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[/] [ata/] [trunk/] [rtl/] [vhdl/] [ocidec3/] [atahost_pio_tctrl.vhd] - Rev 33
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--------------------------------------------------------------------- ---- ---- ---- OpenCores ATA/ATAPI-5 Host Controller ---- ---- PIO Timing Controller (common for all OCIDEC cores) ---- ---- ---- ---- Author: Richard Herveille ---- ---- richard@asics.ws ---- ---- www.asics.ws ---- ---- ---- --------------------------------------------------------------------- ---- ---- ---- Copyright (C) 2001, 2002 Richard Herveille ---- ---- richard@asics.ws ---- ---- ---- ---- This source file may be used and distributed without ---- ---- restriction provided that this copyright statement is not ---- ---- removed from the file and that any derivative work contains ---- ---- the original copyright notice and the associated disclaimer.---- ---- ---- ---- THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ---- ---- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ---- ---- TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ---- ---- FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ---- ---- OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ---- ---- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ---- ---- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ---- ---- GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ---- ---- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ---- ---- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ---- ---- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ---- ---- OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ---- ---- POSSIBILITY OF SUCH DAMAGE. ---- ---- ---- --------------------------------------------------------------------- -- rev.: 1.0 march 7th, 2001. Initial release -- rev.: 1.1 July 11th, 2001. Changed 'igo' & 'hold_go' signal generation. -- -- -- CVS Log -- -- $Id: atahost_pio_tctrl.vhd,v 1.1 2002-02-18 14:32:12 rherveille Exp $ -- -- $Date: 2002-02-18 14:32:12 $ -- $Revision: 1.1 $ -- $Author: rherveille $ -- $Locker: $ -- $State: Exp $ -- -- Change History: -- $Log: not supported by cvs2svn $ -- -- -- --------------------------- -- PIO Timing controller -- --------------------------- -- -- -- Timing PIO mode transfers ---------------------------------------------- -- T0: cycle time -- T1: address valid to DIOR-/DIOW- -- T2: DIOR-/DIOW- pulse width -- T2i: DIOR-/DIOW- recovery time -- T3: DIOW- data setup -- T4: DIOW- data hold -- T5: DIOR- data setup -- T6: DIOR- data hold -- T9: address hold from DIOR-/DIOW- negated -- Trd: Read data valid to IORDY asserted -- Ta: IORDY setup time -- Tb: IORDY pulse width -- -- Transfer sequence ---------------------------------- -- 1) set address (DA, CS0-, CS1-) -- 2) wait for T1 -- 3) assert DIOR-/DIOW- -- when write action present Data (timing spec. T3 always honored), enable output enable-signal -- 4) wait for T2 -- 5) check IORDY -- when not IORDY goto 5 -- when IORDY negate DIOW-/DIOR-, latch data (if read action) -- when write, hold data for T4, disable output-enable signal -- 6) wait end_of_cycle_time. This is T2i or T9 or (T0-T1-T2) whichever takes the longest -- 7) start new cycle library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; entity atahost_pio_tctrl is generic( TWIDTH : natural := 8; -- counter width -- PIO mode 0 settings (@100MHz clock) PIO_mode0_T1 : natural := 6; -- 70ns PIO_mode0_T2 : natural := 28; -- 290ns PIO_mode0_T4 : natural := 2; -- 30ns PIO_mode0_Teoc : natural := 23 -- 240ns ==> T0 - T1 - T2 = 600 - 70 - 290 = 240 ); port( clk : in std_logic; -- master clock nReset : in std_logic; -- asynchronous active low reset rst : in std_logic; -- synchronous active high reset -- timing/control register settings IORDY_en : in std_logic; -- use IORDY (or not) T1 : in unsigned(TWIDTH -1 downto 0); -- T1 time (in clk-ticks) T2 : in unsigned(TWIDTH -1 downto 0); -- T2 time (in clk-ticks) T4 : in unsigned(TWIDTH -1 downto 0); -- T4 time (in clk-ticks) Teoc : in unsigned(TWIDTH -1 downto 0); -- end of cycle time -- control signals go : in std_logic; -- PIO controller selected (strobe signal) we : in std_logic; -- write enable signal. '0'=read from device, '1'=write to device -- return signals oe : buffer std_logic; -- output enable signal done : out std_logic; -- finished cycle dstrb : out std_logic; -- data strobe, latch data (during read) -- ATA signals DIOR, -- IOread signal, active high DIOW : buffer std_logic; -- IOwrite signal, active high IORDY : in std_logic -- IORDY signal ); end entity atahost_pio_tctrl; architecture structural of atahost_pio_tctrl is component ro_cnt is generic( SIZE : natural := 8; UD : std_logic := '0'; -- default count down ID : natural := 0 -- initial data after reset ); port( clk : in std_logic; -- master clock nReset : in std_logic := '1'; -- asynchronous active low reset rst : in std_logic := '0'; -- synchronous active high reset cnt_en : in std_logic := '1'; -- count enable go : in std_logic; -- load counter and start sequence done : out std_logic; -- done counting d : in unsigned(SIZE -1 downto 0); -- load counter value q : out unsigned(SIZE -1 downto 0) -- current counter value ); end component ro_cnt; signal T1done, T2done, T4done, Teoc_done, IORDY_done : std_logic; signal busy, hold_go, igo, hT2done : std_logic; begin -- generate internal go strobe -- strecht go until ready for new cycle process(clk, nReset) begin if (nReset = '0') then busy <= '0'; hold_go <= '0'; elsif (clk'event and clk = '1') then if (rst = '1') then busy <= '0'; hold_go <= '0'; else busy <= (igo or busy) and not Teoc_done; hold_go <= (go or (hold_go and busy)) and not igo; end if; end if; end process; igo <= (go or hold_go) and not busy; -- 1) hookup T1 counter t1_cnt : ro_cnt generic map ( SIZE => TWIDTH, UD => '0', ID => PIO_mode0_T1 ) port map ( clk => clk, nReset => nReset, rst => rst, go => igo, D => T1, done => T1done ); -- 2) set (and reset) DIOR-/DIOW-, set output-enable when writing to device T2proc: process(clk, nReset) begin if (nReset = '0') then DIOR <= '0'; DIOW <= '0'; oe <= '0'; elsif (clk'event and clk = '1') then if (rst = '1') then DIOR <= '0'; DIOW <= '0'; oe <= '0'; else DIOR <= (not we and T1done) or (DIOR and not IORDY_done); DIOW <= ( we and T1done) or (DIOW and not IORDY_done); oe <= ( (we and igo) or oe) and not T4done; -- negate oe when t4-done end if; end if; end process T2proc; -- 3) hookup T2 counter t2_cnt : ro_cnt generic map ( SIZE => TWIDTH, UD => '0', ID => PIO_mode0_T2 ) port map ( clk => clk, nReset => nReset, rst => rst, go => T1done, D => T2, done => T2done ); -- 4) check IORDY (if used), generate release_DIOR-/DIOW- signal (ie negate DIOR-/DIOW-) -- hold T2done gen_hT2done: process(clk, nReset) begin if (nReset = '0') then hT2done <= '0'; elsif (clk'event and clk = '1') then if (rst = '1') then hT2done <= '0'; else hT2done <= (T2done or hT2done) and not IORDY_done; end if; end if; end process gen_hT2done; IORDY_done <= (T2done or hT2done) and (IORDY or not IORDY_en); -- generate datastrobe, capture data at rising DIOR- edge gen_dstrb: process(clk) begin if (clk'event and clk = '1') then dstrb <= IORDY_done; end if; end process gen_dstrb; -- hookup data hold counter dhold_cnt : ro_cnt generic map ( SIZE => TWIDTH, UD => '0', ID => PIO_mode0_T4 ) port map ( clk => clk, nReset => nReset, rst => rst, go => IORDY_done, D => T4, done => T4done ); done <= T4done; -- placing done here provides the fastest return possible, -- while still guaranteeing data and address hold-times -- 5) hookup end_of_cycle counter eoc_cnt : ro_cnt generic map ( SIZE => TWIDTH, UD => '0', ID => PIO_mode0_Teoc ) port map ( clk => clk, nReset => nReset, rst => rst, go => IORDY_done, D => Teoc, done => Teoc_done ); end architecture structural;