📄 mcu.rpt
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assign data_I[0] = (dial[0] && !la[0] && !la[1]);
assign data[0] = data_OE[0] ? data_I[0] : 1'bZ;
assign data_OE[0] = (!mcu_rd && !mcu_ale);
assign data_I[1] = (dial[1] && !la[0] && !la[1]);
assign data[1] = data_OE[1] ? data_I[1] : 1'bZ;
assign data_OE[1] = (!mcu_rd && !mcu_ale);
assign data_I[2] = (dial[2] && !la[0] && !la[1]);
assign data[2] = data_OE[2] ? data_I[2] : 1'bZ;
assign data_OE[2] = (!mcu_rd && !mcu_ale);
assign data_I[3] = (dial[3] && !la[0] && !la[1]);
assign data[3] = data_OE[3] ? data_I[3] : 1'bZ;
assign data_OE[3] = (!mcu_rd && !mcu_ale);
assign data_I[4] = (dial[4] && !la[0] && !la[1]);
assign data[4] = data_OE[4] ? data_I[4] : 1'bZ;
assign data_OE[4] = (!mcu_rd && !mcu_ale);
assign data_I[5] = (dial[5] && !la[0] && !la[1]);
assign data[5] = data_OE[5] ? data_I[5] : 1'bZ;
assign data_OE[5] = (!mcu_rd && !mcu_ale);
assign data_I[6] = (dial[6] && !la[0] && !la[1]);
assign data[6] = data_OE[6] ? data_I[6] : 1'bZ;
assign data_OE[6] = (!mcu_rd && !mcu_ale);
assign data_I[7] = (dial[7] && !la[0] && !la[1]);
assign data[7] = data_OE[7] ? data_I[7] : 1'bZ;
assign data_OE[7] = (!mcu_rd && !mcu_ale);
FDCPE FDCPE_la0 (la[0],data[0].PIN,!mcu_ale,1'b0,1'b0);
FDCPE FDCPE_la1 (la[1],data[1].PIN,!mcu_ale,1'b0,1'b0);
FDCPE FDCPE_ledout0 (ledout[0],data[0].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[0]);
assign ledout_CE[0] = (!la[0] && la[1]);
FDCPE FDCPE_ledout1 (ledout[1],data[1].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[1]);
assign ledout_CE[1] = (!la[0] && la[1]);
FDCPE FDCPE_ledout2 (ledout[2],data[2].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[2]);
assign ledout_CE[2] = (!la[0] && la[1]);
FDCPE FDCPE_ledout3 (ledout[3],data[3].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[3]);
assign ledout_CE[3] = (!la[0] && la[1]);
FDCPE FDCPE_ledout4 (ledout[4],data[4].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[4]);
assign ledout_CE[4] = (!la[0] && la[1]);
FDCPE FDCPE_ledout5 (ledout[5],data[5].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[5]);
assign ledout_CE[5] = (!la[0] && la[1]);
FDCPE FDCPE_ledout6 (ledout[6],data[6].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[6]);
assign ledout_CE[6] = (!la[0] && la[1]);
FDCPE FDCPE_ledout7 (ledout[7],data[7].PIN,!mcu_wr,1'b0,1'b0,ledout_CE[7]);
assign ledout_CE[7] = (!la[0] && la[1]);
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-TQ144
Pin Signal Pin Signal
No. Name No. Name
1 VCC 73 VCC
2 KPR 74 KPR
3 KPR 75 KPR
4 KPR 76 KPR
5 KPR 77 KPR
6 KPR 78 KPR
7 KPR 79 KPR
8 VCC 80 KPR
9 KPR 81 KPR
10 KPR 82 KPR
11 KPR 83 KPR
12 KPR 84 VCC
13 KPR 85 KPR
14 KPR 86 KPR
15 KPR 87 KPR
16 KPR 88 KPR
17 KPR 89 GND
18 GND 90 GND
19 KPR 91 KPR
20 KPR 92 KPR
21 KPR 93 KPR
22 KPR 94 KPR
23 KPR 95 KPR
24 KPR 96 KPR
25 KPR 97 KPR
26 KPR 98 KPR
27 KPR 99 GND
28 KPR 100 KPR
29 GND 101 KPR
30 KPR 102 mcu_rd
31 KPR 103 mcu_wr
32 KPR 104 KPR
33 ledout<5> 105 mcu_ale
34 KPR 106 data<0>
35 KPR 107 data<1>
36 GND 108 GND
37 VCC 109 VCC
38 KPR 110 KPR
39 KPR 111 data<2>
40 ledout<4> 112 KPR
41 KPR 113 data<3>
42 VCC 114 GND
43 ledout<3> 115 data<4>
44 KPR 116 data<5>
45 ledout<2> 117 KPR
46 KPR 118 data<6>
47 GND 119 data<7>
48 ledout<7> 120 KPR
49 ledout<1> 121 KPR
50 ledout<6> 122 TDO
51 ledout<0> 123 GND
52 KPR 124 KPR
53 KPR 125 KPR
54 KPR 126 KPR
55 VCC 127 VCC
56 dial<7> 128 KPR
57 dial<6> 129 KPR
58 dial<5> 130 KPR
59 dial<4> 131 KPR
60 KPR 132 KPR
61 dial<3> 133 KPR
62 GND 134 KPR
63 TDI 135 KPR
64 dial<2> 136 KPR
65 TMS 137 KPR
66 dial<1> 138 KPR
67 TCK 139 KPR
68 KPR 140 KPR
69 dial<0> 141 VCC
70 KPR 142 KPR
71 KPR 143 KPR
72 GND 144 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-TQ144
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 : 25
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