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sys1x1026.syr
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sys1x1026.syr
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Release 10.1.03 - xst K.39 (nt)
Copyright (c) 1995-2008 Xilinx, Inc. All rights reserved.
--> Parameter TMPDIR set to C:/Documents and Settings/s0218815/Desktop/g8_coproc1/xst/projnav.tmp
Total REAL time to Xst completion: 3.00 secs
Total CPU time to Xst completion: 2.33 secs
--> Parameter xsthdpdir set to C:/Documents and Settings/s0218815/Desktop/g8_coproc1/xst
Total REAL time to Xst completion: 3.00 secs
Total CPU time to Xst completion: 2.33 secs
--> Reading design: sys.prj
TABLE OF CONTENTS
1) Synthesis Options Summary
2) HDL Compilation
3) Design Hierarchy Analysis
4) HDL Analysis
5) HDL Synthesis
5.1) HDL Synthesis Report
6) Advanced HDL Synthesis
6.1) Advanced HDL Synthesis Report
7) Low Level Synthesis
8) Partition Report
9) Final Report
9.1) Device utilization summary
9.2) Partition Resource Summary
9.3) TIMING REPORT
=========================================================================
* Synthesis Options Summary *
=========================================================================
---- Source Parameters
Input File Name : "sys.prj"
Input Format : mixed
Ignore Synthesis Constraint File : NO
---- Target Parameters
Output File Name : "sys"
Output Format : NGC
Target Device : xc2vp30-7-ff896
---- Source Options
Top Module Name : sys
Automatic FSM Extraction : YES
FSM Encoding Algorithm : Auto
Safe Implementation : No
CASE Implementation Style : Parallel
FSM Style : bram
RAM Extraction : Yes
RAM Style : Auto
ROM Extraction : Yes
Mux Style : Auto
Decoder Extraction : YES
Priority Encoder Extraction : NO
Shift Register Extraction : YES
Logical Shifter Extraction : YES
XOR Collapsing : YES
ROM Style : Auto
Mux Extraction : YES
Resource Sharing : YES
Asynchronous To Synchronous : YES
Multiplier Style : auto
Automatic Register Balancing : No
---- Target Options
Add IO Buffers : YES
Global Maximum Fanout : 500
Add Generic Clock Buffer(BUFG) : 16
Register Duplication : YES
Slice Packing : YES
Optimize Instantiated Primitives : NO
Convert Tristates To Logic : Yes
Use Clock Enable : Yes
Use Synchronous Set : Yes
Use Synchronous Reset : Yes
Pack IO Registers into IOBs : auto
Equivalent register Removal : YES
---- General Options
Optimization Goal : Speed
Optimization Effort : 2
Library Search Order : sys.lso
Keep Hierarchy : NO
Netlist Hierarchy : as_optimized
RTL Output : Yes
Global Optimization : AllClockNets
Read Cores : YES
Write Timing Constraints : NO
Cross Clock Analysis : NO
Hierarchy Separator : /
Bus Delimiter : <>
Case Specifier : maintain
Slice Utilization Ratio : 100
BRAM Utilization Ratio : 100
Verilog 2001 : YES
Auto BRAM Packing : YES
Slice Utilization Ratio Delta : 5
=========================================================================
=========================================================================
* HDL Compilation *
=========================================================================
Compiling vhdl file "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/std_logic_arithext.vhd" in Library work.
Architecture std_logic_arithext of Entity std_logic_arithext is up to date.
Compiling vhdl file "C:/Documents and Settings/s0218815/Desktop/g8_project/vhdl/add_sub.vhd" in Library work.
Architecture rtl of Entity add_sub is up to date.
Compiling vhdl file "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/shifter.vhd" in Library work.
Architecture rtl of Entity shifter is up to date.
Compiling vhdl file "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd" in Library work.
Architecture rtl of Entity sys is up to date.
=========================================================================
* Design Hierarchy Analysis *
=========================================================================
Analyzing hierarchy for entity <sys> in library <work> (architecture <rtl>).
Analyzing hierarchy for entity <add_sub> in library <work> (architecture <rtl>).
Analyzing hierarchy for entity <shifter> in library <work> (architecture <rtl>).
=========================================================================
* HDL Analysis *
=========================================================================
Analyzing Entity <sys> in library <work> (Architecture <rtl>).
