ex24.rpt
来自「[VHDL经典设计26例]--在xilinx芯片上调试通过--[01--1位全加」· RPT 代码 · 共 961 行 · 第 1/4 页
RPT
961 行
"address<6>".CLKF = /"current_state<3>"
"address<6>".RSTF = rst
"address<6>".PRLD = GND
"address<7>".T = "address<0>" * "address<1>" *
"address<2>.FBK".LFBK * "address<3>.FBK".LFBK * "address<4>.FBK".LFBK *
"address<5>.FBK".LFBK * "address<6>.FBK".LFBK * /mem_f.PIN
"address<7>".CLKF = /"current_state<3>"
"address<7>".RSTF = rst
"address<7>".PRLD = GND
"address<8>".T = "address<0>" * "address<1>" * "address<3>" *
"address<5>" * "address<7>" * "address<2>" * "address<4>" *
"address<6>" * /mem_f.PIN
"address<8>".CLKF = /"current_state<3>"
"address<8>".RSTF = rst
"address<8>".PRLD = GND
"address<9>".T = "address<0>" * "address<1>" * "address<3>" *
"address<5>" * "address<7>" * "address<2>" * "address<4>" *
"address<6>" * "address<8>.FBK".LFBK * /mem_f.PIN
"address<9>".CLKF = /"current_state<3>"
"address<9>".RSTF = rst
"address<9>".PRLD = GND
"current_state<0>" := "current_state<4>.FBK".LFBK * /mem_f.PIN
+ "current_state<0>.FBK".LFBK * mem_f.PIN
"current_state<0>".CLKF = clk ;FCLK/GCK
"current_state<0>".SETF = rst
"current_state<0>".PRLD = GND
start := "current_state<0>" * /mem_f.PIN
+ "current_state<1>.FBK".LFBK * mem_f.PIN
start.CLKF = clk ;FCLK/GCK
start.RSTF = rst
start.PRLD = GND
"current_state<2>".T = /"current_state<2>.FBK".LFBK * start.PIN *
/mem_f.PIN
+ eoc * "current_state<2>.FBK".LFBK * /start.PIN *
/mem_f.PIN
"current_state<2>".CLKF = clk ;FCLK/GCK
"current_state<2>".RSTF = rst
"current_state<2>".PRLD = GND
"current_state<3>" := "current_state<3>.FBK".LFBK * mem_f.PIN
+ eoc * "current_state<2>.FBK".LFBK * /mem_f.PIN
"current_state<3>".CLKF = clk ;FCLK/GCK
"current_state<3>".RSTF = rst
"current_state<3>".PRLD = GND
"current_state<4>" := "current_state<3>.FBK".LFBK * /mem_f.PIN
+ "current_state<4>.FBK".LFBK * mem_f.PIN
"current_state<4>".CLKF = clk ;FCLK/GCK
"current_state<4>".RSTF = rst
"current_state<4>".PRLD = GND
"saddress<0>" := datai
"saddress<0>".CLKF = clki
"saddress<0>".PRLD = GND
"saddress<10>" := "saddress<9>"
"saddress<10>".CLKF = clki
"saddress<10>".PRLD = GND
"saddress<11>" := "saddress<10>.FBK".LFBK
"saddress<11>".CLKF = clki
"saddress<11>".PRLD = GND
"saddress<12>" := "saddress<11>.FBK".LFBK
"saddress<12>".CLKF = clki
"saddress<12>".PRLD = GND
"saddress<13>" := "saddress<12>.FBK".LFBK
"saddress<13>".CLKF = clki
"saddress<13>".PRLD = GND
"saddress<14>" := "saddress<13>.FBK".LFBK
"saddress<14>".CLKF = clki
"saddress<14>".PRLD = GND
"saddress<1>" := "saddress<0>.FBK".LFBK
"saddress<1>".CLKF = clki
"saddress<1>".PRLD = GND
"saddress<2>" := "saddress<1>.FBK".LFBK
"saddress<2>".CLKF = clki
"saddress<2>".PRLD = GND
"saddress<3>" := "saddress<2>"
"saddress<3>".CLKF = clki
"saddress<3>".PRLD = GND
"saddress<4>" := "saddress<3>.FBK".LFBK
"saddress<4>".CLKF = clki
"saddress<4>".PRLD = GND
"saddress<5>" := "saddress<4>.FBK".LFBK
"saddress<5>".CLKF = clki
"saddress<5>".PRLD = GND
