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Cursor/Libs/Memory/hdl/fifoBridgeRxToTxBuswidthAdaptionRxbigger_behavioral.vhd
2021-11-24 10:50:51 +01:00

74 lines
2.5 KiB
VHDL

-- ------------------------------------------------------------------------------
-- Copyright 2013 HES-SO Valais Wallis (www.hevs.ch)
-- ------------------------------------------------------------------------------
-- FIFO bridge with bus width adaption
-- A shift register that connects two FIFOs with different bus width.
-- Many IP blocks nowadays have FIFO or FIFO-like interfaces and often they
-- have to be connected. This block can the be used for this task, even if
-- the bus size of the two FIFO interfaces is different.
-- The Rx side bus width has to be a multiple of the Tx side bus width.
--
-- Created on 2013-10-18
--
-- Author: Oliver A. Gubler (oliver.gubler@hevs.ch)
--
-- 2014-10-06: *modify introduction text
-- +add some comment
-- *change readRx to a pulse
-- *fix bug on shift of shiftreg_s
-- 2013-10-18: +intital release
-- ------------------------------------------------------------------------------
--
library Common;
use Common.CommonLib.all;
ARCHITECTURE behavioral OF fifoBridgeRxToTxBusWidthAdaptionRxBigger IS
signal cnt_s: unsigned(requiredBitNb(dataBitNbRx)-1 downto 0);
signal shiftreg_s: std_ulogic_vector(dataBitNbRx-1 downto 0);
signal emptyRx_s: std_ulogic; -- internal empty signal
signal writeTx_s: std_ulogic; -- internal write signal
constant ratio_rxtx_c: positive range 1 to dataBitNbRx/dataBitNbTx:= dataBitNbRx/dataBitNbTx;
BEGIN
rx0: process(clock, reset)
begin
if reset = '1' then
shiftreg_s <= (others => '0');
emptyRx_s <= '1';
cnt_s <= (others => '0');
writeTx_s <= '0';
dataTx <= (others => '0');
readRx <= '0';
elsif rising_edge(clock) then
writeTx_s <= '0';
readRx <= '0';
-- fetch data
if emptyRx_s = '1' and emptyRx = '0' then
emptyRx_s <= '0';
shiftreg_s <= dataRx;
readRx <= '1';
end if;
-- shift data and put out
-- after each write, wait one cylce to check if full gets high
if emptyRx_s = '0' and fullTx = '0' and writeTx_s = '0' then
shiftreg_s <= shiftreg_s(dataBitNbRx-dataBitNbTx-1 downto 0) & std_ulogic_vector(to_unsigned(0,dataBitNbTx));
dataTx <= shiftreg_s(dataBitNbRx-1 downto dataBitNbRx-dataBitNbTx);
writeTx_s <= '1';
cnt_s <= cnt_s +1;
if cnt_s >= ratio_rxtx_c-1 then
cnt_s <= (others => '0');
emptyRx_s <= '1';
end if;
end if;
end if;
end process;
writeTx <= writeTx_s;
END ARCHITECTURE behavioral;