cpldfit: version P.20131013 Xilinx Inc. Fitter Report Design Name: WarpSE Date: 3-20-2023, 11:54PM Device Used: XC95144XL-10-TQ100 Fitting Status: Successful ************************* Mapped Resource Summary ************************** Macrocells Product Terms Function Block Registers Pins Used/Tot Used/Tot Inps Used/Tot Used/Tot Used/Tot 121/144 ( 84%) 440 /720 ( 61%) 227/432 ( 53%) 96 /144 ( 67%) 72 /81 ( 89%) ** Function Block Resources ** Function Mcells FB Inps Pterms IO Block Used/Tot Used/Tot Used/Tot Used/Tot FB1 18/18* 25/54 26/90 11/11* FB2 12/18 16/54 15/90 8/10 FB3 9/18 34/54 81/90 10/10* FB4 18/18* 24/54 44/90 10/10* FB5 16/18 30/54 77/90 8/10 FB6 18/18* 34/54 61/90 10/10* FB7 18/18* 30/54 55/90 8/10 FB8 12/18 34/54 81/90 7/10 ----- ----- ----- ----- 121/144 227/432 440/720 72/81 * - Resource is exhausted ** Global Control Resources ** Signal 'C16M' mapped onto global clock net GCK1. Signal 'C8M' mapped onto global clock net GCK2. Signal 'FCLK' mapped onto global clock net GCK3. Global output enable net(s) unused. Global set/reset net(s) unused. ** Pin Resources ** Signal Type Required Mapped | Pin Type Used Total ------------------------------------|------------------------------------ Input : 33 33 | I/O : 66 73 Output : 35 35 | GCK/IO : 3 3 Bidirectional : 1 1 | GTS/IO : 3 4 GCK : 3 3 | GSR/IO : 0 1 GTS : 0 0 | GSR : 0 0 | ---- ---- Total 72 72 ** Power Data ** There are 121 macrocells in high performance mode (MCHP). There are 0 macrocells in low power mode (MCLP). End of Mapped Resource Summary ************************** Errors and Warnings *************************** WARNING:Cpld - Unable to retrieve the path to the iSE Project Repository. Will use the default filename of 'WarpSE.ise'. INFO:Cpld - Inferring BUFG constraint for signal 'C16M' based upon the LOC constraint 'P22'. It is recommended that you declare this BUFG explicitedly in your design. Note that for certain device families the output of a BUFG constraint can not drive a gated clock, and the BUFG constraint will be ignored. INFO:Cpld - Inferring BUFG constraint for signal 'C8M' based upon the LOC constraint 'P23'. It is recommended that you declare this BUFG explicitedly in your design. Note that for certain device families the output of a BUFG constraint can not drive a gated clock, and the BUFG constraint will be ignored. INFO:Cpld - Inferring BUFG constraint for signal 'FCLK' based upon the LOC constraint 'P27'. It is recommended that you declare this BUFG explicitedly in your design. Note that for certain device families the output of a BUFG constraint can not drive a gated clock, and the BUFG constraint will be ignored. WARNING:Cpld:1007 - Removing unused input(s) 'SW<1>'. The input(s) are unused after optimization. Please verify functionality via simulation. WARNING:Cpld:1007 - Removing unused input(s) 'SW<2>'. The input(s) are unused after optimization. Please verify functionality via simulation. WARNING:Cpld:1007 - Removing unused input(s) 'SW<3>'. The input(s) are unused after optimization. Please verify functionality via simulation. ************************* Summary of Mapped Logic ************************ ** 36 Outputs ** Signal Total Total Loc Pin Pin Pin Pwr Slew Reg Init Name Pts Inps No. Type Use Mode Rate State nDTACK_FSB 11 26 FB3_9 28 I/O O STD FAST RESET nROMWE 1 2 FB3_17 34 I/O O STD FAST nAoutOE 1 3 FB4_2 87 I/O O STD FAST RESET nDoutOE 1 2 FB4_5 89 I/O O STD FAST nDinOE 2 6 FB4_6 90 I/O O STD FAST nRES 1 1 FB4_8 91 I/O I/O STD FAST nVPA_FSB 1 2 FB4_11 93 I/O O STD FAST nROMCS 2 5 FB5_2 35 I/O O STD FAST nCAS 1 1 FB5_5 36 I/O O STD FAST RESET nOE 1 2 FB5_6 37 I/O O STD FAST RA<4> 2 3 FB5_9 40 I/O O STD FAST RA<3> 2 3 FB5_11 41 I/O O STD FAST RA<5> 2 3 FB5_12 42 I/O O STD FAST RA<2> 2 3 FB5_14 43 I/O O STD FAST RA<6> 2 3 FB5_15 46 I/O O STD FAST nVMA_IOB 3 10 FB6_2 74 I/O O STD FAST RESET nLDS_IOB 4 6 FB6_9 79 I/O O STD FAST RESET nUDS_IOB 4 6 FB6_11 80 I/O O STD FAST RESET nAS_IOB 3 4 FB6_12 81 I/O O STD FAST RESET nADoutLE1 2 3 FB6_14 82 I/O O STD FAST SET nADoutLE0 1 2 FB6_15 85 I/O O STD FAST nDinLE 1 2 FB6_17 86 I/O O STD FAST RESET RA<1> 2 3 FB7_2 50 I/O O STD FAST RA<7> 2 3 FB7_5 52 I/O O STD FAST RA<0> 2 3 FB7_6 53 I/O O STD FAST RA<8> 7 7 FB7_8 54 I/O O STD FAST RA<10> 1 1 FB7_9 55 I/O O STD FAST RA<9> 2 3 FB7_11 56 I/O O STD FAST C25MEN 0 0 FB7_12 58 I/O O STD FAST C20MEN 0 0 FB7_14 59 I/O O STD FAST RA<11> 1 1 FB8_2 63 I/O O STD FAST nRAS 3 7 FB8_5 64 I/O O STD FAST nRAMLWE 1 4 FB8_6 65 I/O O STD FAST nRAMUWE 1 4 FB8_8 66 I/O O STD FAST nBERR_FSB 4 8 FB8_12 70 I/O O STD FAST RESET nBR_IOB 2 4 FB8_15 72 I/O O STD FAST RESET ** 85 Buried Nodes ** Signal Total Total Loc Pwr Reg Init Name Pts Inps Mode State iobm/nASr 1 2 FB1_1 STD RESET iobm/VPArr 1 1 FB1_2 STD RESET iobm/VPArf 1 1 FB1_3 STD RESET iobm/RESrr 1 1 FB1_4 STD RESET iobm/RESrf 1 1 FB1_5 STD RESET iobm/IOREQr 1 1 FB1_6 STD RESET iobm/Er2 1 1 FB1_7 STD RESET iobm/Er 1 1 FB1_8 STD RESET iobm/DTACKrr 1 1 FB1_9 STD RESET iobm/DTACKrf 1 1 FB1_10 STD RESET iobm/BERRrr 1 1 FB1_11 STD RESET iobm/BERRrf 1 1 FB1_12 STD RESET cnt/IPL2r 1 1 FB1_13 STD RESET iobm/IOS_FSM_FFd1 2 3 FB1_14 STD RESET iobm/BG 2 2 FB1_15 STD RESET iobs/IOU0 3 5 FB1_16 STD RESET iobs/IOL0 3 5 FB1_17 STD RESET iobm/IOS_FSM_FFd3 3 6 FB1_18 STD RESET ram/RegUrgentSync 1 1 FB2_7 STD RESET ram/RefUrgent 1 2 FB2_8 STD RESET ram/RefReqSync 1 1 FB2_9 STD RESET ram/RefReq 1 2 FB2_10 STD RESET ram/RefRAS 1 2 FB2_11 STD RESET ram/BACTr 1 2 FB2_12 STD RESET iobs/IOACTr 1 1 FB2_13 STD RESET iobs/ALE0 1 2 FB2_14 STD RESET fsb/ASrf 1 1 FB2_15 STD RESET iobs/PS_FSM_FFd1 2 3 FB2_16 STD RESET iobs/IOU1 2 2 FB2_17 STD RESET iobs/IOL1 2 2 FB2_18 STD RESET fsb/VPA 20 26 FB3_2 STD RESET iobs/Clear1 1 3 FB3_5 STD RESET fsb/Ready0r 3 8 FB3_6 STD RESET iobs/IOReady 4 8 FB3_7 STD RESET fsb/Ready1r 7 17 FB3_10 STD RESET iobs/IORW1 16 19 FB3_12 STD RESET iobs/IORW0 18 20 FB3_15 STD RESET cnt/nRESout 2 4 FB4_1 STD RESET cnt/TimerTC 2 5 FB4_3 STD RESET cnt/Timer<0> 2 3 FB4_4 STD RESET Signal Total Total Loc Pwr Reg Init Name Pts Inps Mode State cnt/PORS_FSM_FFd2 2 3 FB4_7 STD RESET cnt/LTimer<0> 2 3 FB4_9 STD RESET cnt/Timer<3> 3 6 FB4_10 STD RESET cnt/Timer<2> 3 5 FB4_12 STD RESET cnt/Timer<1> 3 4 FB4_13 STD RESET cnt/RefUrgent 3 5 FB4_14 STD RESET cnt/RefReq 4 5 FB4_15 STD RESET cnt/LTimer<3> 4 6 FB4_16 STD RESET cnt/LTimer<2> 4 5 FB4_17 STD RESET cnt/LTimer<1> 4 4 FB4_18 STD RESET ram/RASEL 17 13 FB5_1 STD RESET ram/RefDone 2 4 FB5_3 STD RESET cs/nOverlay1 2 3 FB5_4 STD RESET ram/RS_FSM_FFd1 8 11 FB5_7 STD RESET cs/nOverlay0 3 8 FB5_8 STD RESET ram/RAMEN 9 13 FB5_10 STD RESET ram/RS_FSM_FFd2 10 12 FB5_13 STD RESET ram/RAMReady 12 13 FB5_17 STD RESET iobm/ETACK 1 6 FB6_1 STD RESET iobm/DoutOE 2 3 FB6_3 STD RESET iobm/ALE0 2 4 FB6_4 STD RESET iobm/ES<3> 3 6 FB6_5 STD RESET iobm/ES<1> 3 4 FB6_6 STD RESET iobm/ES<0> 3 7 FB6_7 STD RESET iobm/ES<4> 4 7 FB6_8 STD RESET iobm/IOS_FSM_FFd2 5 11 FB6_10 STD RESET iobm/ES<2> 5 7 FB6_13 STD RESET iobm/IOACT 6 12 FB6_16 STD RESET iobm/IOBERR 9 13 FB6_18 STD RESET cnt/LTimer<13> 3 15 FB7_1 STD RESET cnt/LTimer<9> 4 12 FB7_3 STD RESET cnt/LTimer<8> 4 11 FB7_4 STD RESET cnt/LTimer<7> 4 10 FB7_7 STD RESET cnt/LTimer<6> 4 9 FB7_10 STD RESET cnt/LTimer<5> 4 8 FB7_13 STD RESET cnt/LTimer<4> 4 7 FB7_15 STD RESET cnt/LTimer<12> 4 15 FB7_16 STD RESET cnt/LTimer<11> 4 14 FB7_17 STD RESET cnt/LTimer<10> 4 13 FB7_18 STD RESET cnt/PORS_FSM_FFd1 1 4 FB8_1 STD RESET Signal Total Total Loc Pwr Reg Init Name Pts Inps Mode State ram/RS_FSM_FFd3 9 11 FB8_3 STD RESET iobs/PS_FSM_FFd2 14 19 FB8_7 STD RESET iobs/Load1 14 18 FB8_10 STD RESET iobs/IOREQ 14 19 FB8_14 STD RESET iobs/Once 17 18 FB8_17 STD RESET ** 36 Inputs ** Signal Loc Pin Pin Pin Name