XACT: version D.19 Xilinx Inc.
Fitter Report
Design Name: ud_counter1 Date: 7- 9-2000, 6:18PM
Device Used: XC9536-15-PC44
Fitting Status: Successful
**************************** Resource Summary ****************************
Macrocells Product Terms Registers Pins Function Block
Used Used Used Used Inputs Used
4 /36 ( 11%) 23 /180 ( 12%) 4 /36 ( 11%) 13 /34 ( 38%) 13 /72 ( 18%)
PIN RESOURCES:
Signal Type Required Mapped | Pin Type Used Remaining
------------------------------------|---------------------------------------
Input : 9 9 | I/O : 13 15
Output : 0 0 | GCK/IO : 0 3
Bidirectional : 4 4 | GTS/IO : 0 2
GCK : 0 0 | GSR/IO : 0 1
GTS : 0 0 |
GSR : 0 0 |
---- ----
Total 13 13
MACROCELL RESOURCES:
Total Macrocells Available 36
Registered Macrocells 4
Non-registered Macrocell driving I/O 0
GLOBAL RESOURCES:
Global clock net(s) unused.
Global output enable net(s) unused.
Global set/reset net(s) unused.
POWER DATA:
There are 4 macrocells in high performance mode (MCHP).
There are 0 macrocells in low power mode (MCLP).
There are a total of 4 macrocells used (MC).
End of Resource Summary
***************Resources Used by Successfully Mapped Logic******************
** LOGIC **
Signal Total Signals Loc Pwr Slew Pin Pin Pin
Name Pt Used Mode Rate # Type Use
q<0> 5 6 FB1_9 STD FAST 11 I/O I/O
q<1> 6 8 FB1_10 STD FAST 12 I/O I/O
q<2> 6 9 FB1_11 STD FAST 13 I/O I/O
q<3> 6 10 FB1_12 STD FAST 14 I/O I/O
** INPUTS **
Signal Loc Pin Pin Pin
Name # Type Use
ce FB1_4 4 I/O I
clear FB1_1 2 I/O I
clk FB2_1 1 I/O I
din<0> FB2_10 35 I/O I
din<1> FB2_9 36 I/O I
din<2> FB2_8 37 I/O I
din<3> FB2_7 38 I/O I
load FB1_2 3 I/O I
up FB1_6 8 I/O I
End of Resources Used by Successfully Mapped Logic
*********************Function Block Resource Summary***********************
Function # of FB Inputs Signals Total O/IO IO
Block Macrocells Used Used Pt Used Req Avail
FB1 4 13 13 23 0/4 17
FB2 0 0 0 0 0/0 17
---- ----- ----- -----
4 23 0/4 34
*********************************** FB1 ***********************************
Number of function block inputs used/remaining: 13/23
Number of signals used by logic mapping into function block: 13
Signal Total Imp Exp Unused Loc Pwr Pin Pin Pin
Name Pt Pt Pt Pt Mode # Type Use
(unused) 0 0 0 5 FB1_1 2 I/O I
(unused) 0 0 0 5 FB1_2 3 I/O I
(unused) 0 0 0 5 FB1_3 5 GCK/I/O
(unused) 0 0 0 5 FB1_4 4 I/O I
(unused) 0 0 0 5 FB1_5 6 GCK/I/O
(unused) 0 0 0 5 FB1_6 8 I/O I
(unused) 0 0 0 5 FB1_7 7 GCK/I/O
(unused) 0 0 \/1 4 FB1_8 9 I/O (b)
q<0> 5 1<- \/1 0 FB1_9 STD 11 I/O I/O
q<1> 6 1<- 0 0 FB1_10 STD 12 I/O I/O
q<2> 6 1<- 0 0 FB1_11 STD 13 I/O I/O
q<3> 6 2<- /\1 0 FB1_12 STD 14 I/O I/O
(unused) 0 0 /\2 3 FB1_13 18 I/O (b)
(unused) 0 0 0 5 FB1_14 19 I/O
(unused) 0 0 0 5 FB1_15 20 I/O
(unused) 0 0 0 5 FB1_16 22 I/O
(unused) 0 0 0 5 FB1_17 24 I/O
(unused) 0 0 0 5 FB1_18 (b)
Signals Used by Logic in Function Block
1: ce 6: "din<2>" 10: "q<1>"
2: clear 7: "din<3>" 11: "q<2>"
3: clk 8: load 12: "q<3>"
4: "din<0>" 9: "q<0>" 13: up
5: "din<1>"
Signal 1 2 3 4 Signals FB
Name 0----+----0----+----0----+----0----+----0 Used Inputs
q<0> XXXX...XX............................... 6 6
q<1> XXX.X..XXX..X........................... 8 8
q<2> XXX..X.XXXX.X........................... 9 9
q<3> XXX...XXXXXXX........................... 10 10
0----+----1----+----2----+----3----+----4
0 0 0 0
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
Pwr Mode - Macrocell power mode
Pin Type/Use - I - Input GCK/FCLK - Global clock
O - Output GTS/FOE - Global 3state/output-enable
(b) - Buried macrocell
X(@) - Signal used as input (wire-AND input) to the macrocell logic.
The number of Signals Used may exceed the number of FB Inputs Used due
to wire-ANDing in the switch matrix.
