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[/] [uart_block/] [trunk/] [hdl/] [iseProject/] [serial_receiver.syr] - Rev 18
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Release 13.4 - xst O.87xd (lin)
Copyright (c) 1995-2011 Xilinx, Inc. All rights reserved.
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Parameter TMPDIR set to xst/projnav.tmp
Total REAL time to Xst completion: 0.00 secs
Total CPU time to Xst completion: 0.05 secs
-->
Parameter xsthdpdir set to xst
Total REAL time to Xst completion: 0.00 secs
Total CPU time to Xst completion: 0.05 secs
-->
Reading design: serial_receiver.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 : "serial_receiver.prj"
Input Format : mixed
Ignore Synthesis Constraint File : NO
---- Target Parameters
Output File Name : "serial_receiver"
Output Format : NGC
Target Device : xc3s500e-4-fg320
---- Source Options
Top Module Name : serial_receiver
Automatic FSM Extraction : YES
FSM Encoding Algorithm : Auto
Safe Implementation : No
FSM Style : LUT
RAM Extraction : Yes
RAM Style : Auto
ROM Extraction : Yes
Mux Style : Auto
Decoder Extraction : YES
Priority Encoder Extraction : Yes
Shift Register Extraction : YES
Logical Shifter Extraction : YES
XOR Collapsing : YES
ROM Style : Auto
Mux Extraction : Yes
Resource Sharing : YES
Asynchronous To Synchronous : NO
Multiplier Style : Auto
Automatic Register Balancing : No
---- Target Options
Add IO Buffers : YES
Global Maximum Fanout : 100000
Add Generic Clock Buffer(BUFG) : 24
Register Duplication : YES
Slice Packing : YES
Optimize Instantiated Primitives : NO
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 : 1
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 : NO
Slice Utilization Ratio Delta : 5
=========================================================================
=========================================================================
* HDL Compilation *
=========================================================================
Compiling vhdl file "/home/laraujo/work/uart_block/hdl/iseProject/pkgDefinitions.vhd" in Library work.
Architecture pkgdefinitions of Entity pkgdefinitions is up to date.
Compiling vhdl file "/home/laraujo/work/uart_block/hdl/iseProject/serial_receiver.vhd" in Library work.
Architecture behavioral of Entity serial_receiver is up to date.
=========================================================================
* Design Hierarchy Analysis *
=========================================================================
Analyzing hierarchy for entity <serial_receiver> in library <work> (architecture <behavioral>).
=========================================================================
* HDL Analysis *
=========================================================================
Analyzing Entity <serial_receiver> in library <work> (Architecture <behavioral>).
Entity <serial_receiver> analyzed. Unit <serial_receiver> generated.
=========================================================================
* HDL Synthesis *
=========================================================================
Performing bidirectional port resolution...
Synthesizing Unit <serial_receiver>.
Related source file is "/home/laraujo/work/uart_block/hdl/iseProject/serial_receiver.vhd".
Found finite state machine <FSM_0> for signal <current_s>.
-----------------------------------------------------------------------
| States | 10 |
| Transitions | 10 |
| Inputs | 0 |
| Outputs | 11 |
| Clock | baudClk (rising_edge) |
| Reset | syncDetected (negative) |
| Reset type | asynchronous |
| Reset State | bit0 |
| Power Up State | bit0 |
| Encoding | automatic |
| Implementation | LUT |
-----------------------------------------------------------------------
Found finite state machine <FSM_1> for signal <filterRx>.
-----------------------------------------------------------------------
| States | 4 |
| Transitions | 8 |
| Inputs | 2 |
| Outputs | 4 |
| Clock | baudOverSampleClk (rising_edge) |
| Reset | rst (positive) |
| Reset type | asynchronous |
| Reset State | s0 |
| Power Up State | s0 |
| Encoding | automatic |
| Implementation | LUT |
-----------------------------------------------------------------------
Found 1-bit register for signal <data_ready>.
Found 8-bit register for signal <data_byte>.
Found 8-bit register for signal <byteReceived>.
Found 1-bit register for signal <syncDetected>.
Summary:
inferred 2 Finite State Machine(s).
inferred 18 D-type flip-flop(s).
Unit <serial_receiver> synthesized.
=========================================================================
HDL Synthesis Report
Macro Statistics
# Registers : 11
1-bit register : 10
8-bit register : 1
=========================================================================
=========================================================================
* Advanced HDL Synthesis *
=========================================================================
Analyzing FSM <FSM_1> for best encoding.
