KiB
VHDL
-- #################################################################################################
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-- # << NEORV32 - Stream Link Interface (SLINK) >> #
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-- # ********************************************************************************************* #
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-- # Up to 8 input (RX) and up to 8 output (TX) stream links are supported. Each link provides an #
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-- # internal FIFO for buffering. Each stream direction provides a global interrupt to indicate #
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-- # that a RX link has received new data or that a TX link has finished sending data #
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-- # (if FIFO_DEPTH = 1) OR if RX/TX link FIFO has become half full (if FIFO_DEPTH > 1). #
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-- # ********************************************************************************************* #
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-- # BSD 3-Clause License #
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-- # #
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-- # Copyright (c) 2023, Stephan Nolting. All rights reserved. #
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-- # #
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-- # Redistribution and use in source and binary forms, with or without modification, are #
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-- # permitted provided that the following conditions are met: #
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-- # #
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-- # 1. Redistributions of source code must retain the above copyright notice, this list of #
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-- # conditions and the following disclaimer. #
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-- # #
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-- # 2. Redistributions in binary form must reproduce the above copyright notice, this list of #
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-- # conditions and the following disclaimer in the documentation and/or other materials #
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-- # provided with the distribution. #
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-- # #
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-- # 3. Neither the name of the copyright holder nor the names of its contributors may be used to #
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-- # endorse or promote products derived from this software without specific prior written #
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-- # permission. #
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-- # #
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-- # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS #
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-- # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF #
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-- # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE #
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-- # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, #
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-- # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE #
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-- # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED #
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-- # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING #
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-- # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED #
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-- # OF THE POSSIBILITY OF SUCH DAMAGE. #
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-- # ********************************************************************************************* #
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-- # The NEORV32 Processor - https://github.com/stnolting/neorv32 (c) Stephan Nolting #
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-- #################################################################################################
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library ieee;
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use ieee.std_logic_1164.all;
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use ieee.numeric_std.all;
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library neorv32;
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use neorv32.neorv32_package.all;
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entity neorv32_slink is
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generic (
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SLINK_NUM_TX : natural; -- number of TX links (0..8)
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SLINK_NUM_RX : natural; -- number of TX links (0..8)
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SLINK_TX_FIFO : natural; -- TX fifo depth, has to be a power of two
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SLINK_RX_FIFO : natural -- RX fifo depth, has to be a power of two
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);
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port (
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-- host access --
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clk_i : in std_ulogic; -- global clock line
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rstn_i : in std_ulogic; -- global reset line, low-active, async
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addr_i : in std_ulogic_vector(31 downto 0); -- address
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rden_i : in std_ulogic; -- read enable
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wren_i : in std_ulogic; -- write enable
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data_i : in std_ulogic_vector(31 downto 0); -- data in
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data_o : out std_ulogic_vector(31 downto 0); -- data out
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ack_o : out std_ulogic; -- transfer acknowledge
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-- interrupt --
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irq_tx_o : out std_ulogic;
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irq_rx_o : out std_ulogic;
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-- TX stream interfaces --
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slink_tx_dat_o : out sdata_8x32_t; -- output data
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slink_tx_val_o : out std_ulogic_vector(7 downto 0); -- valid output
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slink_tx_rdy_i : in std_ulogic_vector(7 downto 0); -- ready to send
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slink_tx_lst_o : out std_ulogic_vector(7 downto 0); -- last data of packet
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-- RX stream interfaces --
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slink_rx_dat_i : in sdata_8x32_t; -- input data
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slink_rx_val_i : in std_ulogic_vector(7 downto 0); -- valid input
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slink_rx_rdy_o : out std_ulogic_vector(7 downto 0); -- ready to receive
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slink_rx_lst_i : in std_ulogic_vector(7 downto 0) -- last data of packet
