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untrack all ignored files

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129
38_decoder/38_decoder.asm.rpt
查看文件

@ -1,129 +0,0 @@
Assembler report for 38_decoder
Tue Mar 08 15:12:41 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Assembler Summary
3. Assembler Settings
4. Assembler Generated Files
5. Assembler Device Options: D:/projects/quartus/38_decoder/38_decoder.sof
6. Assembler Device Options: D:/projects/quartus/38_decoder/38_decoder.pof
7. Assembler Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+---------------------------------------------------------------+
; Assembler Summary ;
+-----------------------+---------------------------------------+
; Assembler Status ; Successful - Tue Mar 08 15:12:41 2022 ;
; Revision Name ; 38_decoder ;
; Top-level Entity Name ; 38_decoder ;
; Family ; Cyclone II ;
; Device ; EP2C8Q208C8 ;
+-----------------------+---------------------------------------+
+--------------------------------------------------------------------------------------------------------+
; Assembler Settings ;
+-----------------------------------------------------------------------------+----------+---------------+
; Option ; Setting ; Default Value ;
+-----------------------------------------------------------------------------+----------+---------------+
; Use smart compilation ; Off ; Off ;
; Generate compressed bitstreams ; On ; On ;
; Compression mode ; Off ; Off ;
; Clock source for configuration device ; Internal ; Internal ;
; Clock frequency of the configuration device ; 10 MHZ ; 10 MHz ;
; Divide clock frequency by ; 1 ; 1 ;
; Auto user code ; Off ; Off ;
; Use configuration device ; On ; On ;
; Configuration device ; Auto ; Auto ;
; Configuration device auto user code ; Off ; Off ;
; Generate Tabular Text File (.ttf) For Target Device ; Off ; Off ;
; Generate Raw Binary File (.rbf) For Target Device ; Off ; Off ;
; Generate Hexadecimal (Intel-Format) Output File (.hexout) for Target Device ; Off ; Off ;
; Hexadecimal Output File start address ; 0 ; 0 ;
; Hexadecimal Output File count direction ; Up ; Up ;
; Release clears before tri-states ; Off ; Off ;
; Auto-restart configuration after error ; On ; On ;
; Maintain Compatibility with All Cyclone II M4K Versions ; On ; On ;
; Generate Serial Vector Format File (.svf) for Target Device ; Off ; Off ;
; Generate a JEDEC STAPL Format File (.jam) for Target Device ; Off ; Off ;
; Generate a compressed Jam STAPL Byte Code 2.0 File (.jbc) for Target Device ; Off ; Off ;
; Generate a compressed Jam STAPL Byte Code 2.0 File (.jbc) for Target Device ; On ; On ;
+-----------------------------------------------------------------------------+----------+---------------+
+-----------------------------------------------+
; Assembler Generated Files ;
+-----------------------------------------------+
; File Name ;
+-----------------------------------------------+
; D:/projects/quartus/38_decoder/38_decoder.sof ;
; D:/projects/quartus/38_decoder/38_decoder.pof ;
+-----------------------------------------------+
+-------------------------------------------------------------------------+
; Assembler Device Options: D:/projects/quartus/38_decoder/38_decoder.sof ;
+----------------+--------------------------------------------------------+
; Option ; Setting ;
+----------------+--------------------------------------------------------+
; Device ; EP2C8Q208C8 ;
; JTAG usercode ; 0xFFFFFFFF ;
; Checksum ; 0x000C10D6 ;
+----------------+--------------------------------------------------------+
+-------------------------------------------------------------------------+
; Assembler Device Options: D:/projects/quartus/38_decoder/38_decoder.pof ;
+--------------------+----------------------------------------------------+
; Option ; Setting ;
+--------------------+----------------------------------------------------+
; Device ; EPCS4 ;
; JTAG usercode ; 0x00000000 ;
; Checksum ; 0x06F0221B ;
; Compression Ratio ; 3 ;