WARNING:Xst:2211 - "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd" line 268: Instantiating black box module <my8051_coproc>.
WARNING:Xst:2211 - "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd" line 272: Instantiating black box module <my8051_coproc_control>.
WARNING:Xst:2211 - "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd" line 277: Instantiating black box module <my8051_coproc_xram>.
WARNING:Xst:819 - "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd" line 1258: One or more signals are missing in the process sensitivity list. To enable synthesis of FPGA/CPLD hardware, XST will assume that all necessary signals are present in the sensitivity list. Please note that the result of the synthesis may differ from the initial design specification. The missing signals are:
<sig_47>, <sig_53>, <sig_56>
Entity <sys> analyzed. Unit <sys> generated.
Analyzing Entity <add_sub> in library <work> (Architecture <rtl>).
Entity <add_sub> analyzed. Unit <add_sub> generated.
Analyzing Entity <shifter> in library <work> (Architecture <rtl>).
Entity <shifter> analyzed. Unit <shifter> generated.
=========================================================================
* HDL Synthesis *
=========================================================================
WARNING:Xst:2708 - You have requested that asynchronous control signals of sequential elements be treated as if they were synchronous. Please review the details of this switch in chapter Design Constraints of the XST User Guide. This feature allows you to better explore the possibilities offered by the Xilinx solution without having to rewrite the descriptions of sequential elements. However, be well aware that the synthesis result, while providing you with a good way to assess final device usage and design performance, is not functionally equivalent to your HDL description. As a result, you will not be able to validate your design by comparison of pre-synthesis and post-synthesis simulation results. Please also note that in general we strongly recommend synchronous flip-flop initialization.
Performing bidirectional port resolution...
Synthesizing Unit <add_sub>.
Related source file is "C:/Documents and Settings/s0218815/Desktop/g8_project/vhdl/add_sub.vhd".
Found 1026-bit adder carry in for signal <output>.
Summary:
inferred 1 Adder/Subtractor(s).
Unit <add_sub> synthesized.
Synthesizing Unit <shifter>.
Related source file is "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/shifter.vhd".
WARNING:Xst:646 - Signal <sig_2<1026>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
Unit <shifter> synthesized.
Synthesizing Unit <sys>.
Related source file is "C:/Documents and Settings/s0218815/Desktop/g8_coproc1/sys.vhd".
WARNING:Xst:646 - Signal <t_out> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_38<1031:1024>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_37<1033:1026>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_36<1031:1024>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_32<1031:1024>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_28<1031:1024>> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_23> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <sig_21> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <p_in> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
WARNING:Xst:646 - Signal <d> is assigned but never used. This unconnected signal will be trimmed during the optimization process.
Found finite state machine <FSM_0> for signal <STATE>.
-----------------------------------------------------------------------
| States | 39 |
| Transitions | 78 |
| Inputs | 39 |
| Outputs | 38 |
| Clock | CLK (rising_edge) |
| Reset | RST (positive) |
| Reset type | synchronous |
| Reset State | s_init |
| Power Up State | s_init |
| Encoding | automatic |
| Implementation | BRAM |
-----------------------------------------------------------------------
Using one-hot encoding for signal <cmd>.
INFO:Xst:2117 - HDL ADVISOR - Mux Selector <cmd> of Case statement line 427 was re-encoded using one-hot encoding. The case statement will be optimized (default statement optimization), but this optimization may lead to design initialization problems. To ensure the design works safely, you can:
- add an 'INIT' attribute on signal <cmd> (optimization is then done without any risk)
- use the attribute 'signal_encoding user' to avoid onehot optimization
- use the attribute 'safe_implementation yes' to force XST to perform a safe (but less efficient) optimization
INFO:Xst:2117 - HDL ADVISOR - Mux Selector <cmd> of Case statement line 427 was re-encoded using one-hot encoding. The case statement will be optimized (default statement optimization), but this optimization may lead to design initialization problems. To ensure the design works safely, you can:
- add an 'INIT' attribute on signal <cmd> (optimization is then done without any risk)
- use the attribute 'signal_encoding user' to avoid onehot optimization
- use the attribute 'safe_implementation yes' to force XST to perform a safe (but less efficient) optimization
Found 11-bit register for signal <counter>.
Found 10-bit register for signal <mem_adr>.
Found 16-bit register for signal <power>.
Found 1024-bit register for signal <Q>.