No. Type Use A_FSB<13> FB1_2 11 I/O I A_FSB<14> FB1_3 12 I/O I A_FSB<15> FB1_5 13 I/O I A_FSB<16> FB1_6 14 I/O I A_FSB<17> FB1_8 15 I/O I A_FSB<18> FB1_9 16 I/O I A_FSB<19> FB1_11 17 I/O I A_FSB<20> FB1_12 18 I/O I A_FSB<21> FB1_14 19 I/O I A_FSB<22> FB1_15 20 I/O I C16M FB1_17 22 GCK/I/O GCK A_FSB<5> FB2_6 2 GTS/I/O I A_FSB<6> FB2_8 3 GTS/I/O I A_FSB<7> FB2_9 4 GTS/I/O I A_FSB<8> FB2_11 6 I/O I A_FSB<9> FB2_12 7 I/O I A_FSB<10> FB2_14 8 I/O I A_FSB<11> FB2_15 9 I/O I A_FSB<12> FB2_17 10 I/O I C8M FB3_2 23 GCK/I/O GCK/I A_FSB<23> FB3_5 24 I/O I E FB3_6 25 I/O I FCLK FB3_8 27 GCK/I/O GCK nWE_FSB FB3_11 29 I/O I nLDS_FSB FB3_12 30 I/O I nAS_FSB FB3_14 32 I/O I nUDS_FSB FB3_15 33 I/O I nIPL2 FB4_9 92 I/O I A_FSB<1> FB4_12 94 I/O I A_FSB<2> FB4_14 95 I/O I A_FSB<3> FB4_15 96 I/O I A_FSB<4> FB4_17 97 I/O I nBERR_IOB FB6_5 76 I/O I nVPA_IOB FB6_6 77 I/O I nDTACK_IOB FB6_8 78 I/O I nBG_IOB FB8_17 73 I/O I Legend: Pin No. - ~ - User Assigned ************************** Function Block Details ************************ Legend: Total Pt - Total product terms used by the macrocell signal Imp Pt - Product terms imported from other macrocells Exp Pt - Product terms exported to other macrocells in direction shown Unused Pt - Unused local product terms remaining in macrocell Loc - Location where logic was mapped in device Pin Type/Use - I - Input GCK - Global Clock O - Output GTS - Global Output Enable (b) - Buried macrocell GSR - Global Set/Reset X - Signal used as input to the macrocell logic. Pin No. - ~ - User Assigned *********************************** FB1 *********************************** Number of function block inputs used/remaining: 25/29 Number of signals used by logic mapping into function block: 25 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use iobm/nASr 1 0 0 4 FB1_1 (b) (b) iobm/VPArr 1 0 0 4 FB1_2 11 I/O I iobm/VPArf 1 0 0 4 FB1_3 12 I/O I iobm/RESrr 1 0 0 4 FB1_4 (b) (b) iobm/RESrf 1 0 0 4 FB1_5 13 I/O I iobm/IOREQr 1 0 0 4 FB1_6 14 I/O I iobm/Er2 1 0 0 4 FB1_7 (b) (b) iobm/Er 1 0 0 4 FB1_8 15 I/O I iobm/DTACKrr 1 0 0 4 FB1_9 16 I/O I iobm/DTACKrf 1 0 0 4 FB1_10 (b) (b) iobm/BERRrr 1 0 0 4 FB1_11 17 I/O I iobm/BERRrf 1 0 0 4 FB1_12 18 I/O I cnt/IPL2r 1 0 0 4 FB1_13 (b) (b) iobm/IOS_FSM_FFd1 2 0 0 3 FB1_14 19 I/O I iobm/BG 2 0 0 3 FB1_15 20 I/O I iobs/IOU0 3 0 0 2 FB1_16 (b) (b) iobs/IOL0 3 0 0 2 FB1_17 22 GCK/I/O GCK iobm/IOS_FSM_FFd3 3 0 0 2 FB1_18 (b) (b) Signals Used by Logic in Function Block 1: C8M 10: iobm/nASr 18: nAoutOE 2: E 11: iobs/IOL1 19: nBERR_IOB 3: nRES.PIN 12: iobs/IOREQ 20: nBG_IOB 4: iobm/BG 13: iobs/IOU1 21: nDTACK_IOB 5: iobm/Er 14: iobs/PS_FSM_FFd1 22: nIPL2 6: iobm/IOREQr 15: iobs/PS_FSM_FFd2 23: nLDS_FSB 7: iobm/IOS_FSM_FFd1 16: nADoutLE1 24: nUDS_FSB 8: iobm/IOS_FSM_FFd2 17: nAS_IOB 25: nVPA_IOB 9: iobm/IOS_FSM_FFd3 Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs iobm/nASr ................XX...................... 2 iobm/VPArr ........................X............... 1 iobm/VPArf ........................X............... 1 iobm/RESrr ..X..................................... 1 iobm/RESrf ..X..................................... 1 iobm/IOREQr ...........X............................ 1 iobm/Er2 ....X................................... 1 iobm/Er .X...................................... 1 iobm/DTACKrr ....................X................... 1 iobm/DTACKrf ....................X................... 1 iobm/BERRrr ..................X..................... 1 iobm/BERRrf ..................X..................... 1 cnt/IPL2r .....................X.................. 1 iobm/IOS_FSM_FFd1 ......XXX............................... 3 iobm/BG .........X.........X.................... 2 iobs/IOU0 ............XXXX.......X................ 5 iobs/IOL0 ..........X..XXX......X................. 5 iobm/IOS_FSM_FFd3 X..X.XXXX............................... 6 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB2 *********************************** Number of function block inputs used/remaining: 16/38 Number of signals used by logic mapping into function block: 16 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use (unused) 0 0 0 5 FB2_1 (b) (unused) 0 0 0 5 FB2_2 99 GSR/I/O (unused) 0 0 0 5 FB2_3 (b) (unused) 0 0 0 5 FB2_4 (b) (unused) 0 0 0 5 FB2_5 1 GTS/I/O (unused) 0 0 0 5 FB2_6 2 GTS/I/O I ram/RegUrgentSync 1 0 0 4 FB2_7 (b) (b) ram/RefUrgent 1 0 0 4 FB2_8 3 GTS/I/O I ram/RefReqSync 1 0 0 4 FB2_9 4 GTS/I/O I ram/RefReq 1 0 0 4 FB2_10 (b) (b) ram/RefRAS 1 0 0 4 FB2_11 6 I/O I ram/BACTr 1 0 0 4 FB2_12 7 I/O I iobs/IOACTr 1 0 0 4 FB2_13 (b) (b) iobs/ALE0 1 0 0 4 FB2_14 8 I/O I fsb/ASrf 1 0 0 4 FB2_15 9 I/O I iobs/PS_FSM_FFd1 2 0 0 3 FB2_16 (b) (b) iobs/IOU1 2 0 0 3 FB2_17 10 I/O I iobs/IOL1 2 0 0 3 FB2_18 (b) (b) Signals Used by Logic in Function Block 1: cnt/RefReq 7: iobs/PS_FSM_FFd1 12: ram/RS_FSM_FFd1 2: cnt/RefUrgent 8: iobs/PS_FSM_FFd2 13: ram/RS_FSM_FFd2 3: fsb/ASrf 9: nAS_FSB 14: ram/RefDone 4: iobm/IOACT 10: nLDS_FSB 15: ram/RefReqSync 5: iobs/IOACTr 11: nUDS_FSB 16: ram/RegUrgentSync 6: iobs/Load1 Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs ram/RegUrgentSync .X...................................... 1 ram/RefUrgent .............X.X........................ 2 ram/RefReqSync X....................................... 1 ram/RefReq .............XX......................... 2 ram/RefRAS ...........XX........................... 2 ram/BACTr ..X.....X............................... 2 iobs/IOACTr ...X.................................... 1 iobs/ALE0 ......XX................................ 2 fsb/ASrf ........X............................... 1 iobs/PS_FSM_FFd1 ....X.XX................................ 3 iobs/IOU1 .....X....X............................. 2 iobs/IOL1 .....X...X.............................. 2 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB3 *********************************** Number of function block inputs used/remaining: 34/20 Number of signals used by logic mapping into function block: 34 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use (unused) 0 0 \/5 0 FB3_1 (b) (b) fsb/VPA 20 15<- 0 0 FB3_2 23 GCK/I/O GCK/I (unused) 0 0 /\5 0 FB3_3 (b) (b) (unused) 0 0 0 5 FB3_4 (b) iobs/Clear1 1 0 \/1 3 FB3_5 24 I/O I fsb/Ready0r 3 1<- \/3 0 FB3_6 25 I/O I iobs/IOReady 4 3<- \/4 0 FB3_7 (b) (b) (unused) 0 0 \/5 0 FB3_8 27 GCK/I/O GCK nDTACK_FSB 11 9<- \/3 0 FB3_9 28 I/O O fsb/Ready1r 7 3<- \/1 0 FB3_10 (b) (b) (unused) 0 0 \/5 0 FB3_11 29 I/O I iobs/IORW1 16 11<- 0 0 FB3_12 30 I/O I (unused) 0 0 /\5 0 FB3_13 (b) (b) (unused) 0 0 \/5 0 FB3_14 32 I/O I iobs/IORW0 18 13<- 0 0 FB3_15 33 I/O I (unused) 0 0 /\5 0 FB3_16 (b) (b) nROMWE 1 0 /\3 1 FB3_17 34 I/O O (unused) 0 0 \/5 0 FB3_18 (b) (b) Signals Used by Logic in Function Block 1: A_FSB<10> 13: A_FSB<22> 24: iobs/IORW0 2: A_FSB<11> 14: A_FSB<23> 25: iobs/IORW1 3: A_FSB<12> 15: A_FSB<8> 26: iobs/IOReady 4: A_FSB<13> 16: A_FSB<9> 27: iobs/Once 5: A_FSB<14> 17: cs/nOverlay1 28: iobs/PS_FSM_FFd1 6: A_FSB<15> 18: fsb/ASrf 29: iobs/PS_FSM_FFd2 7: A_FSB<16> 19: fsb/Ready0r 30: nADoutLE1 8: A_FSB<17> 20: fsb/Ready1r 31: nAS_FSB 9: A_FSB<18> 21: fsb/VPA 32: nDTACK_FSB 10: A_FSB<19> 22: iobm/IOBERR 33: nWE_FSB 11: A_FSB<20> 23: iobs/IOACTr 34: ram/RAMReady 12: A_FSB<21> Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs fsb/VPA XXXXXXXXXXXXXXXXXXXXX....X...XX.XX...... 26 iobs/Clear1 ...........................XXX.......... 3 fsb/Ready0r ...........XXX..XXX...........X..X...... 8 iobs/IOReady .................X...XX..XX.XXX......... 8 nDTACK_FSB XXXXXXXXXXXXXXXXXXXX.....X...XXXXX...... 