+--------------------+----------------------------------------------------+
+--------------------+
; Assembler Messages ;
+--------------------+
Info: *******************************************************************
Info: Running Quartus II Assembler
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Tue Mar 08 15:12:41 2022
Info: Command: quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder
Info: Writing out detailed assembly data for power analysis
Info: Assembler is generating device programming files
Info: The Active Serial/Parallel mode CONF_DONE pin error check is disabled
Info: Quartus II Assembler was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 241 megabytes
Info: Processing ended: Tue Mar 08 15:12:41 2022
Info: Elapsed time: 00:00:00
Info: Total CPU time (on all processors): 00:00:00

1
38_decoder/38_decoder.done
查看文件

@ -1 +0,0 @@
Tue Mar 08 15:12:42 2022

892
38_decoder/38_decoder.fit.rpt
查看文件

@ -1,892 +0,0 @@
Fitter report for 38_decoder
Tue Mar 08 15:12:40 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Fitter Summary
3. Fitter Settings
4. Parallel Compilation
5. Incremental Compilation Preservation Summary
6. Incremental Compilation Partition Settings
7. Incremental Compilation Placement Preservation
8. Pin-Out File
9. Fitter Resource Usage Summary
10. Input Pins
11. Output Pins
12. I/O Bank Usage
13. All Package Pins
14. Output Pin Default Load For Reported TCO
15. Fitter Resource Utilization by Entity
16. Delay Chain Summary
17. Pad To Core Delay Chain Fanout
18. Non-Global High Fan-Out Signals
19. Interconnect Usage Summary
20. LAB Logic Elements
21. LAB Signals Sourced
22. LAB Signals Sourced Out
23. LAB Distinct Inputs
24. Fitter Device Options
25. Operating Settings and Conditions
26. Estimated Delay Added for Hold Timing
27. Advanced Data - General
28. Advanced Data - Placement Preparation
29. Advanced Data - Placement
30. Advanced Data - Routing
31. Fitter Messages
32. Fitter Suppressed Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------+
; Fitter Summary ;
+------------------------------------+----------------------------------------------+
; Fitter Status ; Successful - Tue Mar 08 15:12:40 2022 ;
; Quartus II Version ; 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition ;
; Revision Name ; 38_decoder ;
; Top-level Entity Name ; 38_decoder ;
; Family ; Cyclone II ;
; Device ; EP2C8Q208C8 ;
; Timing Models ; Final ;
; Total logic elements ; 8 / 8,256 ( < 1 % ) ;
; Total combinational functions ; 8 / 8,256 ( < 1 % ) ;
; Dedicated logic registers ; 0 / 8,256 ( 0 % ) ;
; Total registers ; 0 ;
; Total pins ; 11 / 138 ( 8 % ) ;
; Total virtual pins ; 0 ;
; Total memory bits ; 0 / 165,888 ( 0 % ) ;
; Embedded Multiplier 9-bit elements ; 0 / 36 ( 0 % ) ;
; Total PLLs ; 0 / 2 ( 0 % ) ;
+------------------------------------+----------------------------------------------+
+--------------------------------------------------------------------------------------------------------------------------------------+
; Fitter Settings ;
+--------------------------------------------------------------------+--------------------------------+--------------------------------+
; Option ; Setting ; Default Value ;
+--------------------------------------------------------------------+--------------------------------+--------------------------------+
; Device ; EP2C8Q208C8 ; ;
; Minimum Core Junction Temperature ; 0 ; ;
; Maximum Core Junction Temperature ; 85 ; ;
; Fit Attempts to Skip ; 0 ; 0.0 ;
; Device I/O Standard ; 3.3-V LVTTL ; ;
; Use smart compilation ; Off ; Off ;
; Use TimeQuest Timing Analyzer ; Off ; Off ;
; Router Timing Optimization Level ; Normal ; Normal ;
; Placement Effort Multiplier ; 1.0 ; 1.0 ;
; Router Effort Multiplier ; 1.0 ; 1.0 ;
; Always Enable Input Buffers ; Off ; Off ;
; Optimize Hold Timing ; IO Paths and Minimum TPD Paths ; IO Paths and Minimum TPD Paths ;
; Optimize Multi-Corner Timing ; Off ; Off ;
; PowerPlay Power Optimization ; Normal compilation ; Normal compilation ;
; Optimize Timing ; Normal compilation ; Normal compilation ;
