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166 lines
4.8 KiB
VHDL
166 lines
4.8 KiB
VHDL
library Common;
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use Common.CommonLib.all;
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architecture RTL of FIFO_bram is
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subtype register_type is std_ulogic_vector(dataIn'high downto 0);
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type memory_type is array (0 to depth-1) of register_type;
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signal writeCounter: unsigned(requiredBitNb(depth-1)-1 downto 0);
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signal readCounter: unsigned(writeCounter'range);
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signal memoryArray: memory_type;
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type fifoStateType is (
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sEmpty, sFull,
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sRead, sWrite, sWriteFirst,
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sReadWrite, sWait
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);
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signal fifoState: fifoStateType;
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signal emptyCondition, fullCondition, empty_int: std_ulogic;
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begin
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------------------------------------------------------------------------------
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-- read and write counters
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updateWriteCounter: process(reset, clock)
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begin
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if reset = '1' then
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writeCounter <= (others => '0');
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elsif rising_edge(clock) then
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if (write = '1') and (fullCondition = '0') then
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writeCounter <= writeCounter + 1;
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end if;
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end if;
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end process updateWriteCounter;
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updateReadCounter: process(reset, clock)
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begin
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if reset = '1' then
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readCounter <= (others => '0');
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elsif rising_edge(clock) then
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if (read = '1') and (empty_int = '0') then
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readCounter <= readCounter + 1;
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end if;
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end if;
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end process updateReadCounter;
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------------------------------------------------------------------------------
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-- memory access
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writeMem: process(clock)
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begin
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if rising_edge(clock) then
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if (write = '1') and (fullCondition = '0') then
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memoryArray(to_integer(writeCounter)) <= dataIn;
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end if;
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end if;
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end process writeMem;
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readMem: process(reset, clock)
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begin
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if reset = '1' then
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dataOut <= (others => '0');
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elsif rising_edge(clock) then
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if (read = '0') or (empty_int = '1') then
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dataOut <= memoryArray(to_integer(readCounter));
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else
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dataOut <= memoryArray(to_integer(readCounter+1));
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end if;
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end if;
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end process readMem;
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------------------------------------------------------------------------------
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-- controls
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emptyCondition <= '1' when
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( (fifoState = sRead) and (writeCounter = readCounter) ) or
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(fifoState = sEmpty)
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else '0';
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fullCondition <= '1' when
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( (fifoState = sWrite) and (writeCounter = readCounter) ) or
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(fifoState = sFull)
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else '0';
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fifoControl: process(reset, clock)
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begin
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if reset = '1' then
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fifoState <= sEmpty;
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elsif rising_edge(clock) then
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case fifoState is
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when sEmpty =>
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if write = '1' then
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fifoState <= sWriteFirst;
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end if;
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when sFull =>
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if (read = '1') then
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fifoState <= sRead;
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end if;
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when sRead =>
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if (read = '1') and (write = '1') then
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fifoState <= sReadWrite;
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elsif write = '1' then
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fifoState <= sWrite;
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elsif emptyCondition = '1' then
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fifoState <= sEmpty;
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elsif read = '1' then
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fifoState <= sRead;
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else
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fifoState <= sWait;
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end if;
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when sWriteFirst =>
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if (read = '1') and (write = '1') then
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fifoState <= sReadWrite;
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elsif write = '1' then
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fifoState <= sWrite;
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elsif read = '1' then
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fifoState <= sRead;
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else
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fifoState <= sWait;
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end if;
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when sWrite =>
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if (read = '1') and (write = '1') then
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fifoState <= sReadWrite;
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elsif read = '1' then
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fifoState <= sRead;
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elsif fullCondition = '1' then
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fifoState <= sFull;
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elsif write = '1' then
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fifoState <= sWrite;
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else
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fifoState <= sWait;
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end if;
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when sReadWrite =>
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if (read = '0') and (write = '0') then
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fifoState <= sWait;
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elsif (read = '1') and (write = '0') then
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fifoState <= sRead;
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elsif (write = '1') and (read = '0') then
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fifoState <= sWrite;
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end if;
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when sWait =>
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if (read = '1') and (write = '1') then
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fifoState <= sReadWrite;
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elsif read = '1' then
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fifoState <= sRead;
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elsif write = '1' then
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fifoState <= sWrite;
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end if;
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when others => null;
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end case;
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end if;
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end process fifoControl;
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full <= '1' when
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(fifoState = sFull) or
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(fullCondition = '1')
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else '0';
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empty_int <= '1' when
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(fifoState = sEmpty) or
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(fifoState = sWriteFirst) or
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( (emptyCondition = '1') and (fifoState = sRead) )
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else '0';
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empty <= empty_int;
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end RTL;
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