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[/] [w11/] [tags/] [w11a_V0.74/] [rtl/] [vlib/] [comlib/] [cdata2byte.vhd] - Rev 13
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-- $Id: cdata2byte.vhd 427 2011-11-19 21:04:11Z mueller $ -- -- Copyright 2007-2011 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- -- This program is free software; you may redistribute and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation, either version 2, or at your option any later version. -- -- This program is distributed in the hope that it will be useful, but -- WITHOUT ANY WARRANTY, without even the implied warranty of MERCHANTABILITY -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for complete details. -- ------------------------------------------------------------------------------ -- Module Name: cdata2byte - syn -- Description: 9 bit comma,data to Byte stream converter -- -- Dependencies: - -- Test bench: - -- Target Devices: generic -- Tool versions: xst 8.2, 9.1, 9.2, 12.1, 13.1; ghdl 0.18-0.29 -- -- Revision History: -- Date Rev Version Comment -- 2011-11-19 427 1.0.2 now numeric_std clean -- 2007-10-12 88 1.0.1 avoid ieee.std_logic_unsigned, use cast to unsigned -- 2007-06-30 62 1.0 Initial version ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; entity cdata2byte is -- 9bit comma,data -> byte stream generic ( CPREF : slv4 := "1000"; -- comma prefix NCOMM : positive := 4); -- number of comma chars port ( CLK : in slbit; -- clock RESET : in slbit; -- reset DI : in slv9; -- input data; bit 8 = comma flag ENA : in slbit; -- write enable BUSY : out slbit; -- write port hold DO : out slv8; -- output data VAL : out slbit; -- read valid HOLD : in slbit -- read hold ); end cdata2byte; architecture syn of cdata2byte is type state_type is ( s_idle, s_data, s_comma, s_escape, s_edata ); type regs_type is record data : slv8; -- current data state : state_type; -- state end record regs_type; constant regs_init : regs_type := ( (others=>'0'), s_idle ); signal R_REGS : regs_type := regs_init; -- state registers signal N_REGS : regs_type := regs_init; -- next value state regs begin assert NCOMM <= 14 report "assert(NCOMM <= 14)" severity FAILURE; proc_regs: process (CLK) begin if rising_edge(CLK) then if RESET = '1' then R_REGS <= regs_init; else R_REGS <= N_REGS; end if; end if; end process proc_regs; proc_next: process (R_REGS, DI, ENA, HOLD) variable r : regs_type := regs_init; variable n : regs_type := regs_init; variable ido : slv8 := (others=>'0'); variable ival : slbit := '0'; variable ibusy : slbit := '0'; begin r := R_REGS; n := R_REGS; ido := r.data; ival := '0'; ibusy := '1'; case r.state is when s_idle => ibusy := '0'; if ENA = '1' then n.data := DI(7 downto 0); n.state := s_data; if DI(8) = '1' then n.state := s_comma; else if DI(7 downto 4)=CPREF and (DI(3 downto 0)="1111" or unsigned(DI(3 downto 0))<=NCOMM) then n.state := s_escape; end if; end if; end if; when s_data => ival := '1'; if HOLD = '0' then n.state := s_idle; end if; when s_comma => ido := CPREF & r.data(3 downto 0); ival := '1'; if HOLD = '0' then n.state := s_idle; end if; when s_escape => ido := CPREF & "1111"; ival := '1'; if HOLD = '0' then n.state := s_edata; end if; when s_edata => ido := (not CPREF) & r.data(3 downto 0); ival := '1'; if HOLD = '0' then n.state := s_idle; end if; when others => null; end case; N_REGS <= n; DO <= ido; VAL <= ival; BUSY <= ibusy; end process proc_next; end syn;
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