; Optimize Timing for ECOs ; Off ; Off ;
; Regenerate full fit report during ECO compiles ; Off ; Off ;
; Optimize IOC Register Placement for Timing ; On ; On ;
; Limit to One Fitting Attempt ; Off ; Off ;
; Final Placement Optimizations ; Automatically ; Automatically ;
; Fitter Aggressive Routability Optimizations ; Automatically ; Automatically ;
; Fitter Initial Placement Seed ; 1 ; 1 ;
; PCI I/O ; Off ; Off ;
; Weak Pull-Up Resistor ; Off ; Off ;
; Enable Bus-Hold Circuitry ; Off ; Off ;
; Auto Global Memory Control Signals ; Off ; Off ;
; Auto Packed Registers ; Auto ; Auto ;
; Auto Delay Chains ; On ; On ;
; Auto Merge PLLs ; On ; On ;
; Ignore PLL Mode When Merging PLLs ; Off ; Off ;
; Perform Physical Synthesis for Combinational Logic for Fitting ; Off ; Off ;
; Perform Physical Synthesis for Combinational Logic for Performance ; Off ; Off ;
; Perform Register Duplication for Performance ; Off ; Off ;
; Perform Logic to Memory Mapping for Fitting ; Off ; Off ;
; Perform Register Retiming for Performance ; Off ; Off ;
; Perform Asynchronous Signal Pipelining ; Off ; Off ;
; Fitter Effort ; Auto Fit ; Auto Fit ;
; Physical Synthesis Effort Level ; Normal ; Normal ;
; Auto Global Clock ; On ; On ;
; Auto Global Register Control Signals ; On ; On ;
; Stop After Congestion Map Generation ; Off ; Off ;
; Save Intermediate Fitting Results ; Off ; Off ;
; Force Fitter to Avoid Periphery Placement Warnings ; Off ; Off ;
+--------------------------------------------------------------------+--------------------------------+--------------------------------+
+------------------------------------------+
; Parallel Compilation ;
+----------------------------+-------------+
; Processors ; Number ;
+----------------------------+-------------+
; Number detected on machine ; 4 ;
; Maximum allowed ; 4 ;
; ; ;
; Average used ; 1.00 ;
; Maximum used ; 4 ;
; ; ;
; Usage by Processor ; % Time Used ;
; 1 processor ; 100.0% ;
; 2-4 processors ; < 0.1% ;
+----------------------------+-------------+
+----------------------------------------------+
; Incremental Compilation Preservation Summary ;
+-------------------------+--------------------+
; Type ; Value ;
+-------------------------+--------------------+
; Placement ; ;
; -- Requested ; 0 / 19 ( 0.00 % ) ;
; -- Achieved ; 0 / 19 ( 0.00 % ) ;
; ; ;
; Routing (by Connection) ; ;
; -- Requested ; 0 / 0 ( 0.00 % ) ;
; -- Achieved ; 0 / 0 ( 0.00 % ) ;
+-------------------------+--------------------+
+--------------------------------------------------------------------------------------------------------------------------------------------------+
; Incremental Compilation Partition Settings ;
+----------------+----------------+-------------------+-------------------------+------------------------+------------------------------+----------+
; Partition Name ; Partition Type ; Netlist Type Used ; Preservation Level Used ; Netlist Type Requested ; Preservation Level Requested ; Contents ;
+----------------+----------------+-------------------+-------------------------+------------------------+------------------------------+----------+
; Top ; User-created ; Source File ; N/A ; Source File ; N/A ; ;
+----------------+----------------+-------------------+-------------------------+------------------------+------------------------------+----------+
+--------------------------------------------------------------------------------------------+
; Incremental Compilation Placement Preservation ;
+----------------+---------+-------------------+-------------------------+-------------------+
; Partition Name ; # Nodes ; # Preserved Nodes ; Preservation Level Used ; Netlist Type Used ;
+----------------+---------+-------------------+-------------------------+-------------------+
; Top ; 19 ; 0 ; N/A ; Source File ;
+----------------+---------+-------------------+-------------------------+-------------------+
+--------------+
; Pin-Out File ;
+--------------+
The pin-out file can be found in D:/projects/quartus/38_decoder/38_decoder.pin.