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);
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end neorv32_slink;
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architecture neorv32_slink_rtl of neorv32_slink is
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-- IO space: module base address --
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constant hi_abb_c : natural := index_size_f(io_size_c)-1; -- high address boundary bit
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constant lo_abb_c : natural := index_size_f(slink_size_c); -- low address boundary bit
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-- control register bits --
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constant ctrl_en_c : natural := 0; -- r/w: global enable/reset
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constant ctrl_rx_num_lsb_c : natural := 16; -- r/-: log2(RX FIFO size)
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constant ctrl_rx_num_msb_c : natural := 19;
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constant ctrl_tx_num_lsb_c : natural := 20; -- r/-: log2(TX FIFO size)
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constant ctrl_tx_num_msb_c : natural := 23;
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constant ctrl_rx_size_lsb_c : natural := 24; -- r/-: log2(RX FIFO size)
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constant ctrl_rx_size_msb_c : natural := 27;
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constant ctrl_tx_size_lsb_c : natural := 28; -- r/-: log2(TX FIFO size)
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constant ctrl_tx_size_msb_c : natural := 31;
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-- interrupt register bits --
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constant irq_rx_mode_lsb_c : natural := 0;
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constant irq_rx_mode_msb_c : natural := 15;
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constant irq_tx_mode_lsb_c : natural := 16;
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constant irq_tx_mode_msb_c : natural := 31;
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-- status register bits --
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constant status_empty_lsb_c : natural := 0; -- r/-: set if RX/TX link 0..7 FIFO is empty
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constant status_empty_msb_c : natural := 7;
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constant status_half_lsb_c : natural := 8; -- r/-: set if RX/TX link 0..7 FIFO is half full
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constant status_half_msb_c : natural := 15;
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constant status_full_lsb_c : natural := 16; -- r/-: set if RX/TX link 0..7 FIFO is full
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constant status_full_msb_c : natural := 23;
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constant status_last_lsb_c : natural := 24; -- r/(w): set TX packet end of link 0..7
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constant status_last_msb_c : natural := 31;
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-- bus access control --
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signal acc_en : std_ulogic;
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signal addr : std_ulogic_vector(31 downto 0);
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signal wren : std_ulogic; -- word write enable
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signal rden : std_ulogic; -- read enable
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-- control registers --
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signal enable : std_ulogic; -- global enable
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signal irq_rx_mode : std_ulogic_vector(15 downto 0);
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signal irq_tx_mode : std_ulogic_vector(15 downto 0);
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signal tx_fifo_last : std_ulogic_vector(07 downto 0);
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-- FIFO interface --
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type fifo_data_t is array (0 to 7) of std_ulogic_vector(31 downto 0);
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type fifo_t is record
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avail : std_ulogic_vector(7 downto 0);
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half : std_ulogic_vector(7 downto 0);
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free : std_ulogic_vector(7 downto 0);
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we : std_ulogic_vector(7 downto 0);
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re : std_ulogic_vector(7 downto 0);
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wlast : std_ulogic_vector(7 downto 0);
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rlast : std_ulogic_vector(7 downto 0);
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clr : std_ulogic_vector(7 downto 0);
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rdata : fifo_data_t;
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wdata : fifo_data_t;
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end record;
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signal rx_fifo, tx_fifo: fifo_t;
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-- link select --
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signal link_sel : std_ulogic_vector(7 downto 0);
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-- interrupt generator --
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type trigger_t is array (0 to 7) of std_ulogic_vector(1 downto 0);
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type irq_t is record
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trigger : trigger_t; -- rising-edge detector
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fire : std_ulogic_vector(7 downto 0);
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end record;
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signal rx_irq, tx_irq : irq_t;
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begin
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-- Sanity Checks --------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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assert not (is_power_of_two_f(SLINK_TX_FIFO) = false) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_TX_FIFO> has to be a power of two." severity error;
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assert not (SLINK_TX_FIFO > 2**15) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_TX_FIFO> has to be 1..32768." severity error;
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--
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assert not (is_power_of_two_f(SLINK_RX_FIFO) = false) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_RX_FIFO> has to be a power of two." severity error;
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assert not (SLINK_RX_FIFO > 2**15) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_RX_FIFO> has to be 1..32768." severity error;
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--
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assert not (SLINK_NUM_RX > 8) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_NUM_RX> has to be 0..8." severity error;
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assert not (SLINK_NUM_TX > 8) report "NEORV32 PROCESSOR CONFIG ERROR: SLINK <SLINK_NUM_TX> has to be 0..8." severity error;