26 fsb/Ready1r ...XX.XXXXXXXX..XX.X.....X...XX.X....... 17 iobs/IORW1 ...XX.XXXXXXXX..XX......X.XXXXX.X....... 19 iobs/IORW0 ...XX.XXXXXXXX..XX.....XX.XXXXX.X....... 20 nROMWE ..............................X.X....... 2 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB4 *********************************** Number of function block inputs used/remaining: 24/30 Number of signals used by logic mapping into function block: 24 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use cnt/nRESout 2 0 0 3 FB4_1 (b) (b) nAoutOE 1 0 0 4 FB4_2 87 I/O O cnt/TimerTC 2 0 0 3 FB4_3 (b) (b) cnt/Timer<0> 2 0 0 3 FB4_4 (b) (b) nDoutOE 1 0 0 4 FB4_5 89 I/O O nDinOE 2 0 0 3 FB4_6 90 I/O O cnt/PORS_FSM_FFd2 2 0 0 3 FB4_7 (b) (b) nRES 1 0 0 4 FB4_8 91 I/O I/O cnt/LTimer<0> 2 0 0 3 FB4_9 92 I/O I cnt/Timer<3> 3 0 0 2 FB4_10 (b) (b) nVPA_FSB 1 0 0 4 FB4_11 93 I/O O cnt/Timer<2> 3 0 0 2 FB4_12 94 I/O I cnt/Timer<1> 3 0 0 2 FB4_13 (b) (b) cnt/RefUrgent 3 0 0 2 FB4_14 95 I/O I cnt/RefReq 4 0 0 1 FB4_15 96 I/O I cnt/LTimer<3> 4 0 0 1 FB4_16 (b) (b) cnt/LTimer<2> 4 0 0 1 FB4_17 97 I/O I cnt/LTimer<1> 4 0 0 1 FB4_18 (b) (b) Signals Used by Logic in Function Block 1: A_FSB<20> 9: cnt/LTimer<2> 17: cnt/TimerTC 2: A_FSB<21> 10: cnt/LTimer<3> 18: cnt/nRESout 3: A_FSB<22> 11: cnt/PORS_FSM_FFd1 19: fsb/VPA 4: A_FSB<23> 12: cnt/PORS_FSM_FFd2 20: iobm/DoutOE 5: E 13: cnt/Timer<0> 21: nAS_FSB 6: cnt/LTimer<0> 14: cnt/Timer<1> 22: nAoutOE 7: cnt/LTimer<13> 15: cnt/Timer<2> 23: nBR_IOB 8: cnt/LTimer<1> 16: cnt/Timer<3> 24: nWE_FSB Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs cnt/nRESout ......X...XX.....X...................... 4 nAoutOE ..........XX..........X................. 3 cnt/TimerTC ....X.......XXXX........................ 5 cnt/Timer<0> ....X.......X...X....................... 3 nDoutOE ...................X.X.................. 2 nDinOE XXXX................X..X................ 6 cnt/PORS_FSM_FFd2 ......X...XX............................ 3 nRES .................X...................... 1 cnt/LTimer<0> .....XX.........X....................... 3 cnt/Timer<3> ....X.......XXXXX....................... 6 nVPA_FSB ..................X.X................... 2 cnt/Timer<2> ....X.......XXX.X....................... 5 cnt/Timer<1> ....X.......XX..X....................... 4 cnt/RefUrgent ....X.......XXXX........................ 5 cnt/RefReq ....X.......XXXX........................ 5 cnt/LTimer<3> .....XXXXX......X....................... 6 cnt/LTimer<2> .....XXXX.......X....................... 5 cnt/LTimer<1> .....XXX........X....................... 4 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB5 *********************************** Number of function block inputs used/remaining: 30/24 Number of signals used by logic mapping into function block: 30 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use ram/RASEL 17 12<- 0 0 FB5_1 (b) (b) nROMCS 2 2<- /\5 0 FB5_2 35 I/O O ram/RefDone 2 0 /\2 1 FB5_3 (b) (b) cs/nOverlay1 2 0 0 3 FB5_4 (b) (b) nCAS 1 0 0 4 FB5_5 36 I/O O nOE 1 0 \/3 1 FB5_6 37 I/O O ram/RS_FSM_FFd1 8 3<- 0 0 FB5_7 (b) (b) cs/nOverlay0 3 0 \/1 1 FB5_8 39 I/O (b) RA<4> 2 1<- \/4 0 FB5_9 40 I/O O ram/RAMEN 9 4<- 0 0 FB5_10 (b) (b) RA<3> 2 0 \/2 1 FB5_11 41 I/O O RA<5> 2 2<- \/5 0 FB5_12 42 I/O O ram/RS_FSM_FFd2 10 5<- 0 0 FB5_13 (b) (b) RA<2> 2 0 \/1 2 FB5_14 43 I/O O RA<6> 2 1<- \/4 0 FB5_15 46 I/O O (unused) 0 0 \/5 0 FB5_16 (b) (b) ram/RAMReady 12 9<- \/2 0 FB5_17 49 I/O (b) (unused) 0 0 \/5 0 FB5_18 (b) (b) Signals Used by Logic in Function Block 1: A_FSB<12> 11: A_FSB<4> 21: ram/BACTr 2: A_FSB<13> 12: A_FSB<5> 22: ram/RAMEN 3: A_FSB<14> 13: A_FSB<6> 23: ram/RASEL 4: A_FSB<15> 14: A_FSB<7> 24: ram/RS_FSM_FFd1 5: A_FSB<16> 15: nRES.PIN 25: ram/RS_FSM_FFd2 6: A_FSB<20> 16: cs/nOverlay0 26: ram/RS_FSM_FFd3 7: A_FSB<21> 17: cs/nOverlay1 27: ram/RefDone 8: A_FSB<22> 18: fsb/ASrf 28: ram/RefReq 9: A_FSB<23> 19: nAS_FSB 29: ram/RefReqSync 10: A_FSB<3> 20: nWE_FSB 30: ram/RefUrgent Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs ram/RASEL ......XXX.......XXX.XX.XXX.X.X.......... 13 nROMCS .....XXXX.......X....................... 5 ram/RefDone .......................XX.X.X........... 4 cs/nOverlay1 ...............X.XX..................... 3 nCAS ......................X................. 1 nOE ..................XX.................... 2 ram/RS_FSM_FFd1 ......XXX.......XXX..X.XXX...X.......... 11 cs/nOverlay0 .....XXXX.....XX.XX..................... 8 RA<4> ..X........X..........X................. 3 ram/RAMEN ......XXX.......XXX.XX.XXX.X.X.......... 13 RA<3> .X........X...........X................. 3 RA<5> ...X........X.........X................. 3 ram/RS_FSM_FFd2 ......XXX.......XXX.X..XXX.X.X.......... 12 RA<2> X........X............X................. 3 RA<6> ....X........X........X................. 3 ram/RAMReady ......XXX.......XXX.XX.XXX.X.X.......... 13 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB6 *********************************** Number of function block inputs used/remaining: 34/20 Number of signals used by logic mapping into function block: 34 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use iobm/ETACK 1 0 0 4 FB6_1 (b) (b) nVMA_IOB 3 0 0 2 FB6_2 74 I/O O iobm/DoutOE 2 0 0 3 FB6_3 (b) (b) iobm/ALE0 2 0 0 3 FB6_4 (b) (b) iobm/ES<3> 3 0 0 2 FB6_5 76 I/O I iobm/ES<1> 3 0 0 2 FB6_6 77 I/O I iobm/ES<0> 3 0 0 2 FB6_7 (b) (b) iobm/ES<4> 4 0 0 1 FB6_8 78 I/O I nLDS_IOB 4 0 0 1 FB6_9 79 I/O O iobm/IOS_FSM_FFd2 5 0 0 0 FB6_10 (b) (b) nUDS_IOB 4 0 0 1 FB6_11 80 I/O O nAS_IOB 3 0 0 2 FB6_12 81 I/O O iobm/ES<2> 5 0 0 0 FB6_13 (b) (b) nADoutLE1 2 0 0 3 FB6_14 82 I/O O nADoutLE0 1 0 \/1 3 FB6_15 85 I/O O iobm/IOACT 6 1<- 0 0 FB6_16 (b) (b) nDinLE 1 0 \/4 0 FB6_17 86 I/O O iobm/IOBERR 9 4<- 0 0 FB6_18 (b) (b) Signals Used by Logic in Function Block 1: C8M 13: iobm/Er 24: iobm/VPArr 2: iobm/ALE0 14: iobm/Er2 25: iobs/ALE0 3: iobm/BERRrf 15: iobm/IOACT 26: iobs/Clear1 4: iobm/BERRrr 16: iobm/IOBERR 27: iobs/IOL0 5: iobm/DTACKrf 17: iobm/IOREQr 28: iobs/IORW0 6: iobm/DTACKrr 18: iobm/IOS_FSM_FFd1 29: iobs/IOU0 7: iobm/ES<0> 19: iobm/IOS_FSM_FFd2 30: iobs/Load1 8: iobm/ES<1> 20: iobm/IOS_FSM_FFd3 31: nADoutLE1 9: iobm/ES<2> 21: iobm/RESrf 32: nAoutOE 10: iobm/ES<3> 22: iobm/RESrr 33: nBERR_IOB 11: iobm/ES<4> 23: iobm/VPArf 34: nVMA_IOB 12: iobm/ETACK Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs iobm/ETACK ......XXXXX......................X...... 6 nVMA_IOB ......XXXXX...X.......XX.......X.X...... 10 iobm/DoutOE ..................XX.......X............ 3 iobm/ALE0 ................XXXX.................... 4 iobm/ES<3> ......XXXX..XX.......................... 6 iobm/ES<1> ......XX....XX.......................... 4 iobm/ES<0> ......XXXXX.XX.......................... 7 iobm/ES<4> ......XXXXX.XX.......................... 7 nLDS_IOB .................XXX......XX...X........ 6 iobm/IOS_FSM_FFd2 X.XXXX.....X.....XXXXX.................. 11 nUDS_IOB .................XXX.......XX..X........ 6 nAS_IOB .................XXX...........X........ 4 iobm/ES<2> ......XXXXX.XX.......................... 7 nADoutLE1 .........................X...XX......... 3 nADoutLE0 .X......................X............... 2 iobm/IOACT X.XXXX.....X....XXXXXX.................. 