Optimizing FSM <filterRx/FSM> on signal <filterRx[1:2]> with gray encoding.
-------------------
State | Encoding
-------------------
s0 | 00
s1 | 01
s2 | 11
s3 | 10
-------------------
Analyzing FSM <FSM_0> for best encoding.
Optimizing FSM <current_s/FSM> on signal <current_s[1:10]> with one-hot encoding.
-----------------------
State | Encoding
-----------------------
bit0 | 0000000001
bit1 | 0000000010
bit2 | 0000000100
bit3 | 0000001000
bit4 | 0000010000
bit5 | 0000100000
bit6 | 0001000000
bit7 | 0010000000
rx_stop | 0100000000
rx_idle | 1000000000
-----------------------
=========================================================================
Advanced HDL Synthesis Report
Macro Statistics
# FSMs : 2
# Registers : 18
Flip-Flops : 18
=========================================================================
=========================================================================
* Low Level Synthesis *
=========================================================================
INFO:Xst:2261 - The FF/Latch <current_s_FSM_FFd1> in Unit <serial_receiver> is equivalent to the following FF/Latch, which will be removed : <data_ready>
Optimizing unit <serial_receiver> ...
Mapping all equations...
Building and optimizing final netlist ...
Found area constraint ratio of 100 (+ 5) on block serial_receiver, actual ratio is 0.
Final Macro Processing ...
=========================================================================
Final Register Report
Macro Statistics
# Registers : 29
Flip-Flops : 29
=========================================================================
=========================================================================
* Partition Report *
=========================================================================
Partition Implementation Status
-------------------------------
No Partitions were found in this design.
-------------------------------
=========================================================================
* Final Report *
=========================================================================
Final Results
RTL Top Level Output File Name : serial_receiver.ngr
Top Level Output File Name : serial_receiver
Output Format : NGC
Optimization Goal : Speed
Keep Hierarchy : No
Design Statistics
# IOs : 13
Cell Usage :
# BELS : 19
# GND : 1
# INV : 1
# LUT2 : 1
# LUT2_L : 1
# LUT3 : 1
# LUT3_D : 1
# LUT4 : 11
# LUT4_D : 1
# VCC : 1
# FlipFlops/Latches : 29
# FDC : 11
# FDCE : 9
# FDE : 8
# FDP : 1
# Clock Buffers : 2
# BUFGP : 2
# IO Buffers : 11
# IBUF : 2
# OBUF : 9
=========================================================================
Device utilization summary:
---------------------------
Selected Device : 3s500efg320-4
Number of Slices: 19 out of 4656 0%
Number of Slice Flip Flops: 29 out of 9312 0%
Number of 4 input LUTs: 17 out of 9312 0%
Number of IOs: 13
Number of bonded IOBs: 13 out of 232 5%
Number of GCLKs: 2 out of 24 8%
---------------------------
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 |
-----------------------------------+------------------------+-------+
baudOverSampleClk | BUFGP | 3 |
baudClk | BUFGP | 26 |
-----------------------------------+------------------------+-------+
Asynchronous Control Signals Information:
----------------------------------------
---------------------------------------------------------------+------------------------+-------+
Control Signal | Buffer(FF name) | Load |
---------------------------------------------------------------+------------------------+-------+
current_s_FSM_Acst_FSM_inv(current_s_FSM_Acst_FSM_inv1_INV_0:O)| NONE(byteReceived_0) | 18 |
rst | IBUF | 3 |
---------------------------------------------------------------+------------------------+-------+
Timing Summary:
---------------
Speed Grade: -4
Minimum period: 4.853ns (Maximum Frequency: 206.058MHz)
Minimum input arrival time before clock: 4.569ns
Maximum output required time after clock: 4.450ns
Maximum combinational path delay: No path found
Timing Detail:
--------------
All values displayed in nanoseconds (ns)
=========================================================================
Timing constraint: Default period analysis for Clock 'baudOverSampleClk'
Clock period: 2.489ns (frequency: 401.768MHz)
Total number of paths / destination ports: 6 / 3
