📄 ch9_2_2.rpt
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Project Information d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
MAX+plus II Compiler Report File
Version 9.23 3/19/99
Compiled: 06/18/2000 11:14:32
Copyright (C) 1988-1999 Altera Corporation
Any megafunction design, and related net list (encrypted or decrypted),
support information, device programming or simulation file, and any other
associated documentation or information provided by Altera or a partner
under Altera's Megafunction Partnership Program may be used only to
program PLD devices (but not masked PLD devices) from Altera. Any other
use of such megafunction design, net list, support information, device
programming or simulation file, or any other related documentation or
information is prohibited for any other purpose, including, but not
limited to modification, reverse engineering, de-compiling, or use with
any other silicon devices, unless such use is explicitly licensed under
a separate agreement with Altera or a megafunction partner. Title to
the intellectual property, including patents, copyrights, trademarks,
trade secrets, or maskworks, embodied in any such megafunction design,
net list, support information, device programming or simulation file, or
any other related documentation or information provided by Altera or a
megafunction partner, remains with Altera, the megafunction partner, or
their respective licensors. No other licenses, including any licenses
needed under any third party's intellectual property, are provided herein.
***** Project compilation was successful
CH9_2_2
** DEVICE SUMMARY **
Chip/ Input Output Bidir Memory Memory LCs
POF Device Pins Pins Pins Bits % Utilized LCs % Utilized
ch9_2_2 EPF10K10TC144-3 11 15 0 0 0 % 94 16 %
User Pins: 11 15 0
Project Information d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
** PROJECT COMPILATION MESSAGES **
Warning: Node 'Pin48' has assignments but doesn't exist or is a primitive array -- edit the project's ACF to fix the problem
Warning: Node 'Pin7' has assignments but doesn't exist or is a primitive array -- edit the project's ACF to fix the problem
ch9_2_2@48 --------- Pin48
ch9_2_2@7 --------- Pin7
Project Information d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
** STATE MACHINE ASSIGNMENTS **
State: MACHINE
OF BITS (
State~4,
State~3,
State~2,
State~1
)
WITH STATES (
S0 = B"0000",
S1 = B"1100",
S2 = B"1010",
S3 = B"1001"
);
Project Information d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
** FILE HIERARCHY **
|lpm_add_sub:2115|
|lpm_add_sub:2115|addcore:adder|
|lpm_add_sub:2115|altshift:result_ext_latency_ffs|
|lpm_add_sub:2115|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2115|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2166|
|lpm_add_sub:2166|addcore:adder|
|lpm_add_sub:2166|altshift:result_ext_latency_ffs|
|lpm_add_sub:2166|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2166|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2217|
|lpm_add_sub:2217|addcore:adder|
|lpm_add_sub:2217|altshift:result_ext_latency_ffs|
|lpm_add_sub:2217|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2217|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2338|
|lpm_add_sub:2338|addcore:adder|
|lpm_add_sub:2338|altshift:result_ext_latency_ffs|
|lpm_add_sub:2338|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2338|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2339|
|lpm_add_sub:2339|addcore:adder|
|lpm_add_sub:2339|altshift:result_ext_latency_ffs|
|lpm_add_sub:2339|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2339|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2360|
|lpm_add_sub:2360|addcore:adder|
|lpm_add_sub:2360|altshift:result_ext_latency_ffs|
|lpm_add_sub:2360|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2360|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2444|
|lpm_add_sub:2444|addcore:adder|
|lpm_add_sub:2444|altshift:result_ext_latency_ffs|
|lpm_add_sub:2444|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2444|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2445|
|lpm_add_sub:2445|addcore:adder|
|lpm_add_sub:2445|altshift:result_ext_latency_ffs|
|lpm_add_sub:2445|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2445|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2470|
|lpm_add_sub:2470|addcore:adder|
|lpm_add_sub:2470|altshift:result_ext_latency_ffs|
|lpm_add_sub:2470|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2470|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2471|
|lpm_add_sub:2471|addcore:adder|
|lpm_add_sub:2471|altshift:result_ext_latency_ffs|
|lpm_add_sub:2471|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2471|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2496|
|lpm_add_sub:2496|addcore:adder|
|lpm_add_sub:2496|altshift:result_ext_latency_ffs|
|lpm_add_sub:2496|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2496|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2497|
|lpm_add_sub:2497|addcore:adder|
|lpm_add_sub:2497|altshift:result_ext_latency_ffs|
|lpm_add_sub:2497|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2497|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2518|
|lpm_add_sub:2518|addcore:adder|
|lpm_add_sub:2518|altshift:result_ext_latency_ffs|
|lpm_add_sub:2518|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2518|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2632|
|lpm_add_sub:2632|addcore:adder|
|lpm_add_sub:2632|altshift:result_ext_latency_ffs|
|lpm_add_sub:2632|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2632|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2633|
|lpm_add_sub:2633|addcore:adder|
|lpm_add_sub:2633|altshift:result_ext_latency_ffs|
|lpm_add_sub:2633|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2633|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2658|
|lpm_add_sub:2658|addcore:adder|
|lpm_add_sub:2658|altshift:result_ext_latency_ffs|
|lpm_add_sub:2658|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2658|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2659|
|lpm_add_sub:2659|addcore:adder|
|lpm_add_sub:2659|altshift:result_ext_latency_ffs|
|lpm_add_sub:2659|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2659|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2684|
|lpm_add_sub:2684|addcore:adder|
|lpm_add_sub:2684|altshift:result_ext_latency_ffs|
|lpm_add_sub:2684|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2684|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2685|
|lpm_add_sub:2685|addcore:adder|
|lpm_add_sub:2685|altshift:result_ext_latency_ffs|
|lpm_add_sub:2685|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2685|altshift:oflow_ext_latency_ffs|
|lpm_add_sub:2706|
|lpm_add_sub:2706|addcore:adder|
|lpm_add_sub:2706|altshift:result_ext_latency_ffs|
|lpm_add_sub:2706|altshift:carry_ext_latency_ffs|
|lpm_add_sub:2706|altshift:oflow_ext_latency_ffs|
Device-Specific Information: d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