12 nDinLE .................XX..................... 2 iobm/IOBERR X.XXXX.....X...X.XXXXX..........X....... 13 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB7 *********************************** Number of function block inputs used/remaining: 30/24 Number of signals used by logic mapping into function block: 30 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use cnt/LTimer<13> 3 0 0 2 FB7_1 (b) (b) RA<1> 2 0 0 3 FB7_2 50 I/O O cnt/LTimer<9> 4 0 0 1 FB7_3 (b) (b) cnt/LTimer<8> 4 0 0 1 FB7_4 (b) (b) RA<7> 2 0 0 3 FB7_5 52 I/O O RA<0> 2 0 0 3 FB7_6 53 I/O O cnt/LTimer<7> 4 0 \/1 0 FB7_7 (b) (b) RA<8> 7 2<- 0 0 FB7_8 54 I/O O RA<10> 1 0 /\1 3 FB7_9 55 I/O O cnt/LTimer<6> 4 0 0 1 FB7_10 (b) (b) RA<9> 2 0 0 3 FB7_11 56 I/O O C25MEN 0 0 0 5 FB7_12 58 I/O O cnt/LTimer<5> 4 0 0 1 FB7_13 (b) (b) C20MEN 0 0 0 5 FB7_14 59 I/O O cnt/LTimer<4> 4 0 0 1 FB7_15 60 I/O (b) cnt/LTimer<12> 4 0 0 1 FB7_16 (b) (b) cnt/LTimer<11> 4 0 0 1 FB7_17 61 I/O (b) cnt/LTimer<10> 4 0 0 1 FB7_18 (b) (b) Signals Used by Logic in Function Block 1: A_FSB<10> 11: A_FSB<2> 21: cnt/LTimer<3> 2: A_FSB<11> 12: A_FSB<8> 22: cnt/LTimer<4> 3: A_FSB<17> 13: A_FSB<9> 23: cnt/LTimer<5> 4: A_FSB<18> 14: cnt/LTimer<0> 24: cnt/LTimer<6> 5: A_FSB<19> 15: cnt/LTimer<10> 25: cnt/LTimer<7> 6: A_FSB<1> 16: cnt/LTimer<11> 26: cnt/LTimer<8> 7: A_FSB<20> 17: cnt/LTimer<12> 27: cnt/LTimer<9> 8: A_FSB<21> 18: cnt/LTimer<13> 28: cnt/TimerTC 9: A_FSB<22> 19: cnt/LTimer<1> 29: cs/nOverlay1 10: A_FSB<23> 20: cnt/LTimer<2> 30: ram/RASEL Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs cnt/LTimer<13> .............XXXXXXXXXXXXXXX............ 15 RA<1> .X........X..................X.......... 3 cnt/LTimer<9> .............X...XXXXXXXXXXX............ 12 cnt/LTimer<8> .............X...XXXXXXXXX.X............ 11 RA<7> ..X........X.................X.......... 3 RA<0> X....X.......................X.......... 3 cnt/LTimer<7> .............X...XXXXXXXX..X............ 10 RA<8> ...X...XXX..X...............XX.......... 7 RA<10> .......X................................ 1 cnt/LTimer<6> .............X...XXXXXXX...X............ 9 RA<9> ....X.X......................X.......... 3 C25MEN ........................................ 0 cnt/LTimer<5> .............X...XXXXXX....X............ 8 C20MEN ........................................ 0 cnt/LTimer<4> .............X...XXXXX.....X............ 7 cnt/LTimer<12> .............XXXXXXXXXXXXXXX............ 15 cnt/LTimer<11> .............XXX.XXXXXXXXXXX............ 14 cnt/LTimer<10> .............XX..XXXXXXXXXXX............ 13 0----+----1----+----2----+----3----+----4 0 0 0 0 *********************************** FB8 *********************************** Number of function block inputs used/remaining: 34/20 Number of signals used by logic mapping into function block: 34 Signal Total Imp Exp Unused Loc Pin Pin Pin Name Pt Pt Pt Pt # Type Use cnt/PORS_FSM_FFd1 1 0 /\2 2 FB8_1 (b) (b) RA<11> 1 0 \/4 0 FB8_2 63 I/O O ram/RS_FSM_FFd3 9 4<- 0 0 FB8_3 (b) (b) (unused) 0 0 0 5 FB8_4 (b) nRAS 3 0 \/1 1 FB8_5 64 I/O O nRAMLWE 1 1<- \/5 0 FB8_6 65 I/O O iobs/PS_FSM_FFd2 14 9<- 0 0 FB8_7 (b) (b) nRAMUWE 1 0 /\4 0 FB8_8 66 I/O O (unused) 0 0 \/4 1 FB8_9 67 I/O (b) iobs/Load1 14 9<- 0 0 FB8_10 (b) (b) (unused) 0 0 /\5 0 FB8_11 68 I/O (b) nBERR_FSB 4 0 \/1 0 FB8_12 70 I/O O (unused) 0 0 \/5 0 FB8_13 (b) (b) iobs/IOREQ 14 9<- 0 0 FB8_14 71 I/O (b) nBR_IOB 2 0 /\3 0 FB8_15 72 I/O O (unused) 0 0 \/5 0 FB8_16 (b) (b) iobs/Once 17 12<- 0 0 FB8_17 73 I/O I (unused) 0 0 /\5 0 FB8_18 (b) (b) Signals Used by Logic in Function Block 1: A_FSB<13> 13: cnt/PORS_FSM_FFd1 24: nBERR_FSB 2: A_FSB<14> 14: cnt/PORS_FSM_FFd2 25: nBR_IOB 3: A_FSB<16> 15: cs/nOverlay1 26: nLDS_FSB 4: A_FSB<17> 16: fsb/ASrf 27: nUDS_FSB 5: A_FSB<18> 17: iobm/IOBERR 28: nWE_FSB 6: A_FSB<19> 18: iobs/IOACTr 29: ram/RAMEN 7: A_FSB<20> 19: iobs/Once 30: ram/RS_FSM_FFd1 8: A_FSB<21> 20: iobs/PS_FSM_FFd1 31: ram/RS_FSM_FFd2 9: A_FSB<22> 21: iobs/PS_FSM_FFd2 32: ram/RS_FSM_FFd3 10: A_FSB<23> 22: nADoutLE1 33: ram/RefRAS 11: cnt/IPL2r 23: nAS_FSB 34: ram/RefUrgent 12: cnt/LTimer<13> Signal 1 2 3 4 FB Name 0----+----0----+----0----+----0----+----0 Inputs cnt/PORS_FSM_FFd1 ..........XXXX.......................... 4 RA<11> .....X.................................. 1 ram/RS_FSM_FFd3 .......XXX....XX......X.....XXXX.X...... 11 nRAS .......XXX....X.......X.....X...X....... 7 nRAMLWE ......................X..X.XX........... 4 iobs/PS_FSM_FFd2 XXXXXXXXXX....XX.XXXXXX....X............ 19 nRAMUWE ......................X...XXX........... 4 iobs/Load1 XXXXXXXXXX....XX..XXXXX....X............ 18 nBERR_FSB ...............XXXX.XXXX................ 8 iobs/IOREQ XXXXXXXXXX....XX.XXXXXX....X............ 19 nBR_IOB ..........X.XX..........X............... 4 iobs/Once XXXXXXXXXX....XX..XXXXX....X............ 18 0----+----1----+----2----+----3----+----4 0 0 0 0 ******************************* Equations ******************************** ********** Mapped Logic ********** assign C20MEN = 1'b1; assign C25MEN = 1'b1; assign RA[0] = ((A_FSB[10] && !ram/RASEL) || (ram/RASEL && A_FSB[1])); assign RA[1] = ((A_FSB[11] && !ram/RASEL) || (ram/RASEL && A_FSB[2])); assign RA[2] = ((A_FSB[12] && !ram/RASEL) || (ram/RASEL && A_FSB[3])); assign RA[3] = ((A_FSB[13] && !ram/RASEL) || (ram/RASEL && A_FSB[4])); assign RA[4] = ((ram/RASEL && A_FSB[5]) || (A_FSB[14] && !ram/RASEL)); assign RA[5] = ((A_FSB[15] && !ram/RASEL) || (ram/RASEL && A_FSB[6])); assign RA[6] = ((ram/RASEL && A_FSB[7]) || (A_FSB[16] && !ram/RASEL)); assign RA[7] = ((A_FSB[8] && ram/RASEL) || (A_FSB[17] && !ram/RASEL)); assign RA[8] = ((A_FSB[9] && !A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && ram/RASEL) || (A_FSB[9] && !A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && ram/RASEL) || (A_FSB[23] && A_FSB[18]) || (A_FSB[18] && !ram/RASEL) || (A_FSB[22] && !A_FSB[21] && A_FSB[18]) || (A_FSB[22] && A_FSB[18] && cs/nOverlay1) || (!A_FSB[22] && A_FSB[18] && !cs/nOverlay1)); assign RA[9] = ((A_FSB[20] && ram/RASEL) || (A_FSB[19] && !ram/RASEL)); assign RA[10] = A_FSB[21]; assign RA[11] = A_FSB[19]; FDCPE FDCPE_cnt/IPL2r (cnt/IPL2r,!nIPL2,!C8M,1'b0,1'b0); FTCPE FTCPE_cnt/LTimer0 (cnt/LTimer[0],cnt/LTimer_T[0],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[0] = (!cnt/LTimer[0] && cnt/LTimer[13] && cnt/TimerTC); FDCPE FDCPE_cnt/LTimer1 (cnt/LTimer[1],cnt/LTimer_D[1],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_D[1] = ((cnt/LTimer[0] && cnt/LTimer[1]) || (!cnt/LTimer[0] && !cnt/LTimer[1]) || (cnt/LTimer[13] && cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer2 (cnt/LTimer[2],cnt/LTimer_T[2],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[2] = ((cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1]) || (cnt/LTimer[0] && cnt/LTimer[1] && !cnt/TimerTC) || (cnt/LTimer[13] && cnt/LTimer[2] && cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer3 (cnt/LTimer[3],cnt/LTimer_T[3],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[3] = ((cnt/LTimer[13] && cnt/LTimer[3] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer4 (cnt/LTimer[4],cnt/LTimer_T[4],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[4] = ((cnt/LTimer[13] && cnt/LTimer[4] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer5 (cnt/LTimer[5],cnt/LTimer_T[5],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[5] = ((cnt/LTimer[13] && cnt/LTimer[5] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[4]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[4] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer6 (cnt/LTimer[6],cnt/LTimer_T[6],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[6] = ((cnt/LTimer[13] && cnt/LTimer[6] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer7 (cnt/LTimer[7],cnt/LTimer_T[7],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[7] = ((cnt/LTimer[13] && cnt/LTimer[7] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer8 (cnt/LTimer[8],cnt/LTimer_T[8],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[8] = ((cnt/LTimer[13] && cnt/LTimer[8] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer9 (cnt/LTimer[9],cnt/LTimer_T[9],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[9] = ((cnt/LTimer[13] && cnt/LTimer[9] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[8]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[8] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer10 (cnt/LTimer[10],cnt/LTimer_T[10],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[10] = ((cnt/LTimer[13] && cnt/LTimer[10] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[8]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[8] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer11 (cnt/LTimer[11],cnt/LTimer_T[11],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[11] = ((cnt/LTimer[13] && cnt/LTimer[11] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[10] && cnt/LTimer[8]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[10] && cnt/LTimer[8] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer12 (cnt/LTimer[12],cnt/LTimer_T[12],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[12] = ((cnt/LTimer[13] && cnt/LTimer[12] && cnt/TimerTC) || (cnt/LTimer[0] && !cnt/LTimer[13] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[10] && cnt/LTimer[11] && cnt/LTimer[8]) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[10] && cnt/LTimer[11] && cnt/LTimer[8] && !cnt/TimerTC)); FTCPE FTCPE_cnt/LTimer13 (cnt/LTimer[13],cnt/LTimer_T[13],!C8M,1'b0,1'b0,cnt/TimerTC); assign cnt/LTimer_T[13] = ((cnt/LTimer[13] && cnt/TimerTC) || (cnt/LTimer[0] && cnt/LTimer[1] && cnt/LTimer[2] && cnt/LTimer[3] && cnt/LTimer[5] && cnt/LTimer[4] && cnt/LTimer[6] && cnt/LTimer[7] && cnt/LTimer[9] && cnt/LTimer[10] && cnt/LTimer[11] && cnt/LTimer[8] && cnt/LTimer[12])); FTCPE FTCPE_cnt/PORS_FSM_FFd1 (cnt/PORS_FSM_FFd1,cnt/PORS_FSM_FFd1_T,!C8M,1'b0,1'b0); assign cnt/PORS_FSM_FFd1_T = (cnt/LTimer[13] && !cnt/PORS_FSM_FFd1 && cnt/PORS_FSM_FFd2 && !cnt/IPL2r); FDCPE FDCPE_cnt/PORS_FSM_FFd2 (cnt/PORS_FSM_FFd2,cnt/PORS_FSM_FFd2_D,!C8M,1'b0,1'b0); assign cnt/PORS_FSM_FFd2_D = ((cnt/LTimer[13] && !cnt/PORS_FSM_FFd1) || (!cnt/LTimer[13] && cnt/PORS_FSM_FFd2)); FDCPE FDCPE_cnt/RefReq (cnt/RefReq,cnt/RefReq_D,E,1'b0,1'b0); assign cnt/RefReq_D = ((cnt/Timer[1] && !cnt/Timer[3]) || (cnt/Timer[2] && !cnt/Timer[3]) || (!cnt/Timer[1] && !cnt/Timer[2] && !cnt/Timer[0] && cnt/Timer[3])); FDCPE FDCPE_cnt/RefUrgent (cnt/RefUrgent,cnt/RefUrgent_D,E,1'b0,1'b0); assign cnt/RefUrgent_D = ((cnt/Timer[1] && cnt/Timer[2] && !cnt/Timer[3]) || (!cnt/Timer[1] && !cnt/Timer[2] && !cnt/Timer[0] && cnt/Timer[3])); FDCPE FDCPE_cnt/Timer0 (cnt/Timer[0],cnt/Timer_D[0],E,1'b0,1'b0); assign cnt/Timer_D[0] = (!cnt/TimerTC && !cnt/Timer[0]); FDCPE FDCPE_cnt/Timer1 (cnt/Timer[1],cnt/Timer_D[1],E,1'b0,1'b0); assign cnt/Timer_D[1] = ((!cnt/TimerTC && cnt/Timer[1] && !cnt/Timer[0]) || (!cnt/TimerTC && !cnt/Timer[1] && cnt/Timer[0])); FTCPE FTCPE_cnt/Timer2 (cnt/Timer[2],cnt/Timer_T[2],E,1'b0,1'b0); assign cnt/Timer_T[2] = ((cnt/TimerTC && cnt/Timer[2]) || (!cnt/TimerTC && cnt/Timer[1] && cnt/Timer[0])); FTCPE FTCPE_cnt/Timer3 (cnt/Timer[3],cnt/Timer_T[3],E,1'b0,1'b0); assign cnt/Timer_T[3] = ((cnt/TimerTC && cnt/Timer[3]) || (!cnt/TimerTC && cnt/Timer[1] && cnt/Timer[2] && cnt/Timer[0])); FDCPE FDCPE_cnt/TimerTC (cnt/TimerTC,cnt/TimerTC_D,E,1'b0,1'b0); assign cnt/TimerTC_D = (!cnt/Timer[1] && !cnt/Timer[2] && !cnt/Timer[0] && cnt/Timer[3]); FDCPE FDCPE_cnt/nRESout (cnt/nRESout,cnt/nRESout_D,!C8M,1'b0,1'b0); assign cnt/nRESout_D = ((cnt/LTimer[13] && cnt/PORS_FSM_FFd1 && !cnt/PORS_FSM_FFd2) || (cnt/PORS_FSM_FFd1 && !cnt/PORS_FSM_FFd2 && cnt/nRESout)); FTCPE FTCPE_cs/nOverlay0 (cs/nOverlay0,cs/nOverlay0_T,FCLK,!nRES.PIN,1'b0); assign cs/nOverlay0_T = ((!A_FSB[23] && A_FSB[22] && !A_FSB[21] && !A_FSB[20] && !cs/nOverlay0 && !nAS_FSB) || (!A_FSB[23] && A_FSB[22] && !A_FSB[21] && !A_FSB[20] && !cs/nOverlay0 && fsb/ASrf)); FDCPE FDCPE_cs/nOverlay1 (cs/nOverlay1,cs/nOverlay0,FCLK,1'b0,1'b0,cs/nOverlay1_CE); assign cs/nOverlay1_CE = (nAS_FSB && !fsb/ASrf); FDCPE FDCPE_fsb/ASrf (fsb/ASrf,!nAS_FSB,!FCLK,1'b0,1'b0); FDCPE FDCPE_fsb/Ready0r (fsb/Ready0r,fsb/Ready0r_D,FCLK,1'b0,1'b0); assign fsb/Ready0r_D = ((nAS_FSB && !fsb/ASrf) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !fsb/Ready0r && !ram/RAMReady) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !fsb/Ready0r && !ram/RAMReady)); FDCPE FDCPE_fsb/Ready1r (fsb/Ready1r,fsb/Ready1r_D,FCLK,1'b0,1'b0); assign fsb/Ready1r_D = ((A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady) || (A_FSB[14] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && !nADoutLE1) || (A_FSB[13] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && !nADoutLE1) || (nAS_FSB && !fsb/ASrf) || (A_FSB[23] && !fsb/Ready1r && !iobs/IOReady) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !fsb/Ready1r && !iobs/IOReady) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady)); FDCPE FDCPE_fsb/VPA (fsb/VPA,fsb/VPA_D,FCLK,1'b0,1'b0); assign fsb/VPA_D = ((EXP21_.EXP) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !fsb/Ready0r && fsb/VPA && fsb/ASrf && !ram/RAMReady) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !fsb/Ready0r && fsb/VPA && !nAS_FSB && !ram/RAMReady) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !fsb/Ready0r && fsb/VPA && fsb/ASrf && !ram/RAMReady) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB) || (A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && fsb/ASrf) || (A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && fsb/ASrf) || (A_FSB[14] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB && !nADoutLE1) || (A_FSB[13] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB && !nADoutLE1) || (A_FSB[13] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && fsb/ASrf && !nADoutLE1) || (A_FSB[23] && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB) || (A_FSB[23] && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && fsb/ASrf) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !fsb/Ready0r && fsb/VPA && !nAS_FSB && !ram/RAMReady) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && !nAS_FSB) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !fsb/Ready1r && fsb/VPA && !iobs/IOReady && fsb/ASrf)); FDCPE FDCPE_iobm/ALE0 (iobm/ALE0,iobm/ALE0_D,C16M,1'b0,1'b0); assign iobm/ALE0_D = ((iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2) || (!iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd2 && !iobm/IOREQr)); FDCPE FDCPE_iobm/BERRrf (iobm/BERRrf,!nBERR_IOB,!C16M,1'b0,1'b0); FDCPE FDCPE_iobm/BERRrr (iobm/BERRrr,!nBERR_IOB,C16M,1'b0,1'b0); FDCPE FDCPE_iobm/BG (iobm/BG,!nBG_IOB,C16M,1'b0,1'b0,iobm/nASr); FDCPE FDCPE_iobm/DTACKrf (iobm/DTACKrf,!nDTACK_IOB,!C16M,1'b0,1'b0); FDCPE FDCPE_iobm/DTACKrr (iobm/DTACKrr,!nDTACK_IOB,C16M,1'b0,1'b0); FDCPE FDCPE_iobm/DoutOE (iobm/DoutOE,iobm/DoutOE_D,C16M,1'b0,1'b0); assign iobm/DoutOE_D = ((iobs/IORW0 && iobm/IOS_FSM_FFd3) || (iobs/IORW0 && iobm/IOS_FSM_FFd2)); FTCPE FTCPE_iobm/ES0 (iobm/ES[0],iobm/ES_T[0],C16M,1'b0,1'b0); assign iobm/ES_T[0] = ((iobm/ES[0] && !iobm/Er && iobm/Er2) || (!iobm/ES[0] && !iobm/ES[1] && !iobm/ES[2] && !iobm/ES[3] && !iobm/ES[4] && iobm/Er) || (!iobm/ES[0] && !iobm/ES[1] && !iobm/ES[2] && !iobm/ES[3] && !iobm/ES[4] && !iobm/Er2)); FDCPE FDCPE_iobm/ES1 (iobm/ES[1],iobm/ES_D[1],C16M,1'b0,1'b0); assign iobm/ES_D[1] = ((iobm/ES[0] && iobm/ES[1]) || (!iobm/ES[0] && !iobm/ES[1]) || (!iobm/Er && iobm/Er2)); FDCPE FDCPE_iobm/ES2 (iobm/ES[2],iobm/ES_D[2],C16M,1'b0,1'b0); assign iobm/ES_D[2] = ((!iobm/ES[0] && !iobm/ES[2]) || (!iobm/ES[1] && !iobm/ES[2]) || (!iobm/Er && iobm/Er2) || (iobm/ES[0] && iobm/ES[1] && iobm/ES[2]) || (!iobm/ES[2] && !iobm/ES[3] && iobm/ES[4])); FTCPE FTCPE_iobm/ES3 (iobm/ES[3],iobm/ES_T[3],C16M,1'b0,1'b0); assign iobm/ES_T[3] = ((iobm/ES[3] && !iobm/Er && iobm/Er2) || (iobm/ES[0] && iobm/ES[1] && iobm/ES[2] && iobm/Er) || (iobm/ES[0] && iobm/ES[1] && iobm/ES[2] && !iobm/Er2)); FTCPE FTCPE_iobm/ES4 (iobm/ES[4],iobm/ES_T[4],C16M,1'b0,1'b0); assign iobm/ES_T[4] = ((iobm/ES[4] && !iobm/Er && iobm/Er2) || (iobm/ES[0] && iobm/ES[1] && iobm/ES[2] && iobm/ES[3] && iobm/Er) || (iobm/ES[0] && iobm/ES[1] && iobm/ES[2] && iobm/ES[3] && !iobm/Er2) || (iobm/ES[0] && iobm/ES[1] && !iobm/ES[2] && !iobm/ES[3] && iobm/ES[4])); FDCPE