Found 1026-bit register for signal <R>.
Found 8-bit register for signal <rcmd>.
Found 8-bit register for signal <rcnt>.
Found 1024-bit register for signal <reg_p>.
Found 1024-bit register for signal <reg_u>.
Found 1024-bit register for signal <reg_v>.
Found 1026-bit register for signal <S>.
Found 1026-bit 4-to-1 multiplexer for signal <sig_0>.
Found 1024-bit comparator equal for signal <sig_130$cmp_eq0000> created at line 1461.
Found 10-bit adder for signal <sig_24$addsub0000>.
Found 10-bit adder for signal <sig_41$addsub0000>.
Found 11-bit subtractor for signal <sig_5$addsub0000> created at line 679.
Found 1-bit register for signal <sign>.
Found 10-bit register for signal <upc>.
INFO:Xst:738 - HDL ADVISOR - 1024 flip-flops were inferred for signal <Q>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
INFO:Xst:738 - HDL ADVISOR - 1026 flip-flops were inferred for signal <R>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
INFO:Xst:738 - HDL ADVISOR - 1026 flip-flops were inferred for signal <S>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
INFO:Xst:738 - HDL ADVISOR - 1024 flip-flops were inferred for signal <reg_p>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
INFO:Xst:738 - HDL ADVISOR - 1024 flip-flops were inferred for signal <reg_u>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
INFO:Xst:738 - HDL ADVISOR - 1024 flip-flops were inferred for signal <reg_v>. You may be trying to describe a RAM in a way that is incompatible with block and distributed RAM resources available on Xilinx devices, or with a specific template that is not supported. Please review the Xilinx resources documentation and the XST user manual for coding guidelines. Taking advantage of RAM resources will lead to improved device usage and reduced synthesis time.
Summary:
inferred 1 Finite State Machine(s).
inferred 6212 D-type flip-flop(s).
inferred 3 Adder/Subtractor(s).
inferred 1 Comparator(s).
inferred 1026 Multiplexer(s).
Unit <sys> synthesized.
INFO:Xst:1767 - HDL ADVISOR - Resource sharing has identified that some arithmetic operations in this design can share the same physical resources for reduced device utilization. For improved clock frequency you may try to disable resource sharing.
=========================================================================
HDL Synthesis Report
Macro Statistics
# Adders/Subtractors : 4
10-bit adder : 2
1026-bit adder carry in : 1
11-bit subtractor : 1
# Registers : 13
1-bit register : 1
10-bit register : 2
1024-bit register : 4
1026-bit register : 2
11-bit register : 1
16-bit register : 1
8-bit register : 2
# Comparators : 1
1024-bit comparator equal : 1
# Multiplexers : 1
1026-bit 4-to-1 multiplexer : 1
=========================================================================
=========================================================================
* Advanced HDL Synthesis *
=========================================================================
Loading device for application Rf_Device from file '2vp30.nph' in environment C:\Xilinx\10.1\ISE.
WARNING:Xst:1808 - Unable to fit FSM <STATE> in BRAM (there are not enough BRAM in this device).
Analyzing FSM <FSM_0> for best encoding.
Optimizing FSM <STATE/FSM> on signal <STATE[1:39]> with one-hot encoding.