ch9_2_2
***** Logic for device 'ch9_2_2' compiled without errors.
Device: EPF10K10TC144-3
FLEX 10K Configuration Scheme: Passive Serial
Device Options:
User-Supplied Start-Up Clock = OFF
Auto-Restart Configuration on Frame Error = OFF
Release Clears Before Tri-States = OFF
Enable Chip_Wide Reset = OFF
Enable Chip-Wide Output Enable = OFF
Enable INIT_DONE Output = OFF
JTAG User Code = 7f
MultiVolt I/O = OFF
R R R R R R R R R R R R R R R R R R R R R R R R R R R
E E E E E E E E E E E E E E E E E E E E E E E E E E E
S S S S S S S S S S S S S S G V S S S S S S S S S S S S S
E E E E E G E E E E V E E E E G E N n C E E E E E E E V E E E E E E
R R R R R N R R R R C R R R R N R D I D D C R R R R R R R C R R R R R R
V V V V V D V V V V C V V V V D V I N i i I V V V V V V V C V V V V V V
E E E E E I E E E E I E E E E I E N T n n N E E E E E E E I E E E E E E
D D D D D O D D D D O D D D D O D T R 5 7 T D D D D D D D O D D D D D D
--------------------------------------------------------------------------_
/ 144 142 140 138 136 134 132 130 128 126 124 122 120 118 116 114 112 110 |_
/ 143 141 139 137 135 133 131 129 127 125 123 121 119 117 115 113 111 109 |
#TCK | 1 108 | ^DATA0
^CONF_DONE | 2 107 | ^DCLK
^nCEO | 3 106 | ^nCE
#TDO | 4 105 | #TDI
VCCIO | 5 104 | GNDIO
VCCINT | 6 103 | GNDINT
Din4 | 7 102 | RESERVED
nCS | 8 101 | RESERVED
Dout0 | 9 100 | RESERVED
nWR | 10 99 | RESERVED
nRD | 11 98 | RESERVED
Dout11 | 12 97 | RESERVED
RESERVED | 13 96 | RESERVED
RESERVED | 14 95 | RESERVED
GNDIO | 15 94 | VCCIO
GNDINT | 16 93 | VCCINT
RESERVED | 17 92 | RESERVED
RESERVED | 18 91 | RESERVED
Dout4 | 19 EPF10K10TC144-3 90 | RESERVED
Dout5 | 20 89 | Dout8
Dout6 | 21 88 | Dout9
Dout7 | 22 87 | Dout10
RESERVED | 23 86 | RESERVED
VCCIO | 24 85 | GNDIO
VCCINT | 25 84 | GNDINT
Din3 | 26 83 | RESERVED
Din2 | 27 82 | RESERVED
Din1 | 28 81 | RESERVED
Din0 | 29 80 | Dout1
RESERVED | 30 79 | Dout3
RESERVED | 31 78 | Dout2
RESERVED | 32 77 | ^MSEL0
RESERVED | 33 76 | ^MSEL1
#TMS | 34 75 | VCCINT
^nSTATUS | 35 74 | ^nCONFIG
RESERVED | 36 73 | RESERVED
| 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 _|
\ 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 |
\---------------------------------------------------------------------------
R R R G R R R R V R R R R G R V V D C R G G R R V R R R R G R R R R V R
E E E N E E E E C E E E E N E C C i P S N N E E C E E E E N E E E E C E
S S S D S S S S C S S S S D S C C n T D D S S C S S S S D S S S S C S
E E E I E E E E I E E E E I E I I 6 I I E E I E E E E I E E E E I E
R R R O R R R R O R R R R O R N N N N R R O R R R R O R R R R O R
V V V V V V V V V V V V T T T T V V V V V V V V V V V
E E E E E E E E E E E E E E E E E E E E E E E
D D D D D D D D D D D D D D D D D D D D D D D
N.C. = No Connect, This pin has no internal connection to the device.