*********************************** FB2 ***********************************
Number of function block inputs used/remaining: 0/36
Number of signals used by logic mapping into function block: 0
Signal Total Imp Exp Unused Loc Pwr Pin Pin Pin
Name Pt Pt Pt Pt Mode # Type Use
(unused) 0 0 0 5 FB2_1 1 I/O I
(unused) 0 0 0 5 FB2_2 44 I/O
(unused) 0 0 0 5 FB2_3 42 GTS/I/O
(unused) 0 0 0 5 FB2_4 43 I/O
(unused) 0 0 0 5 FB2_5 40 GTS/I/O
(unused) 0 0 0 5 FB2_6 39 GSR/I/O
(unused) 0 0 0 5 FB2_7 38 I/O I
(unused) 0 0 0 5 FB2_8 37 I/O I
(unused) 0 0 0 5 FB2_9 36 I/O I
(unused) 0 0 0 5 FB2_10 35 I/O I
(unused) 0 0 0 5 FB2_11 34 I/O
(unused) 0 0 0 5 FB2_12 33 I/O
(unused) 0 0 0 5 FB2_13 29 I/O
(unused) 0 0 0 5 FB2_14 28 I/O
(unused) 0 0 0 5 FB2_15 27 I/O
(unused) 0 0 0 5 FB2_16 26 I/O
(unused) 0 0 0 5 FB2_17 25 I/O
(unused) 0 0 0 5 FB2_18 (b)
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
Pwr Mode - Macrocell power mode
Pin Type/Use - I - Input GCK/FCLK - Global clock
O - Output GTS/FOE - Global 3state/output-enable
(b) - Buried macrocell
X(@) - Signal used as input (wire-AND input) to the macrocell logic.
The number of Signals Used may exceed the number of FB Inputs Used due
to wire-ANDing in the switch matrix.
;;-----------------------------------------------------------------;;
; Implemented Equations.
"q<0>" := load * "din<0>"
+ /load * /ce * "q<0>".PIN
;Imported pterms FB1_8
+ /load * ce * /"q<0>".PIN
"q<0>".CLKF = clk
"q<0>".RSTF = clear
"q<0>".PRLD = GND
"q<1>".T = load * "din<1>" * /"q<1>".PIN
+ /load * ce * up * "q<0>".PIN
+ /load * ce * /up * /"q<0>".PIN
;Imported pterms FB1_9
+ load * /"din<1>" * "q<1>".PIN
"q<1>".CLKF = clk
"q<1>".RSTF = clear
"q<1>".PRLD = GND
"q<2>".T = load * "din<2>" * /"q<2>".PIN
+ /load * ce * up * "q<0>".PIN * "q<1>".PIN
+ /load * ce * /up * /"q<0>".PIN * /"q<1>".PIN
;Imported pterms FB1_12
+ load * /"din<2>" * "q<2>".PIN
"q<2>".CLKF = clk
"q<2>".RSTF = clear
"q<2>".PRLD = GND
"q<3>".T = /load * ce * up * "q<0>".PIN * "q<1>".PIN *
"q<2>".PIN
+ /load * ce * /up * /"q<0>".PIN * /"q<1>".PIN *
/"q<2>".PIN
;Imported pterms FB1_13
+ load * "din<3>" * /"q<3>".PIN
+ load * /"din<3>" * "q<3>".PIN
"q<3>".CLKF = clk
"q<3>".RSTF = clear
"q<3>".PRLD = GND
**************************** Device Pin Out ****************************
Device : XC9536-15-PC44
c
l l
T T o e c T T T V T
I I c a a l I I I C I
E E e d r k E E E C E
--------------------------------
/6 5 4 3 2 1 44 43 42 41 40 \
TIE | 7 39 | TIE
up | 8 38 | din<3>
TIE | 9 37 | din<2>
GND | 10 36 | din<1>
q<0> | 11 XC9536-15-PC44 35 | din<0>
q<1> | 12 34 | TIE
q<2> | 13 33 | TIE
q<3> | 14 32 | VCC
TDI | 15 31 | GND
TMS | 16 30 | TDO
TCK | 17 29 | TIE
\ 18 19 20 21 22 23 24 25 26 27 28 /
--------------------------------
T T T V T G T T T T T
I I I C I N I I I I I
E E E C E D E E E E E
Legend : NC = Not Connected, unbonded pin
TIE = Tie pin to GND or board trace driven to valid logic level
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 : XC9536-15-PC44
Use Timing Constraints : ON
Ignore Assignments In Design File : OFF
Create Programmable Ground Pins : OFF
Use Advanced Fitting : ON
Use Local Feedback : ON
Use Pin Feedback : ON
Default Power Setting : STD
Default Output Slew Rate : FAST
Guide File Used : NONE
Multi Level Logic Optimization : ON
Timing Optimization : ON
Power/Slew Optimization : OFF
High Fitting Effort : ON
Automatic Wire-ANDing : ON
Xor Synthesis : ON
D/T Synthesis : ON
Use Boolean Minimization : ON
Global Clock(GCK) Optimization : OFF
Global Set/Reset(GSR) Optimization : OFF
Global Output Enable(GTS) Optimization : OFF
Collapsing pterm limit : 25
Collapsing input limit : 36 |