----------------------------------------------------------------
State | Encoding
----------------------------------------------------------------
s_init | 000000000000000000000000000000000000001
s_fetch_1 | 000000000000000000000000000000000000010
s_fetch_2 | 000000000000000000000000000000000000100
s_fetchdecode | 000000000000000000000000000000000001000
s_init_loadp | 000000000000000000000000000000000100000
s_loadu_1 | 000000000000000000000000000000010000000
s_loadu_2 | 000000000000000000000000000000100000000
s_loadu_3 | 000000000000000000000000000001000000000
s_loadv_1 | 000000000000000000000000000010000000000
s_loadv_2 | 000000000000000000000000000100000000000
s_loadv_3 | 000000000000000000000000001000000000000
s_monpro_0 | 000000000000000000000000000000000010000
s_monpro_1 | 000000000000000000010000000000000000000
s_monpro_2 | 000000000000000001000000000000000000000
s_monpro_3 | 000000000000000000100000000000000000000
s_monpro_4 | 000000000000000010000000000000000000000
s_monpro_congruentq | 000000000000000100000000000000000000000
s_inv_0 | 000000000000000000000000000000001000000
s_inv_cmpvgteu | 000000000000010000000000000000000000000
s_inv_1 | 000000000000100000000000000000000000000
s_inv_21 | 000000000010000000000000000000000000000
s_inv_22 | 000000000100000000000000000000000000000
s_inv_31 | 000000010000000000000000000000000000000
s_inv_32 | 000001000000000000000000000000000000000
s_inv_41 | 000000001000000000000000000000000000000
s_inv_42 | 000010000000000000000000000000000000000
s_inv_5 | 000000100000000000000000000000000000000
s_inv_6 | 000000000001000000000000000000000000000
s_inv_gtep | 000100000000000000000000000000000000000
s_inv_7 | 001000000000000000000000000000000000000
s_inv_8 | 010000000000000000000000000000000000000
s_inv_9 | 100000000000000000000000000000000000000
s_finished | 000000000000001000000000000000000000000
s_write_res | 000000000000000000000000010000000000000
s_write_res1 | 000000000000000000000000100000000000000
s_write_res2 | 000000000000000000000001000000000000000
s_write_res3 | 000000000000000000000010000000000000000
s_write_res4 | 000000000000000000000100000000000000000
s_write_res5 | 000000000000000000001000000000000000000
----------------------------------------------------------------
=========================================================================
Advanced HDL Synthesis Report
Macro Statistics
# Adders/Subtractors : 4
10-bit adder : 2
1026-bit adder carry in : 1
11-bit subtractor : 1
# Registers : 6251
Flip-Flops : 6251
# Comparators : 1
1024-bit comparator equal : 1
# Multiplexers : 1
1026-bit 4-to-1 multiplexer : 1
=========================================================================
=========================================================================
* Low Level Synthesis *
=========================================================================
Optimizing unit <sys> ...
Optimizing unit <add_sub> ...
Mapping all equations...
Building and optimizing final netlist ...
Found area constraint ratio of 100 (+ 5) on block sys, actual ratio is 128.
Optimizing block <sys> to meet ratio 100 (+ 5) of 13696 slices :
Area constraint is met for block <sys>, final ratio is 105.
FlipFlop STATE_FSM_FFd11 has been replicated 3 time(s)
FlipFlop STATE_FSM_FFd14 has been replicated 1 time(s)
FlipFlop STATE_FSM_FFd15 has been replicated 2 time(s)
FlipFlop STATE_FSM_FFd16 has been replicated 2 time(s)
FlipFlop STATE_FSM_FFd18 has been replicated 2 time(s)
FlipFlop STATE_FSM_FFd23 has been replicated 2 time(s)
FlipFlop STATE_FSM_FFd3 has been replicated 4 time(s)
FlipFlop STATE_FSM_FFd6 has been replicated 3 time(s)
FlipFlop STATE_FSM_FFd8 has been replicated 2 time(s)
FlipFlop STATE_FSM_FFd9 has been replicated 2 time(s)
Final Macro Processing ...
=========================================================================
Final Register Report
Macro Statistics
# Registers : 6274
Flip-Flops : 6274
=========================================================================
=========================================================================
* Partition Report *
=========================================================================
Partition Implementation Status
-------------------------------
No Partitions were found in this design.
-------------------------------
=========================================================================
* Final Report *
=========================================================================
Final Results
RTL Top Level Output File Name : sys.ngr
Top Level Output File Name : sys
Output Format : NGC
Optimization Goal : Speed
Keep Hierarchy : NO
Design Statistics
# IOs : 2
Cell Usage :
# BELS : 29640
# BUF : 15
# GND : 1
# LUT2 : 1128
# LUT2_D : 8
# LUT2_L : 192
# LUT3 : 4396
# LUT3_D : 7
# LUT3_L : 6
# LUT4 : 19278
# LUT4_D : 32
# LUT4_L : 1810
# MUXCY : 1291
# MUXF5 : 449
# VCC : 1
# XORCY : 1026
# FlipFlops/Latches : 6274
# FDR : 1142
# FDRE : 8
# FDRS : 5123
# FDS : 1
# Clock Buffers : 1
# BUFGP : 1
# IO Buffers : 1
# IBUF : 1
# Others : 3
# my8051_coproc : 1
# my8051_coproc_control : 1
# my8051_coproc_xram : 1
=========================================================================
Device utilization summary:
---------------------------
Selected Device : 2vp30ff896-7
Number of Slices: 14587 out of 13696 106% (*)
Number of Slice Flip Flops: 6274 out of 27392 22%
Number of 4 input LUTs: 26857 out of 27392 98%
Number of IOs: 2
Number of bonded IOBs: 2 out of 556 0%
Number of GCLKs: 1 out of 16 6%
WARNING:Xst:1336 - (*) More than 100% of Device resources are used
---------------------------
Partition Resource Summary:
---------------------------
No Partitions were found in this design.