FDCPE_iobm/ETACK (iobm/ETACK,iobm/ETACK_D,C16M,1'b0,1'b0); assign iobm/ETACK_D = (!nVMA_IOB && !iobm/ES[0] && !iobm/ES[1] && !iobm/ES[2] && !iobm/ES[3] && iobm/ES[4]); FDCPE FDCPE_iobm/Er (iobm/Er,E,!C8M,1'b0,1'b0); FDCPE FDCPE_iobm/Er2 (iobm/Er2,iobm/Er,C16M,1'b0,1'b0); FDCPE FDCPE_iobm/IOACT (iobm/IOACT,iobm/IOACT_D,C16M,1'b0,1'b0); assign iobm/IOACT_D = ((C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/RESrf && iobm/RESrr) || (iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2) || (!iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd2 && !iobm/IOREQr) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/ETACK) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/BERRrf && iobm/BERRrr) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/DTACKrf && iobm/DTACKrr)); FTCPE FTCPE_iobm/IOBERR (iobm/IOBERR,iobm/IOBERR_T,C16M,1'b0,1'b0); assign iobm/IOBERR_T = ((C8M && nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/IOBERR && iobm/RESrf && iobm/RESrr) || (C8M && !nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && !iobm/IOBERR && iobm/BERRrf && iobm/BERRrr) || (C8M && !nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && !iobm/IOBERR && iobm/DTACKrf && iobm/DTACKrr) || (C8M && !nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && !iobm/IOBERR && iobm/RESrf && iobm/RESrr) || (iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2 && iobm/IOBERR) || (C8M && nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/IOBERR && iobm/ETACK) || (C8M && !nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && !iobm/IOBERR && iobm/ETACK) || (C8M && nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/IOBERR && iobm/BERRrf && iobm/BERRrr) || (C8M && nBERR_IOB && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/IOBERR && iobm/DTACKrf && iobm/DTACKrr)); FDCPE FDCPE_iobm/IOREQr (iobm/IOREQr,iobs/IOREQ,!C16M,1'b0,1'b0); FDCPE FDCPE_iobm/IOS_FSM_FFd1 (iobm/IOS_FSM_FFd1,iobm/IOS_FSM_FFd1_D,C16M,1'b0,1'b0); assign iobm/IOS_FSM_FFd1_D = ((iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1) || (!iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd2)); FTCPE FTCPE_iobm/IOS_FSM_FFd2 (iobm/IOS_FSM_FFd2,iobm/IOS_FSM_FFd2_T,C16M,1'b0,1'b0); assign iobm/IOS_FSM_FFd2_T = ((iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/ETACK) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/BERRrf && iobm/BERRrr) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/DTACKrf && iobm/DTACKrr) || (C8M && iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2 && iobm/RESrf && iobm/RESrr)); FDCPE FDCPE_iobm/IOS_FSM_FFd3 (iobm/IOS_FSM_FFd3,iobm/IOS_FSM_FFd3_D,C16M,1'b0,1'b0); assign iobm/IOS_FSM_FFd3_D = ((iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2) || (iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2) || (!C8M && iobm/BG && !iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2 && iobm/IOREQr)); FDCPE FDCPE_iobm/RESrf (iobm/RESrf,!nRES.PIN,!C16M,1'b0,1'b0); FDCPE FDCPE_iobm/RESrr (iobm/RESrr,!nRES.PIN,C16M,1'b0,1'b0); FDCPE FDCPE_iobm/VPArf (iobm/VPArf,!nVPA_IOB,!C16M,1'b0,1'b0); FDCPE FDCPE_iobm/VPArr (iobm/VPArr,!nVPA_IOB,C16M,1'b0,1'b0); FDCPE FDCPE_iobm/nASr (iobm/nASr,iobm/nASr_D,C16M,1'b0,1'b0); assign iobm/nASr_D = (!nAS_IOB && nAoutOE); FDCPE FDCPE_iobs/ALE0 (iobs/ALE0,iobs/ALE0_D,FCLK,1'b0,1'b0); assign iobs/ALE0_D = (iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1); FDCPE FDCPE_iobs/Clear1 (iobs/Clear1,iobs/Clear1_D,FCLK,1'b0,1'b0); assign iobs/Clear1_D = (iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && !nADoutLE1); FDCPE FDCPE_iobs/IOACTr (iobs/IOACTr,iobm/IOACT,FCLK,1'b0,1'b0); FDCPE FDCPE_iobs/IOL0 (iobs/IOL0,iobs/IOL0_D,FCLK,1'b0,1'b0,iobs/IOL0_CE); assign iobs/IOL0_D = ((!nLDS_FSB && nADoutLE1) || (iobs/IOL1 && !nADoutLE1)); assign iobs/IOL0_CE = (iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1); FDCPE FDCPE_iobs/IOL1 (iobs/IOL1,!nLDS_FSB,FCLK,1'b0,1'b0,iobs/Load1); FDCPE FDCPE_iobs/IOREQ (iobs/IOREQ,iobs/IOREQ_D,FCLK,1'b0,1'b0); assign iobs/IOREQ_D = ((iobs/nBERR_FSB.EXP) || (!A_FSB[23] && !A_FSB[22] && !A_FSB[21] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && !A_FSB[22] && !cs/nOverlay1 && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[19] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[16] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && nWE_FSB && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[18] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[17] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && cs/nOverlay1 && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!iobs/PS_FSM_FFd2 && iobs/PS_FSM_FFd1) || (iobs/PS_FSM_FFd1 && iobs/IOACTr) || (iobs/Once && !iobs/PS_FSM_FFd2 && nADoutLE1) || (!A_FSB[23] && !A_FSB[20] && !iobs/PS_FSM_FFd2 && nADoutLE1) || (nAS_FSB && !iobs/PS_FSM_FFd2 && !fsb/ASrf && nADoutLE1)); FTCPE FTCPE_iobs/IORW0 (iobs/IORW0,iobs/IORW0_T,FCLK,1'b0,1'b0); assign iobs/IORW0_T = ((A_FSB[23] && nWE_FSB && !iobs/Once && !iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && nWE_FSB && !iobs/Once && !iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && nWE_FSB && !iobs/Once && !iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !nWE_FSB && !iobs/Once && iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !nWE_FSB && !iobs/Once && iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1) || (nROMWE_OBUF.EXP) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !iobs/Once && iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !iobs/Once && iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1) || (A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !iobs/Once && iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !iobs/Once && iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1) || (A_FSB[14] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !iobs/Once && iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (iobs/IORW0 && !iobs/IORW1 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && !nADoutLE1) || (!iobs/IORW0 && iobs/IORW1 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && !nADoutLE1) || (A_FSB[23] && nWE_FSB && !iobs/Once && !iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[23] && !nWE_FSB && !iobs/Once && iobs/IORW0 && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (A_FSB[23] && !nWE_FSB && !iobs/Once && iobs/IORW0 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && fsb/ASrf && nADoutLE1)); FTCPE FTCPE_iobs/IORW1 (iobs/IORW1,iobs/IORW1_T,FCLK,1'b0,1'b0); assign iobs/IORW1_T = ((iobs/Once) || (!nADoutLE1) || (fsb/Ready1r.EXP) || (!nWE_FSB && !iobs/IORW1) || (nAS_FSB && !fsb/ASrf) || (!iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1) || (!A_FSB[23] && !A_FSB[22] && !A_FSB[21]) || (!A_FSB[23] && !A_FSB[22] && !cs/nOverlay1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[19]) || (!A_FSB[23] && A_FSB[21] && !A_FSB[18]) || (!A_FSB[23] && A_FSB[21] && !A_FSB[17]) || (!A_FSB[23] && A_FSB[21] && !A_FSB[16]) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && cs/nOverlay1) || (!A_FSB[23] && !A_FSB[20]) || (nWE_FSB && iobs/IORW1) || (!A_FSB[23] && A_FSB[21] && !iobs/IORW1)); FTCPE FTCPE_iobs/IOReady (iobs/IOReady,iobs/IOReady_T,FCLK,1'b0,1'b0); assign iobs/IOReady_T = ((iobs/Once && iobs/IOReady && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && iobm/IOBERR && nADoutLE1) || (iobs/Once && !iobs/IOReady && !nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && !iobm/IOBERR && nADoutLE1) || (iobs/Once && !iobs/IOReady && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && !iobm/IOBERR && fsb/ASrf && nADoutLE1) || (iobs/IOReady && nAS_FSB && !fsb/ASrf)); FDCPE FDCPE_iobs/IOU0 (iobs/IOU0,iobs/IOU0_D,FCLK,1'b0,1'b0,iobs/IOU0_CE); assign iobs/IOU0_D = ((!nUDS_FSB && nADoutLE1) || (iobs/IOU1 && !nADoutLE1)); assign iobs/IOU0_CE = (iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1); FDCPE FDCPE_iobs/IOU1 (iobs/IOU1,!nUDS_FSB,FCLK,1'b0,1'b0,iobs/Load1); FDCPE FDCPE_iobs/Load1 (iobs/Load1,iobs/Load1_D,FCLK,1'b0,1'b0); assign iobs/Load1_D = ((iobs/Once) || (!nADoutLE1) || (!A_FSB[23] && !A_FSB[22] && !A_FSB[21]) || (!A_FSB[23] && !A_FSB[22] && !cs/nOverlay1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[19]) || (!A_FSB[23] && A_FSB[21] && nWE_FSB) || (!A_FSB[23] && A_FSB[21] && !A_FSB[18]) || (!A_FSB[23] && A_FSB[21] && !A_FSB[17]) || (!A_FSB[23] && A_FSB[21] && !A_FSB[16]) || (!A_FSB[14] && !A_FSB[13] && !A_FSB[23] && A_FSB[21]) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && cs/nOverlay1) || (!A_FSB[23] && !A_FSB[20]) || (nAS_FSB && !fsb/ASrf) || (!iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1)); FDCPE FDCPE_iobs/Once (iobs/Once,iobs/Once_D,FCLK,1'b0,1'b0); assign iobs/Once_D = ((A_FSB[23] && !iobs/Once && iobs/PS_FSM_FFd1) || (!iobs/Once && iobs/PS_FSM_FFd2 && !nADoutLE1) || (!iobs/Once && iobs/PS_FSM_FFd1 && !nADoutLE1) || (!A_FSB[23] && !A_FSB[22] && !A_FSB[21] && !iobs/Once) || (!A_FSB[23] && !A_FSB[22] && !cs/nOverlay1 && !iobs/Once) || (cnt/PORS_FSM_FFd1.EXP) || (!A_FSB[23] && A_FSB[21] && !A_FSB[19] && !iobs/Once) || (!A_FSB[23] && A_FSB[21] && !A_FSB[18] && !iobs/Once) || (!A_FSB[23] && A_FSB[21] && !A_FSB[17] && !iobs/Once) || (!A_FSB[23] && A_FSB[21] && !A_FSB[16] && !iobs/Once) || (!A_FSB[23] && A_FSB[21] && nWE_FSB && !iobs/Once) || (nAS_FSB && !fsb/ASrf) || (A_FSB[23] && !iobs/Once && iobs/PS_FSM_FFd2) || (!A_FSB[23] && !A_FSB[20] && !iobs/Once) || (A_FSB[22] && !iobs/Once && iobs/PS_FSM_FFd2) || (A_FSB[22] && !iobs/Once && iobs/PS_FSM_FFd1)); FDCPE FDCPE_iobs/PS_FSM_FFd1 (iobs/PS_FSM_FFd1,iobs/PS_FSM_FFd1_D,FCLK,1'b0,1'b0); assign iobs/PS_FSM_FFd1_D = ((iobs/PS_FSM_FFd2) || (iobs/PS_FSM_FFd1 && iobs/IOACTr)); FDCPE FDCPE_iobs/PS_FSM_FFd2 (iobs/PS_FSM_FFd2,iobs/PS_FSM_FFd2_D,FCLK,1'b0,1'b0); assign iobs/PS_FSM_FFd2_D = ((!A_FSB[23] && !A_FSB[22] && !A_FSB[21] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && !A_FSB[22] && !cs/nOverlay1 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[19] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[16] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && nWE_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[18] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[21] && !A_FSB[17] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[14] && !A_FSB[13] && !A_FSB[23] && A_FSB[21] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && cs/nOverlay1 && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (iobs/PS_FSM_FFd2 && iobs/PS_FSM_FFd1 && iobs/IOACTr) || (!iobs/PS_FSM_FFd2 && iobs/PS_FSM_FFd1 && !iobs/IOACTr) || (iobs/Once && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (!A_FSB[23] && !A_FSB[20] && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && nADoutLE1) || (nAS_FSB && !iobs/PS_FSM_FFd2 && !iobs/PS_FSM_FFd1 && !fsb/ASrf && nADoutLE1)); assign nADoutLE0 = (!iobm/ALE0 && !iobs/ALE0); FDCPE FDCPE_nADoutLE1 (nADoutLE1,nADoutLE1_D,FCLK,1'b0,1'b0); assign nADoutLE1_D = ((iobs/Load1) || (!iobs/Clear1 && !nADoutLE1)); FDCPE FDCPE_nAS_IOB (nAS_IOB_I,nAS_IOB,!C16M,1'b0,1'b0); assign nAS_IOB = ((!iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd2) || (iobm/IOS_FSM_FFd1 && !iobm/IOS_FSM_FFd2)); assign nAS_IOB = nAS_IOB_OE ? nAS_IOB_I : 1'bZ; assign nAS_IOB_OE = nAoutOE; FDCPE FDCPE_nAoutOE (nAoutOE,nAoutOE_D,!C8M,1'b0,1'b0); assign nAoutOE_D = (!nBR_IOB && cnt/PORS_FSM_FFd1 && !cnt/PORS_FSM_FFd2); FTCPE FTCPE_nBERR_FSB (nBERR_FSB,nBERR_FSB_T,FCLK,1'b0,1'b0); assign nBERR_FSB_T = ((nAS_FSB && !nBERR_FSB && !fsb/ASrf) || (iobs/Once && !nBERR_FSB && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && !iobm/IOBERR && nADoutLE1) || (iobs/Once && !nAS_FSB && nBERR_FSB && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && iobm/IOBERR && nADoutLE1) || (iobs/Once && nBERR_FSB && !iobs/PS_FSM_FFd2 && !iobs/IOACTr && iobm/IOBERR && fsb/ASrf && nADoutLE1)); FTCPE FTCPE_nBR_IOB (nBR_IOB,nBR_IOB_T,!C8M,1'b0,1'b0); assign nBR_IOB_T = ((nBR_IOB && !cnt/PORS_FSM_FFd1 && !cnt/PORS_FSM_FFd2) || (!nBR_IOB && !cnt/PORS_FSM_FFd1 && cnt/PORS_FSM_FFd2 && cnt/IPL2r)); FDCPE FDCPE_nCAS (nCAS,!ram/RASEL,!FCLK,1'b0,1'b0); FDCPE FDCPE_nDTACK_FSB (nDTACK_FSB,nDTACK_FSB_D,FCLK,1'b0,1'b0); assign nDTACK_FSB_D = ((iobs/IOReady.EXP) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !fsb/Ready0r && nDTACK_FSB && !ram/RAMReady) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && !fsb/Ready1r && !iobs/IOReady && nDTACK_FSB) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !fsb/Ready0r && nDTACK_FSB && !ram/RAMReady) || (A_FSB[14] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && nDTACK_FSB) || (A_FSB[13] && A_FSB[22] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && !cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && nDTACK_FSB) || (A_FSB[14] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && nDTACK_FSB && !nADoutLE1) || (A_FSB[13] && !A_FSB[22] && A_FSB[21] && A_FSB[20] && A_FSB[19] && A_FSB[18] && A_FSB[17] && A_FSB[16] && !nWE_FSB && cs/nOverlay1 && !fsb/Ready1r && !iobs/IOReady && nDTACK_FSB && !nADoutLE1)); FDCPE FDCPE_nDinLE (nDinLE,nDinLE_D,!C16M,1'b0,1'b0); assign nDinLE_D = (iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2); assign nDinOE = ((A_FSB[23] && nWE_FSB && !nAS_FSB) || (A_FSB[22] && !A_FSB[21] && A_FSB[20] && nWE_FSB && !nAS_FSB)); assign nDoutOE = !((!nAoutOE && iobm/DoutOE)); FDCPE FDCPE_nLDS_IOB (nLDS_IOB_I,nLDS_IOB,!C16M,1'b0,1'b0); assign nLDS_IOB = ((iobs/IOL0 && !iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd2) || (iobs/IOL0 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2) || (!iobs/IORW0 && iobs/IOL0 && iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd1)); assign nLDS_IOB = nLDS_IOB_OE ? nLDS_IOB_I : 1'bZ; assign nLDS_IOB_OE = nAoutOE; assign nOE = !((nWE_FSB && !nAS_FSB)); assign nRAMLWE = !((!nWE_FSB && !nLDS_FSB && !nAS_FSB && ram/RAMEN)); assign nRAMUWE = !((!nWE_FSB && !nUDS_FSB && !nAS_FSB && ram/RAMEN)); assign nRAS = !(((ram/RefRAS) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !nAS_FSB && ram/RAMEN) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !nAS_FSB && ram/RAMEN))); assign nRES_I = 1'b0; assign nRES = nRES_OE ? nRES_I : 1'bZ; assign nRES_OE = !cnt/nRESout; assign nROMCS = !(((!A_FSB[23] && A_FSB[22] && !A_FSB[21] && !A_FSB[20]) || (!A_FSB[23] && !A_FSB[21] && !A_FSB[20] && !cs/nOverlay1))); assign nROMWE = !((!nWE_FSB && !nAS_FSB)); FDCPE FDCPE_nUDS_IOB (nUDS_IOB_I,nUDS_IOB,!C16M,1'b0,1'b0); assign nUDS_IOB = ((iobs/IOU0 && !iobm/IOS_FSM_FFd3 && iobm/IOS_FSM_FFd2) || (iobs/IOU0 && iobm/IOS_FSM_FFd1 && iobm/IOS_FSM_FFd2) || (!iobs/IORW0 && iobs/IOU0 && iobm/IOS_FSM_FFd3 && !iobm/IOS_FSM_FFd1)); assign nUDS_IOB = nUDS_IOB_OE ? nUDS_IOB_I : 1'bZ; assign nUDS_IOB_OE = nAoutOE; FTCPE FTCPE_nVMA_IOB (nVMA_IOB_I,nVMA_IOB_T,C16M,1'b0,1'b0); assign nVMA_IOB_T = ((!nVMA_IOB && !iobm/ES[0] && !iobm/ES[1] && !iobm/ES[2] && !iobm/ES[3] && !iobm/ES[4]) || (nVMA_IOB && iobm/ES[0] && iobm/ES[1] && iobm/ES[2] && !iobm/ES[3] && !iobm/ES[4] && iobm/IOACT && iobm/VPArf && iobm/VPArr)); assign nVMA_IOB = nVMA_IOB_OE ? nVMA_IOB_I : 1'bZ; assign nVMA_IOB_OE = nAoutOE; assign nVPA_FSB = !((fsb/VPA && !nAS_FSB)); FDCPE FDCPE_ram/BACTr (ram/BACTr,ram/BACTr_D,FCLK,1'b0,1'b0); assign ram/BACTr_D = (nAS_FSB && !fsb/ASrf); FDCPE FDCPE_ram/RAMEN (ram/RAMEN,ram/RAMEN_D,FCLK,1'b0,1'b0); assign ram/RAMEN_D = ((!