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-- Access Control -------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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acc_en <= '1' when (addr_i(hi_abb_c downto lo_abb_c) = slink_base_c(hi_abb_c downto lo_abb_c)) else '0';
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addr <= slink_base_c(31 downto lo_abb_c) & addr_i(lo_abb_c-1 downto 2) & "00"; -- word aligned
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wren <= acc_en and wren_i;
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rden <= acc_en and rden_i;
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-- Write Access ---------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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write_access: process(rstn_i, clk_i)
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begin
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if (rstn_i = '0') then
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enable <= '0';
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irq_rx_mode <= (others => '0');
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irq_tx_mode <= (others => '0');
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tx_fifo_last <= (others => '0');
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elsif rising_edge(clk_i) then
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if (wren = '1') then
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if (addr = slink_ctrl_c) then -- control register
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enable <= data_i(ctrl_en_c);
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end if;
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if (addr = slink_irq_c) then -- interrupt configuration register
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irq_rx_mode <= data_i(irq_rx_mode_msb_c downto irq_rx_mode_lsb_c);
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irq_tx_mode <= data_i(irq_tx_mode_msb_c downto irq_tx_mode_lsb_c);
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end if;
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if (addr = slink_tx_status_c) then -- TX link status (end-of-packet)
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tx_fifo_last <= data_i(status_last_msb_c downto status_last_lsb_c);
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end if;
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end if;
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end if;
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end process write_access;
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-- Read Access ----------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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read_access: process(clk_i)
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begin
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if rising_edge(clk_i) then
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ack_o <= rden or wren; -- bus access acknowledge
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data_o <= (others => '0');
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if (rden = '1') then
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case addr is
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when slink_ctrl_c => -- control register
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data_o(ctrl_en_c) <= enable;
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data_o(ctrl_rx_num_msb_c downto ctrl_rx_num_lsb_c) <= std_ulogic_vector(to_unsigned(SLINK_NUM_RX, 4));
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data_o(ctrl_tx_num_msb_c downto ctrl_tx_num_lsb_c) <= std_ulogic_vector(to_unsigned(SLINK_NUM_TX, 4));
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data_o(ctrl_rx_size_msb_c downto ctrl_rx_size_lsb_c) <= std_ulogic_vector(to_unsigned(index_size_f(SLINK_RX_FIFO), 4));
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data_o(ctrl_tx_size_msb_c downto ctrl_tx_size_lsb_c) <= std_ulogic_vector(to_unsigned(index_size_f(SLINK_TX_FIFO), 4));
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when slink_irq_c => -- interrupt configuration register
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data_o((SLINK_NUM_RX+irq_rx_mode_lsb_c)-1 downto irq_rx_mode_lsb_c) <= irq_rx_mode(SLINK_NUM_RX-1 downto 0);
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data_o((SLINK_NUM_TX+irq_tx_mode_lsb_c)-1 downto irq_tx_mode_lsb_c) <= irq_tx_mode(SLINK_NUM_TX-1 downto 0);
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when slink_rx_status_c => -- RX status register
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for i in 0 to SLINK_NUM_RX-1 loop
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data_o(status_empty_lsb_c + i) <= not rx_fifo.avail(i);
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data_o(status_half_lsb_c + i) <= rx_fifo.half(i);
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data_o(status_full_lsb_c + i) <= not rx_fifo.free(i);
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data_o(status_last_lsb_c + i) <= rx_fifo.rlast(i);
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end loop;
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when slink_tx_status_c => -- TX link status register
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for i in 0 to SLINK_NUM_TX-1 loop
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data_o(status_empty_lsb_c + i) <= not tx_fifo.avail(i);
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data_o(status_half_lsb_c + i) <= tx_fifo.half(i);
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data_o(status_full_lsb_c + i) <= not tx_fifo.free(i);
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data_o(status_last_lsb_c + i) <= tx_fifo_last(i); -- from register!
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end loop;
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when slink_link0_c => data_o <= rx_fifo.rdata(0); -- RX link 0 data
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when slink_link1_c => data_o <= rx_fifo.rdata(1); -- RX link 1 data
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when slink_link2_c => data_o <= rx_fifo.rdata(2); -- RX link 2 data
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when slink_link3_c => data_o <= rx_fifo.rdata(3); -- RX link 3 data
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when slink_link4_c => data_o <= rx_fifo.rdata(4); -- RX link 4 data
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when slink_link5_c => data_o <= rx_fifo.rdata(5); -- RX link 5 data
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when slink_link6_c => data_o <= rx_fifo.rdata(6); -- RX link 6 data
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when slink_link7_c => data_o <= rx_fifo.rdata(7); -- RX link 7 data
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when others => data_o <= (others => '0');
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end case;
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end if;
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end if;
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end process read_access;
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-- Link Control ---------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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link_select: process(addr)
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begin
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case addr(5 downto 2) is -- MSB = data fifo access at all?