---------------------------
=========================================================================
TIMING REPORT
NOTE: THESE TIMING NUMBERS ARE ONLY A SYNTHESIS ESTIMATE.
FOR ACCURATE TIMING INFORMATION PLEASE REFER TO THE TRACE REPORT
GENERATED AFTER PLACE-and-ROUTE.
Clock Information:
------------------
-----------------------------------+------------------------+-------+
Clock Signal | Clock buffer(FF name) | Load |
-----------------------------------+------------------------+-------+
CLK | BUFGP | 6274 |
-----------------------------------+------------------------+-------+
Asynchronous Control Signals Information:
----------------------------------------
No asynchronous control signals found in this design
Timing Summary:
---------------
Speed Grade: -7
Minimum period: 48.903ns (Maximum Frequency: 20.449MHz)
Minimum input arrival time before clock: 4.310ns
Maximum output required time after clock: 5.941ns
Maximum combinational path delay: 2.189ns
Timing Detail:
--------------
All values displayed in nanoseconds (ns)
=========================================================================
Timing constraint: Default period analysis for Clock 'CLK'
Clock period: 48.903ns (frequency: 20.449MHz)
Total number of paths / destination ports: 68928786444 / 11388
-------------------------------------------------------------------------
Delay: 48.903ns (Levels of Logic = 1051)
Source: reg_v_960 (FF)
Destination: S_1024 (FF)
Source Clock: CLK rising
Destination Clock: CLK rising
Data Path: reg_v_960 to S_1024
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
FDRS:C->Q 6 0.370 0.581 reg_v_960 (reg_v_960)
LUT4:I0->O 1 0.275 0.000 Mcompar_sig_130_cmp_eq0000_lut<240> (Mcompar_sig_130_cmp_eq0000_lut<240>)
MUXCY:S->O 1 0.334 0.000 Mcompar_sig_130_cmp_eq0000_cy<240> (Mcompar_sig_130_cmp_eq0000_cy<240>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<241> (Mcompar_sig_130_cmp_eq0000_cy<241>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<242> (Mcompar_sig_130_cmp_eq0000_cy<242>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<243> (Mcompar_sig_130_cmp_eq0000_cy<243>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<244> (Mcompar_sig_130_cmp_eq0000_cy<244>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<245> (Mcompar_sig_130_cmp_eq0000_cy<245>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<246> (Mcompar_sig_130_cmp_eq0000_cy<246>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<247> (Mcompar_sig_130_cmp_eq0000_cy<247>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<248> (Mcompar_sig_130_cmp_eq0000_cy<248>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<249> (Mcompar_sig_130_cmp_eq0000_cy<249>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<250> (Mcompar_sig_130_cmp_eq0000_cy<250>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<251> (Mcompar_sig_130_cmp_eq0000_cy<251>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<252> (Mcompar_sig_130_cmp_eq0000_cy<252>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<253> (Mcompar_sig_130_cmp_eq0000_cy<253>)
MUXCY:CI->O 1 0.036 0.000 Mcompar_sig_130_cmp_eq0000_cy<254> (Mcompar_sig_130_cmp_eq0000_cy<254>)
MUXCY:CI->O 1 0.416 0.467 Mcompar_sig_130_cmp_eq0000_cy<255> (Mcompar_sig_130_cmp_eq0000_cy<255>)
LUT4:I0->O 1 0.275 0.467 Mcompar_sig_130_cmp_eq000014 (Mcompar_sig_130_cmp_eq000014)
LUT4_D:I0->O 24 0.275 0.652 Mcompar_sig_130_cmp_eq0000136 (sig_130)
LUT4_D:I2->O 339 0.275 1.125 STATE_FSM_FFd10-In1 (STATE_FSM_FFd10-In)
LUT3:I2->O 434 0.275 1.280 x<10>33 (N11)
LUT4:I3->O 1 0.275 0.430 x<1>44 (x<1>)
LUT2:I1->O 1 0.275 0.000 label_add_sub/Madd_output_lut<1> (label_add_sub/Madd_output_lut<1>)
MUXCY:S->O 1 0.334 0.000 label_add_sub/Madd_output_cy<1> (label_add_sub/Madd_output_cy<1>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<2> (label_add_sub/Madd_output_cy<2>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<3> (label_add_sub/Madd_output_cy<3>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<4> (label_add_sub/Madd_output_cy<4>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<5> (label_add_sub/Madd_output_cy<5>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<6> (label_add_sub/Madd_output_cy<6>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<7> (label_add_sub/Madd_output_cy<7>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<8> (label_add_sub/Madd_output_cy<8>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<9> (label_add_sub/Madd_output_cy<9>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<10> (label_add_sub/Madd_output_cy<10>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<11> (label_add_sub/Madd_output_cy<11>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<12> (label_add_sub/Madd_output_cy<12>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<13> (label_add_sub/Madd_output_cy<13>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<14> (label_add_sub/Madd_output_cy<14>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<15> (label_add_sub/Madd_output_cy<15>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<16> (label_add_sub/Madd_output_cy<16>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<17> (label_add_sub/Madd_output_cy<17>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<18> (label_add_sub/Madd_output_cy<18>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<19> (label_add_sub/Madd_output_cy<19>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<20> (label_add_sub/Madd_output_cy<20>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<21> (label_add_sub/Madd_output_cy<21>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