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd1 && ram/RAMEN) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd1 && ram/RAMEN && fsb/ASrf) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd1 && ram/RAMEN) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !ram/RS_FSM_FFd1 && ram/RAMEN && fsb/ASrf) || (ram/RS_FSM_FFd2 && ram/RAMEN) || (ram/RS_FSM_FFd3 && ram/RAMEN) || (!ram/RS_FSM_FFd1 && !ram/RefUrgent && ram/RAMEN && ram/BACTr) || (!ram/RS_FSM_FFd1 && !ram/RefUrgent && ram/RAMEN && !ram/RefReq) || (nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !fsb/ASrf)); FDCPE FDCPE_ram/RAMReady (ram/RAMReady,ram/RAMReady_D,FCLK,1'b0,1'b0); assign ram/RAMReady_D = ((RA_6_OBUF.EXP) || (A_FSB[23] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (A_FSB[22] && !A_FSB[21] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (A_FSB[22] && !A_FSB[21] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (!A_FSB[22] && !cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3) || (A_FSB[23] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !fsb/ASrf)); FDCPE FDCPE_ram/RASEL (ram/RASEL,ram/RASEL_D,FCLK,1'b0,1'b0); assign ram/RASEL_D = ((A_FSB[22] && !A_FSB[21] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (!A_FSB[22] && !cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3 && !ram/RAMEN) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3 && !ram/RAMEN && fsb/ASrf) || (ram/RAMReady.EXP) || (A_FSB[23] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (A_FSB[23] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq) || (A_FSB[22] && !A_FSB[21] && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (!A_FSB[22] && !cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2) || (ram/RS_FSM_FFd2 && ram/RS_FSM_FFd3) || (!nAS_FSB && ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd3) || (ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd3 && fsb/ASrf) || (nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !fsb/ASrf)); FDCPE FDCPE_ram/RS_FSM_FFd1 (ram/RS_FSM_FFd1,ram/RS_FSM_FFd1_D,FCLK,1'b0,1'b0); assign ram/RS_FSM_FFd1_D = ((!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && ram/RefUrgent && !ram/RAMEN && fsb/ASrf) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && ram/RefUrgent && !ram/RAMEN) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && ram/RefUrgent && !ram/RAMEN && fsb/ASrf) || (ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2) || (!ram/RS_FSM_FFd1 && ram/RS_FSM_FFd3) || (!nAS_FSB && ram/RS_FSM_FFd1 && ram/RefUrgent && !ram/RS_FSM_FFd3) || (ram/RS_FSM_FFd1 && ram/RefUrgent && !ram/RS_FSM_FFd3 && fsb/ASrf) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && ram/RefUrgent && !ram/RAMEN)); FDCPE FDCPE_ram/RS_FSM_FFd2 (ram/RS_FSM_FFd2,ram/RS_FSM_FFd2_D,FCLK,1'b0,1'b0); assign ram/RS_FSM_FFd2_D = ((nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !fsb/ASrf) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (!A_FSB[23] && !A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3 && fsb/ASrf) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (!A_FSB[23] && A_FSB[22] && A_FSB[21] && !cs/nOverlay1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3 && fsb/ASrf) || (ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2) || (!nAS_FSB && ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd3) || (ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd3 && fsb/ASrf) || (!ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && ram/BACTr) || (!ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RefReq)); FTCPE FTCPE_ram/RS_FSM_FFd3 (ram/RS_FSM_FFd3,ram/RS_FSM_FFd3_T,FCLK,1'b0,1'b0); assign ram/RS_FSM_FFd3_T = ((ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (ram/RS_FSM_FFd1 && !ram/RefUrgent && !ram/RS_FSM_FFd3) || (A_FSB[23] && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (nAS_FSB && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3 && !fsb/ASrf) || (!ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2 && ram/RS_FSM_FFd3) || (!ram/RS_FSM_FFd2 && !ram/RefUrgent && !ram/RS_FSM_FFd3 && !ram/RAMEN) || (A_FSB[22] && !A_FSB[21] && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (A_FSB[22] && cs/nOverlay1 && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3) || (!A_FSB[22] && !cs/nOverlay1 && !ram/RS_FSM_FFd1 && !ram/RS_FSM_FFd2 && !ram/RS_FSM_FFd3)); FDCPE FDCPE_ram/RefDone (ram/RefDone,ram/RefDone_D,FCLK,1'b0,1'b0); assign ram/RefDone_D = ((ram/RefDone && ram/RefReqSync) || (!ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2 && ram/RefReqSync)); FDCPE FDCPE_ram/RefRAS (ram/RefRAS,ram/RefRAS_D,FCLK,1'b0,1'b0); assign ram/RefRAS_D = (!ram/RS_FSM_FFd1 && ram/RS_FSM_FFd2); FDCPE FDCPE_ram/RefReq (ram/RefReq,ram/RefReq_D,FCLK,1'b0,1'b0); assign ram/RefReq_D = (!ram/RefDone && ram/RefReqSync); FDCPE FDCPE_ram/RefReqSync (ram/RefReqSync,cnt/RefReq,FCLK,1'b0,1'b0); FDCPE FDCPE_ram/RefUrgent (ram/RefUrgent,ram/RefUrgent_D,FCLK,1'b0,1'b0); assign ram/RefUrgent_D = (!ram/RefDone && ram/RegUrgentSync); FDCPE FDCPE_ram/RegUrgentSync (ram/RegUrgentSync,cnt/RefUrgent,FCLK,1'b0,1'b0); Register Legend: FDCPE (Q,D,C,CLR,PRE,CE); FTCPE (Q,D,C,CLR,PRE,CE); LDCP (Q,D,G,CLR,PRE); ****************************** Device Pin Out ***************************** Device : XC95144XL-10-TQ100 -------------------------------------------------- /100 98 96 94 92 90 88 86 84 82 80 78 76 \ | 99 97 95 93 91 89 87 85 83 81 79 77 | | 1 75 | | 2 74 | | 3 73 | | 4 72 | | 5 71 | | 6 70 | | 7 69 | | 8 68 | | 9 67 | | 10 66 | | 11 65 | | 12 64 | | 13 XC95144XL-10-TQ100 63 | | 14 62 | | 15 61 | | 16 60 | | 17 59 | | 18 58 | | 19 57 | | 20 56 | | 21 55 | | 22 54 | | 23 53 | | 24 52 | | 25 51 | | 27 29 31 33 35 37 39 41 43 45 47 49 | \26 28 30 32 34 36 38 40 42 44 46 48 50 / -------------------------------------------------- Pin Signal Pin Signal No. Name No. Name 1 KPR 51 VCC 2 A_FSB<5> 52 RA<7> 3 A_FSB<6> 53 RA<0> 4 A_FSB<7> 54 RA<8> 5 VCC 55 RA<10> 6 A_FSB<8> 56 RA<9> 7 A_FSB<9> 57 VCC 8 A_FSB<10> 58 C25MEN 9 A_FSB<11> 59 C20MEN 10 A_FSB<12> 60 KPR 11 A_FSB<13> 61 KPR 12 A_FSB<14> 62 GND 13 A_FSB<15> 63 RA<11> 14 A_FSB<16> 64 nRAS 15 A_FSB<17> 65 nRAMLWE 16 A_FSB<18> 66 nRAMUWE 17 A_FSB<19> 67 KPR 18 A_FSB<20> 68 KPR 19 A_FSB<21> 69 GND 20 A_FSB<22> 70 nBERR_FSB 21 GND 71 KPR 22 C16M 72 nBR_IOB 23 C8M 73 nBG_IOB 24 A_FSB<23> 74 nVMA_IOB 25 E 75 GND 26 VCC 76 nBERR_IOB 27 FCLK 77 nVPA_IOB 28 nDTACK_FSB 78 nDTACK_IOB 29 nWE_FSB 79 nLDS_IOB 30 nLDS_FSB 80 nUDS_IOB 31 GND 81 nAS_IOB 32 nAS_FSB 82 nADoutLE1 33 nUDS_FSB 83 TDO 34 nROMWE 84 GND 35 nROMCS 85 nADoutLE0 36 nCAS 86 nDinLE 37 nOE 87 nAoutOE 38 VCC 88 VCC 39 KPR 89 nDoutOE 40 RA<4> 90 nDinOE 41 RA<3> 91 nRES 42 RA<5> 92 nIPL2 43 RA<2> 93 nVPA_FSB 44 GND 94 A_FSB<1> 45 TDI 95 A_FSB<2> 46 RA<6> 96 A_FSB<3> 47 TMS 97 A_FSB<4> 48 TCK 98 VCC 49 KPR 99 KPR 50 RA<1> 100 GND Legend : NC = Not Connected, unbonded pin PGND = Unused I/O configured as additional Ground pin TIE = Unused I/O floating -- must tie to VCC, GND or other signal KPR = Unused I/O with weak keeper (leave unconnected) VCC = Dedicated Power Pin GND = Dedicated Ground Pin TDI = Test Data In, JTAG pin TDO = Test Data Out, JTAG pin TCK = Test Clock, JTAG pin TMS = Test Mode Select, JTAG pin PROHIBITED = User reserved pin **************************** Compiler Options **************************** Following is a list of all global compiler options used by the fitter run. Device(s) Specified : xc95144xl-10-TQ100 Optimization Method : SPEED Multi-Level Logic Optimization : ON Ignore Timing Specifications : OFF Default Register Power Up Value : LOW Keep User Location Constraints : ON What-You-See-Is-What-You-Get : OFF Exhaustive Fitting : OFF Keep Unused Inputs : OFF Slew Rate : FAST Power Mode : STD Ground on Unused IOs : OFF Set I/O Pin Termination : KEEPER Global Clock Optimization : ON Global Set/Reset Optimization : ON Global Ouput Enable Optimization : ON Input Limit : 54 Pterm Limit : 50