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when "1000" => link_sel <= "00000001";
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when "1001" => link_sel <= "00000010";
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when "1010" => link_sel <= "00000100";
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when "1011" => link_sel <= "00001000";
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when "1100" => link_sel <= "00010000";
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when "1101" => link_sel <= "00100000";
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when "1110" => link_sel <= "01000000";
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when "1111" => link_sel <= "10000000";
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when others => link_sel <= "00000000";
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end case;
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end process link_select;
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-- global FIFO control --
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fifo_control:
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for i in 0 to 7 generate
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tx_fifo.clr(i) <= not enable;
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tx_fifo.we(i) <= link_sel(i) and wren;
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tx_fifo.wlast(i) <= tx_fifo_last(i);
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tx_fifo.wdata(i) <= data_i;
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--
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rx_fifo.clr(i) <= not enable;
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rx_fifo.re(i) <= link_sel(i) and rden;
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end generate;
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-- TX Links -------------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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tx_gen:
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for i in 0 to SLINK_NUM_TX-1 generate
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-- data FIFO --
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tx_fifo_inst: neorv32_fifo
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generic map (
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FIFO_DEPTH => SLINK_TX_FIFO, -- number of fifo entries; has to be a power of two; min 1
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FIFO_WIDTH => 32+1, -- size of data elements in fifo
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FIFO_RSYNC => false, -- async read
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FIFO_SAFE => true, -- safe access
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FIFO_GATE => false -- no output gate required
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)
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port map (
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clk_i => clk_i, -- clock, rising edge
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rstn_i => '1', -- async reset, low-active
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clear_i => tx_fifo.clr(i), -- sync reset, high-active
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half_o => tx_fifo.half(i), -- FIFO is at least half full
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wdata_i(31 downto 0) => tx_fifo.wdata(i), -- write data
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wdata_i(32) => tx_fifo.wlast(i), -- end of packet
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we_i => tx_fifo.we(i), -- write enable
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free_o => tx_fifo.free(i), -- at least one entry is free when set
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re_i => tx_fifo.re(i), -- read enable
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rdata_o(31 downto 0) => tx_fifo.rdata(i), -- read data
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rdata_o(32) => tx_fifo.rlast(i), -- end of packet
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avail_o => tx_fifo.avail(i) -- data available when set
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);
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-- stream link interface --
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tx_fifo.re(i) <= slink_tx_rdy_i(i);
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slink_tx_dat_o(i) <= tx_fifo.rdata(i);
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slink_tx_val_o(i) <= tx_fifo.avail(i);
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slink_tx_lst_o(i) <= tx_fifo.rlast(i) and tx_fifo.avail(i);
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end generate;
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-- terminate unimplemented links --
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tx_terminate:
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for i in SLINK_NUM_TX to 7 generate
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tx_fifo.half(i) <= '0';
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tx_fifo.free(i) <= '0';
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tx_fifo.re(i) <= '0';
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tx_fifo.rdata(i) <= (others => '0');
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tx_fifo.rlast(i) <= '0';
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tx_fifo.avail(i) <= '0';
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--
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slink_tx_dat_o(i) <= (others => '0');
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slink_tx_val_o(i) <= '0';
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slink_tx_lst_o(i) <= '0';
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end generate;
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-- RX Links -------------------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