<22> (label_add_sub/Madd_output_cy<22>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<23> (label_add_sub/Madd_output_cy<23>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<24> (label_add_sub/Madd_output_cy<24>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<25> (label_add_sub/Madd_output_cy<25>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<26> (label_add_sub/Madd_output_cy<26>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<27> (label_add_sub/Madd_output_cy<27>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<28> (label_add_sub/Madd_output_cy<28>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<29> (label_add_sub/Madd_output_cy<29>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<30> (label_add_sub/Madd_output_cy<30>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<31> (label_add_sub/Madd_output_cy<31>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<32> (label_add_sub/Madd_output_cy<32>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<33> (label_add_sub/Madd_output_cy<33>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<34> (label_add_sub/Madd_output_cy<34>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<35> (label_add_sub/Madd_output_cy<35>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<36> (label_add_sub/Madd_output_cy<36>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<37> (label_add_sub/Madd_output_cy<37>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<38> (label_add_sub/Madd_output_cy<38>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<39> (label_add_sub/Madd_output_cy<39>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<40> (label_add_sub/Madd_output_cy<40>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<41> (label_add_sub/Madd_output_cy<41>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<42> (label_add_sub/Madd_output_cy<42>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<43> (label_add_sub/Madd_output_cy<43>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<44> (label_add_sub/Madd_output_cy<44>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<45> (label_add_sub/Madd_output_cy<45>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<46> (label_add_sub/Madd_output_cy<46>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<47> (label_add_sub/Madd_output_cy<47>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<48> (label_add_sub/Madd_output_cy<48>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<49> (label_add_sub/Madd_output_cy<49>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<50> (label_add_sub/Madd_output_cy<50>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<51> (label_add_sub/Madd_output_cy<51>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<52> (label_add_sub/Madd_output_cy<52>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<53> (label_add_sub/Madd_output_cy<53>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<54> (label_add_sub/Madd_output_cy<54>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<55> (label_add_sub/Madd_output_cy<55>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<56> (label_add_sub/Madd_output_cy<56>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<57> (label_add_sub/Madd_output_cy<57>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<58> (label_add_sub/Madd_output_cy<58>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<59> (label_add_sub/Madd_output_cy<59>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<60> (label_add_sub/Madd_output_cy<60>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<61> (label_add_sub/Madd_output_cy<61>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<62> (label_add_sub/Madd_output_cy<62>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<63> (label_add_sub/Madd_output_cy<63>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<64> (label_add_sub/Madd_output_cy<64>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<65> (label_add_sub/Madd_output_cy<65>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<66> (label_add_sub/Madd_output_cy<66>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<67> (label_add_sub/Madd_output_cy<67>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<68> (label_add_sub/Madd_output_cy<68>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<69> (label_add_sub/Madd_output_cy<69>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<70> (label_add_sub/Madd_output_cy<70>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<71> (label_add_sub/Madd_output_cy<71>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<72> (label_add_sub/Madd_output_cy<72>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<73> (label_add_sub/Madd_output_cy<73>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<74> (label_add_sub/Madd_output_cy<74>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<75> (label_add_sub/Madd_output_cy<75>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<76> (label_add_sub/Madd_output_cy<76>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<77> (label_add_sub/Madd_output_cy<77>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<78> (label_add_sub/Madd_output_cy<78>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<79> (label_add_sub/Madd_output_cy<79>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<80> (label_add_sub/Madd_output_cy<80>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<81> (label_add_sub/Madd_output_cy<81>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<82> (label_add_sub/Madd_output_cy<82>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