-------------------------------------------------------------------------------- -- File Name: stdh827.vhd -------------------------------------------------------------------------------- -- Copyright (C) 1998 Free Model Foundry; http://www.FreeModelFoundry.com -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License version 2 as -- published by the Free Software Foundation. -- -- MODIFICATION HISTORY: -- -- version: | author: | mod date: | changes made: -- V1.0 R. Munden 98 DEC 16 initial release -- -------------------------------------------------------------------------------- -- PART DESCRIPTION: -- -- Library: STNDH -- Technology: 54/74XXXX with bus hold -- Part: STDH827 -- -- Description: Buffer with 3-state output and bus hold -------------------------------------------------------------------------------- LIBRARY IEEE; USE IEEE.std_logic_1164.ALL; USE IEEE.VITAL_timing.ALL; USE IEEE.VITAL_primitives.ALL; LIBRARY FMF; USE FMF.gen_utils.ALL; -------------------------------------------------------------------------------- -- ENTITY DECLARATION -------------------------------------------------------------------------------- ENTITY stdh827 IS GENERIC ( -- tipd delays: interconnect path delays tipd_Y : VitalDelayType01 := VitalZeroDelay01; tipd_A : VitalDelayType01 := VitalZeroDelay01; tipd_OE1Neg : VitalDelayType01 := VitalZeroDelay01; tipd_OE2Neg : VitalDelayType01 := VitalZeroDelay01; -- tpd delays tpd_A_Y : VitalDelayType01 := UnitDelay01; tpd_OE1Neg_Y : VitalDelayType01Z := UnitDelay01Z; -- generic control parameters InstancePath : STRING := DefaultInstancePath; MsgOn : BOOLEAN := DefaultMsgOn; XOn : BOOLEAN := DefaultXon; -- For FMF SDF technology file usage TimingModel : STRING := DefaultTimingModel ); PORT ( Y : OUT std_logic := 'X'; A : IN std_logic := 'X'; OE1Neg : IN std_logic := 'U'; OE2Neg : IN std_logic := 'U' ); ATTRIBUTE VITAL_LEVEL0 of stdh827 : ENTITY IS TRUE; END stdh827; -------------------------------------------------------------------------------- -- ARCHITECTURE DECLARATION -------------------------------------------------------------------------------- ARCHITECTURE vhdl_behavioral of stdh827 IS ATTRIBUTE VITAL_LEVEL1 of vhdl_behavioral : ARCHITECTURE IS FALSE; SIGNAL A_ipd : std_ulogic := 'X'; SIGNAL Aint : std_logic := 'X'; SIGNAL AintNeg : std_ulogic := 'X'; SIGNAL OE1Neg_ipd : std_ulogic := 'X'; SIGNAL OE2Neg_ipd : std_ulogic := 'X'; BEGIN ---------------------------------------------------------------------------- -- Wire Delays ---------------------------------------------------------------------------- WireDelay : BLOCK BEGIN w_1 : VitalWireDelay (A_ipd, A, tipd_A); w_2 : VitalWireDelay (OE1Neg_ipd, OE1Neg, tipd_OE1Neg); w_3 : VitalWireDelay (OE2Neg_ipd, OE2Neg, tipd_OE2Neg); END BLOCK; ---------------------------------------------------------------------------- -- Concurrent procedure calls ---------------------------------------------------------------------------- a_1: VitalBUF (q => Aint, a => A_ipd, ResultMap => ('U', 'Z', '0', '1')); a_2: VitalINV (q => AintNeg, a => Aint); a_3: VitalINV (q => Aint, a => AintNeg, ResultMap => ('Z', 'Z', '0', '1')); ---------------------------------------------------------------------------- -- Main Behavior Process ---------------------------------------------------------------------------- VitalBehavior : PROCESS (Aint, OE1Neg_ipd, OE2Neg_ipd) -- Functionality Results Variables VARIABLE Y_zd : std_ulogic; VARIABLE OEint : std_ulogic; -- Output Glitch Detection Variables VARIABLE Y_GlitchData : VitalGlitchDataType; BEGIN ------------------------------------------------------------------------ -- Functionality Section ------------------------------------------------------------------------ OEint := VitalOR2 (a => OE1Neg_ipd, b => OE2Neg_ipd); Y_zd := VitalBUFIF0 (data => Aint, enable => OEint); ------------------------------------------------------------------------ -- Path Delay Section ------------------------------------------------------------------------ VitalPathDelay01Z ( OutSignal => Y, OutSignalName => "Y", OutTemp => Y_zd, GlitchData => Y_GlitchData, XOn => XOn, MsgOn => MsgOn, Paths => ( 0 => (InputChangeTime => Aint'LAST_EVENT, PathDelay => VitalExtendToFillDelay(tpd_A_Y), PathCondition => TRUE), 1 => (InputChangeTime => OE1Neg_ipd'LAST_EVENT, PathDelay => tpd_OE1Neg_Y, PathCondition => TRUE)) ); END PROCESS; END vhdl_behavioral;