VCCINT = Dedicated power pin, which MUST be connected to VCC (5.0 volts).
VCCIO = Dedicated power pin, which MUST be connected to VCC (5.0 volts).
GNDINT = Dedicated ground pin or unused dedicated input, which MUST be connected to GND.
GNDIO = Dedicated ground pin, which MUST be connected to GND.
RESERVED = Unused I/O pin, which MUST be left unconnected.
^ = Dedicated configuration pin.
+ = Reserved configuration pin, which is tri-stated during user mode.
* = Reserved configuration pin, which drives out in user mode.
PDn = Power Down pin.
@ = Special-purpose pin.
# = JTAG Boundary-Scan Testing/In-System Programming or Configuration Pin. The JTAG inputs TMS and TDI should be tied to VCC and TCK should be tied to GND when not in use.
& = JTAG pin used for I/O. When used as user I/O, JTAG pins must be kept stable before and during configuration. JTAG pin stability prevents accidental loading of JTAG instructions.
Device-Specific Information: d:\lu\vhdl-digitallogic\disk\ch9\ch9_2_2.rpt
ch9_2_2
** RESOURCE USAGE **
Logic Column Row
Array Interconnect Interconnect Clears/ External
Block Logic Cells Driven Driven Clocks Presets Interconnect
A2 3/ 8( 37%) 3/ 8( 37%) 3/ 8( 37%) 1/2 0/2 4/22( 18%)
A4 8/ 8(100%) 3/ 8( 37%) 0/ 8( 0%) 0/2 0/2 12/22( 54%)
A6 1/ 8( 12%) 1/ 8( 12%) 1/ 8( 12%) 0/2 0/2 2/22( 9%)
A7 1/ 8( 12%) 1/ 8( 12%) 1/ 8( 12%) 1/2 0/2 2/22( 9%)
A8 1/ 8( 12%) 1/ 8( 12%) 1/ 8( 12%) 0/2 0/2 3/22( 13%)
A9 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
A10 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
A11 8/ 8(100%) 0/ 8( 0%) 3/ 8( 37%) 0/2 0/2 6/22( 27%)
A12 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
A13 8/ 8(100%) 1/ 8( 12%) 4/ 8( 50%) 1/2 1/2 1/22( 4%)
B3 5/ 8( 62%) 0/ 8( 0%) 3/ 8( 37%) 0/2 0/2 6/22( 27%)
B5 7/ 8( 87%) 1/ 8( 12%) 2/ 8( 25%) 0/2 0/2 6/22( 27%)
B8 3/ 8( 37%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
B9 1/ 8( 12%) 1/ 8( 12%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
B11 1/ 8( 12%) 1/ 8( 12%) 0/ 8( 0%) 0/2 0/2 4/22( 18%)
B12 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
B14 4/ 8( 50%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 6/22( 27%)
B15 5/ 8( 62%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 9/22( 40%)
B16 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
B17 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 4/22( 18%)
B18 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 2/22( 9%)
B19 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 2/22( 9%)
B20 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 2/22( 9%)
B21 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 3/22( 13%)
B22 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 2/22( 9%)
C1 7/ 8( 87%) 1/ 8( 12%) 4/ 8( 50%) 0/2 0/2 8/22( 36%)
C5 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 3/22( 13%)
C6 3/ 8( 37%) 0/ 8( 0%) 3/ 8( 37%) 1/2 0/2 4/22( 18%)
C7 7/ 8( 87%) 0/ 8( 0%) 2/ 8( 25%) 0/2 0/2 11/22( 50%)
C8 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 0/2 0/2 3/22( 13%)
C9 1/ 8( 12%) 0/ 8( 0%) 1/ 8( 12%) 1/2 0/2 2/22( 9%)
C10 6/ 8( 75%) 1/ 8( 12%) 1/ 8( 12%) 0/2 0/2 6/22( 27%)
C12 1/ 8( 12%) 1/ 8( 12%) 0/ 8( 0%) 0/2 0/2 4/22( 18%)
Embedded Column Row
Array Embedded Interconnect Interconnect Read/ External
Block Cells Driven Driven Clocks Write Interconnect
Total dedicated input pins used: 6/6 (100%)
Total I/O pins used: 20/96 ( 20%)
Total logic cells used: 94/576 ( 16%)
Total embedded cells used: 0/24 ( 0%)
Total EABs used: 0/3 ( 0%)
Average fan-in: 3.28/4 ( 82%)
Total fan-in: 309/2304 ( 13%)
Total input pins required: 11
Total input I/O cell registers required: 0
Total output pins required: 15
Total output I/O cell registers required: 0
Total buried I/O cell registers required: 0
Total bidirectional pins required: 0
Total reserved pins required 0
Total logic cells required: 94
Total flipflops required: 16
Total packed registers required: 0
Total logic cells in carry chains: 0
Total number of carry chains: 0
Total logic cells in cascade chains: 0
Total number of cascade chains: 0
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