"saddress<6>" := "saddress<5>.FBK".LFBK
"saddress<6>".CLKF = clki
"saddress<6>".PRLD = GND
"saddress<7>" := "saddress<6>.FBK".LFBK
"saddress<7>".CLKF = clki
"saddress<7>".PRLD = GND
"saddress<8>" := "saddress<7>.FBK".LFBK
"saddress<8>".CLKF = clki
"saddress<8>".PRLD = GND
"saddress<9>" := "saddress<8>.FBK".LFBK
"saddress<9>".CLKF = clki
"saddress<9>".PRLD = GND
"sbuf<0>" := load * "mem_d<0>".PIN
+ /load * "sbuf<0>.FBK".LFBK
"sbuf<0>".CLKF = clko
"sbuf<0>".PRLD = GND
"sbuf<1>" := load * "mem_d<1>".PIN
+ /load * "sbuf<0>.FBK".LFBK
"sbuf<1>".CLKF = clko
"sbuf<1>".PRLD = GND
"sbuf<2>" := load * "mem_d<2>".PIN
+ /load * "sbuf<1>"
"sbuf<2>".CLKF = clko
"sbuf<2>".PRLD = GND
"sbuf<3>" := load * "mem_d<3>".PIN
+ /load * "sbuf<2>.FBK".LFBK
"sbuf<3>".CLKF = clko
"sbuf<3>".PRLD = GND
"sbuf<4>" := load * "mem_d<4>".PIN
+ /load * "sbuf<3>.FBK".LFBK
"sbuf<4>".CLKF = clko
"sbuf<4>".PRLD = GND
"sbuf<5>" := load * "mem_d<5>".PIN
+ /load * "sbuf<4>.FBK".LFBK
"sbuf<5>".CLKF = clko
"sbuf<5>".PRLD = GND
"sbuf<6>" := load * "mem_d<6>".PIN
+ /load * "sbuf<5>.FBK".LFBK
"sbuf<6>".CLKF = clko
"sbuf<6>".PRLD = GND
**************************** Device Pin Out ****************************
Device : XC95108-7-PC84
m m
e e
m m m m
m d d e e _ _
e l c c a a m m d d
T c T G T T T r m o T l l t t _ _ V < < T
I l I N I I I s _ a I k k a a r w C 7 6 I
E k E D E E E t f d E i o i o d r C > > E
--------------------------------------------------------------
/11 10 9 8 7 6 5 4 3 2 1 84 83 82 81 80 79 78 77 76 75 \
TIE | 12 74 | TIE
TIE | 13 73 | VCC
TIE | 14 72 | mem_d<5>
oe | 15 71 | mem_d<3>
GND | 16 70 | mem_d<4>
TIE | 17 69 | mem_d<1>
eoc | 18 68 | mem_d<2>
start | 19 67 | TIE
TIE | 20 66 | mem_d<0>
clock | 21 XC95108-7-PC84 65 | mem_a<14>
VCC | 22 64 | VCC
TIE | 23 63 | mem_a<12>
TIE | 24 62 | mem_a<13>
TIE | 25 61 | mem_a<11>
TIE | 26 60 | GND
GND | 27 59 | TDO
TDI | 28 58 | mem_a<10>
TMS | 29 57 | mem_a<7>
TCK | 30 56 | mem_a<8>
TIE | 31 55 | mem_a<6>
TIE | 32 54 | TIE
\ 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 /
--------------------------------------------------------------
d T d d d V d d d G d T m m m m G T m m m
i I i i i C i i i N i I e e e e N I e e e
n E n n n C n n n D n E m m m m D E m m m
< < < < < < < < _ _ _ _ _ _ _
1 2 0 3 5 4 6 7 a a a a a a a
> > > > > > > > < < < < < < <
0 1 2 3 4 9 5
> > > > > > >
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
PE = Port Enable pin
PROHIBITED = User reserved pin
**************************** Compiler Options ****************************
Following is a list of all global compiler options used by the fitter run.
Device(s) Specified : XC95108-7-PC84
Use Timing Constraints : ON
Use Design Location Constraints : ON
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 : ON
Global Set/Reset(GSR) Optimization : ON
Global Output Enable(GTS) Optimization : ON
Collapsing pterm limit : 25
Collapsing input limit : 36
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