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rx_gen:
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for i in 0 to SLINK_NUM_RX-1 generate
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-- data FIFO --
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rx_fifo_inst: neorv32_fifo
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generic map (
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FIFO_DEPTH => SLINK_RX_FIFO, -- number of fifo entries; has to be a power of two; min 1
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FIFO_WIDTH => 32+1, -- size of data elements in fifo
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FIFO_RSYNC => false, -- async read
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FIFO_SAFE => true, -- safe access
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FIFO_GATE => false -- no output gate required
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)
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port map (
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clk_i => clk_i, -- clock, rising edge
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rstn_i => '1', -- async reset, low-active
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clear_i => rx_fifo.clr(i), -- sync reset, high-active
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half_o => rx_fifo.half(i), -- FIFO is at least half full
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wdata_i(31 downto 0) => rx_fifo.wdata(i), -- write data
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wdata_i(32) => rx_fifo.wlast(i), -- end of packet
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we_i => rx_fifo.we(i), -- write enable
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free_o => rx_fifo.free(i), -- at least one entry is free when set
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re_i => rx_fifo.re(i), -- read enable
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rdata_o(31 downto 0) => rx_fifo.rdata(i), -- read data
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rdata_o(32) => rx_fifo.rlast(i), -- end of packet
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avail_o => rx_fifo.avail(i) -- data available when set
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);
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-- stream link interface --
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rx_fifo.wdata(i) <= slink_rx_dat_i(i);
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rx_fifo.we(i) <= slink_rx_val_i(i);
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rx_fifo.wlast(i) <= slink_rx_lst_i(i);
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slink_rx_rdy_o(i) <= rx_fifo.free(i);
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end generate;
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-- terminate unimplemented links --
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rx_terminate:
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for i in SLINK_NUM_RX to 7 generate
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rx_fifo.half(i) <= '0';
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rx_fifo.wdata(i) <= (others => '0');
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rx_fifo.wlast(i) <= '0';
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rx_fifo.we(i) <= '0';
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rx_fifo.free(i) <= '0';
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rx_fifo.rdata(i) <= (others => '0');
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rx_fifo.rlast(i) <= '0';
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rx_fifo.avail(i) <= '0';
|
|
--
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slink_rx_rdy_o(i) <= '0';
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end generate;
|
|
|
|
|
|
-- Interrupt Generator --------------------------------------------------------------------
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-- -------------------------------------------------------------------------------------------
|
|
irq_generator: process(clk_i)
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|
begin
|
|
if rising_edge(clk_i) then
|
|
-- RX --
|
|
rx_irq.trigger <= (others => (others => '0'));
|
|
for i in 0 to SLINK_NUM_RX-1 loop
|
|
if (irq_rx_mode(2*i+1) = '1') then -- enabled
|
|
if (irq_rx_mode(2*i+0) = '0') then -- type
|
|
rx_irq.trigger(i) <= rx_irq.trigger(i)(0) & (rx_fifo.avail(i)); -- FIFO becomes not empty
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else
|
|
rx_irq.trigger(i) <= rx_irq.trigger(i)(0) & (rx_fifo.half(i)); -- FIFO becomes at least half full
|
|
end if;
|
|
end if;
|
|
end loop; -- i
|
|
|
|
-- TX --
|
|
tx_irq.trigger <= (others => (others => '0'));
|
|
for i in 0 to SLINK_NUM_TX-1 loop
|
|
if (irq_tx_mode(2*i+1) = '1') then -- enabled
|
|
if (irq_tx_mode(2*i+0) = '0') then -- type
|
|
tx_irq.trigger(i) <= tx_irq.trigger(i)(0) & (not tx_fifo.avail(i)); -- FIFO becomes empty
|
|
else
|
|
tx_irq.trigger(i) <= tx_irq.trigger(i)(0) & (not tx_fifo.half(i)); -- FIFO becomes less than half full
|
|
end if;
|
|
end if;
|
|
end loop; -- i
|
|
|
|
-- IRQ to CPU --
|
|
irq_rx_o <= enable and or_reduce_f(rx_irq.fire);
|
|
irq_tx_o <= enable and or_reduce_f(tx_irq.fire);
|
|
end if;
|
|
end process irq_generator;
|
|
|
|
-- edge detector --
|
|
irq_detect: process(rx_irq.trigger, tx_irq.trigger)
|
|
begin
|
|
-- RX --
|
|
rx_irq.fire <= (others => '0');
|
|
for i in 0 to SLINK_NUM_RX-1 loop
|
|
if (rx_irq.trigger(i) = "01") then
|
|
rx_irq.fire(i) <= '1';
|
|
end if;
|
|
end loop;
|
|
-- TX --
|
|
tx_irq.fire <= (others => '0');
|
|
for i in 0 to SLINK_NUM_TX-1 loop
|
|
if (tx_irq.trigger(i) = "01") then
|
|
tx_irq.fire(i) <= '1';
|
|
end if;
|
|
end loop;
|
|
end process irq_detect;
|
|
|
|
|
|
end neorv32_slink_rtl;
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