-------------------------------------------------------------------------
Delay: 2.489ns (Levels of Logic = 1)
Source: syncDetected (FF)
Destination: syncDetected (FF)
Source Clock: baudOverSampleClk rising
Destination Clock: baudOverSampleClk rising
Data Path: syncDetected to syncDetected
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
FDC:C->Q 10 0.591 0.886 syncDetected (syncDetected)
LUT4:I3->O 1 0.704 0.000 syncDetected_mux00001 (syncDetected_mux0000)
FDC:D 0.308 syncDetected
----------------------------------------
Total 2.489ns (1.603ns logic, 0.886ns route)
(64.4% logic, 35.6% route)
=========================================================================
Timing constraint: Default period analysis for Clock 'baudClk'
Clock period: 4.853ns (frequency: 206.058MHz)
Total number of paths / destination ports: 113 / 25
-------------------------------------------------------------------------
Delay: 4.853ns (Levels of Logic = 3)
Source: current_s_FSM_FFd7 (FF)
Destination: data_byte_0 (FF)
Source Clock: baudClk rising
Destination Clock: baudClk rising
Data Path: current_s_FSM_FFd7 to data_byte_0
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
FDC:C->Q 3 0.591 0.706 current_s_FSM_FFd7 (current_s_FSM_FFd7)
LUT4:I0->O 1 0.704 0.424 data_byte_mux0000<0>1_SW0 (N5)
LUT4_D:I3->O 7 0.704 0.712 data_byte_mux0000<0>1 (N01)
LUT4:I3->O 1 0.704 0.000 data_byte_mux0000<6>1 (data_byte_mux0000<6>)
FDE:D 0.308 data_byte_6
----------------------------------------
Total 4.853ns (3.011ns logic, 1.842ns route)
(62.0% logic, 38.0% route)
=========================================================================
Timing constraint: Default OFFSET IN BEFORE for Clock 'baudOverSampleClk'
Total number of paths / destination ports: 3 / 3
-------------------------------------------------------------------------
Offset: 3.366ns (Levels of Logic = 2)
Source: serial_in (PAD)
Destination: filterRx_FSM_FFd2 (FF)
Destination Clock: baudOverSampleClk rising
Data Path: serial_in to filterRx_FSM_FFd2
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
IBUF:I->O 12 1.218 1.136 serial_in_IBUF (serial_in_IBUF)
LUT2:I0->O 1 0.704 0.000 filterRx_FSM_FFd2-In1 (filterRx_FSM_FFd2-In)
FDC:D 0.308 filterRx_FSM_FFd2
----------------------------------------
Total 3.366ns (2.230ns logic, 1.136ns route)
(66.3% logic, 33.7% route)
=========================================================================
Timing constraint: Default OFFSET IN BEFORE for Clock 'baudClk'
Total number of paths / destination ports: 9 / 9
-------------------------------------------------------------------------
Offset: 4.569ns (Levels of Logic = 3)
Source: serial_in (PAD)
Destination: data_byte_7 (FF)
Destination Clock: baudClk rising
Data Path: serial_in to data_byte_7
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
IBUF:I->O 12 1.218 1.136 serial_in_IBUF (serial_in_IBUF)
LUT4:I0->O 1 0.704 0.499 data_byte_mux0000<7>_SW0 (N3)
LUT3:I1->O 1 0.704 0.000 data_byte_mux0000<7> (data_byte_mux0000<7>)
FDE:D 0.308 data_byte_7
----------------------------------------
Total 4.569ns (2.934ns logic, 1.635ns route)
(64.2% logic, 35.8% route)
=========================================================================
Timing constraint: Default OFFSET OUT AFTER for Clock 'baudClk'
Total number of paths / destination ports: 9 / 9
-------------------------------------------------------------------------
Offset: 4.450ns (Levels of Logic = 1)
Source: current_s_FSM_FFd1 (FF)
Destination: data_ready (PAD)
Source Clock: baudClk rising
Data Path: current_s_FSM_FFd1 to data_ready
Gate Net
Cell:in->out fanout Delay Delay Logical Name (Net Name)
---------------------------------------- ------------
FDCE:C->Q 4 0.591 0.587 current_s_FSM_FFd1 (current_s_FSM_FFd1)
OBUF:I->O 3.272 data_ready_OBUF (data_ready)
----------------------------------------
Total 4.450ns (3.863ns logic, 0.587ns route)
(86.8% logic, 13.2% route)
=========================================================================
Total REAL time to Xst completion: 5.00 secs
Total CPU time to Xst completion: 4.59 secs
-->
Total memory usage is 164420 kilobytes
Number of errors : 0 ( 0 filtered)
Number of warnings : 0 ( 0 filtered)
Number of infos : 1 ( 0 filtered)
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