<83> (label_add_sub/Madd_output_cy<83>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<84> (label_add_sub/Madd_output_cy<84>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<85> (label_add_sub/Madd_output_cy<85>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<86> (label_add_sub/Madd_output_cy<86>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<87> (label_add_sub/Madd_output_cy<87>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<88> (label_add_sub/Madd_output_cy<88>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<89> (label_add_sub/Madd_output_cy<89>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<90> (label_add_sub/Madd_output_cy<90>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<91> (label_add_sub/Madd_output_cy<91>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<92> (label_add_sub/Madd_output_cy<92>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<93> (label_add_sub/Madd_output_cy<93>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<94> (label_add_sub/Madd_output_cy<94>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<95> (label_add_sub/Madd_output_cy<95>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<96> (label_add_sub/Madd_output_cy<96>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<97> (label_add_sub/Madd_output_cy<97>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<98> (label_add_sub/Madd_output_cy<98>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<99> (label_add_sub/Madd_output_cy<99>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<100> (label_add_sub/Madd_output_cy<100>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<101> (label_add_sub/Madd_output_cy<101>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<102> (label_add_sub/Madd_output_cy<102>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<103> (label_add_sub/Madd_output_cy<103>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<104> (label_add_sub/Madd_output_cy<104>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<105> (label_add_sub/Madd_output_cy<105>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<106> (label_add_sub/Madd_output_cy<106>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<107> (label_add_sub/Madd_output_cy<107>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<108> (label_add_sub/Madd_output_cy<108>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<109> (label_add_sub/Madd_output_cy<109>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<110> (label_add_sub/Madd_output_cy<110>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<111> (label_add_sub/Madd_output_cy<111>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<112> (label_add_sub/Madd_output_cy<112>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<113> (label_add_sub/Madd_output_cy<113>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<114> (label_add_sub/Madd_output_cy<114>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<115> (label_add_sub/Madd_output_cy<115>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<116> (label_add_sub/Madd_output_cy<116>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<117> (label_add_sub/Madd_output_cy<117>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<118> (label_add_sub/Madd_output_cy<118>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<119> (label_add_sub/Madd_output_cy<119>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<120> (label_add_sub/Madd_output_cy<120>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<121> (label_add_sub/Madd_output_cy<121>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<122> (label_add_sub/Madd_output_cy<122>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<123> (label_add_sub/Madd_output_cy<123>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<124> (label_add_sub/Madd_output_cy<124>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<125> (label_add_sub/Madd_output_cy<125>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<126> (label_add_sub/Madd_output_cy<126>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<127> (label_add_sub/Madd_output_cy<127>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<128> (label_add_sub/Madd_output_cy<128>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<129> (label_add_sub/Madd_output_cy<129>)
MUXCY:CI->O 1 0.036 0.000 label_add_sub/Madd_output_cy<130> (label_add_sub/Madd_output_cy<130>)
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MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<475> (label_add_sub/Madd_output_cy<475>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<476> (label_add_sub/Madd_output_cy<476>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<477> (label_add_sub/Madd_output_cy<477>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<478> (label_add_sub/Madd_output_cy<478>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<479> (label_add_sub/Madd_output_cy<479>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<480> (label_add_sub/Madd_output_cy<480>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<481> (label_add_sub/Madd_output_cy<481>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<482> (label_add_sub/Madd_output_cy<482>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<483> (label_add_sub/Madd_output_cy<483>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<484> (label_add_sub/Madd_output_cy<484>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<485> (label_add_sub/Madd_output_cy<485>)
MUXCY:CI->O 1 0.037 0.000 label_add_sub/Madd_output_cy<486> (label_add_sub/Madd_output_cy<486>)