+-------------------------------------------------------------------+
; Fitter Resource Usage Summary ;
+---------------------------------------------+---------------------+
; Resource ; Usage ;
+---------------------------------------------+---------------------+
; Total logic elements ; 8 / 8,256 ( < 1 % ) ;
; -- Combinational with no register ; 8 ;
; -- Register only ; 0 ;
; -- Combinational with a register ; 0 ;
; ; ;
; Logic element usage by number of LUT inputs ; ;
; -- 4 input functions ; 0 ;
; -- 3 input functions ; 8 ;
; -- <=2 input functions ; 0 ;
; -- Register only ; 0 ;
; ; ;
; Logic elements by mode ; ;
; -- normal mode ; 8 ;
; -- arithmetic mode ; 0 ;
; ; ;
; Total registers* ; 0 / 8,646 ( 0 % ) ;
; -- Dedicated logic registers ; 0 / 8,256 ( 0 % ) ;
; -- I/O registers ; 0 / 390 ( 0 % ) ;
; ; ;
; Total LABs: partially or completely used ; 1 / 516 ( < 1 % ) ;
; User inserted logic elements ; 0 ;
; Virtual pins ; 0 ;
; I/O pins ; 11 / 138 ( 8 % ) ;
; -- Clock pins ; 0 / 4 ( 0 % ) ;
; Global signals ; 0 ;
; M4Ks ; 0 / 36 ( 0 % ) ;
; Total block memory bits ; 0 / 165,888 ( 0 % ) ;
; Total block memory implementation bits ; 0 / 165,888 ( 0 % ) ;
; Embedded Multiplier 9-bit elements ; 0 / 36 ( 0 % ) ;
; PLLs ; 0 / 2 ( 0 % ) ;
; Global clocks ; 0 / 8 ( 0 % ) ;
; JTAGs ; 0 / 1 ( 0 % ) ;
; ASMI blocks ; 0 / 1 ( 0 % ) ;
; CRC blocks ; 0 / 1 ( 0 % ) ;
; Average interconnect usage (total/H/V) ; 0% / 0% / 0% ;
; Peak interconnect usage (total/H/V) ; 0% / 0% / 0% ;
; Maximum fan-out node ; I2 ;
; Maximum fan-out ; 8 ;
; Highest non-global fan-out signal ; I2 ;
; Highest non-global fan-out ; 8 ;
; Total fan-out ; 32 ;
; Average fan-out ; 1.45 ;
+---------------------------------------------+---------------------+
* Register count does not include registers inside RAM blocks or DSP blocks.
+------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Input Pins ;
+------+-------+----------+--------------+--------------+-------------+-----------------------+--------------------+--------+----------------+---------------+-----------------+----------+--------------+--------------+-------------+----------------------+
; Name ; Pin # ; I/O Bank ; X coordinate ; Y coordinate ; Cell number ; Combinational Fan-Out ; Registered Fan-Out ; Global ; Input Register ; Power Up High ; PCI I/O Enabled ; Bus Hold ; Weak Pull Up ; I/O Standard ; Termination ; Location assigned by ;
+------+-------+----------+--------------+--------------+-------------+-----------------------+--------------------+--------+----------------+---------------+-----------------+----------+--------------+--------------+-------------+----------------------+
; I0 ; 77 ; 4 ; 18 ; 0 ; 0 ; 8 ; 0 ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; Off ; User ;
; I1 ; 80 ; 4 ; 23 ; 0 ; 2 ; 8 ; 0 ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; Off ; User ;
; I2 ; 81 ; 4 ; 23 ; 0 ; 1 ; 8 ; 0 ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; Off ; User ;
+------+-------+----------+--------------+--------------+-------------+-----------------------+--------------------+--------+----------------+---------------+-----------------+----------+--------------+--------------+-------------+----------------------+
+---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Output Pins ;
+------+-------+----------+--------------+--------------+-------------+-----------------+------------------------+---------------+-----------------+------------+---------------+----------+--------------+--------------+------------------+-------------+----------------------+------+
; Name ; Pin # ; I/O Bank ; X coordinate ; Y coordinate ; Cell number ; Output Register ; Output Enable Register ; Power Up High ; PCI I/O Enabled ; Open Drain ; TRI Primitive ; Bus Hold ; Weak Pull Up ; I/O Standard ; Current Strength ; Termination ; Location assigned by ; Load ;
+------+-------+----------+--------------+--------------+-------------+-----------------+------------------------+---------------+-----------------+------------+---------------+----------+--------------+--------------+------------------+-------------+----------------------+------+
; Y0 ; 142 ; 3 ; 34 ; 12 ; 0 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y1 ; 143 ; 3 ; 34 ; 13 ; 1 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y2 ; 144 ; 3 ; 34 ; 13 ; 0 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y3 ; 145 ; 3 ; 34 ; 14 ; 4 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y4 ; 146 ; 3 ; 34 ; 15 ; 1 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y5 ; 147 ; 3 ; 34 ; 15 ; 0 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y6 ; 149 ; 3 ; 34 ; 16 ; 1 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
; Y7 ; 150 ; 3 ; 34 ; 16 ; 0 ; no ; no ; no ; no ; no ; no ; no ; Off ; 3.3-V LVTTL ; 24mA ; Off ; User ; 0 pF ;
+------+-------+----------+--------------+--------------+-------------+-----------------+------------------------+---------------+-----------------+------------+---------------+----------+--------------+--------------+------------------+-------------+----------------------+------+
+-----------------------------------------------------------+
; I/O Bank Usage ;
+----------+-----------------+---------------+--------------+
; I/O Bank ; Usage ; VCCIO Voltage ; VREF Voltage ;
+----------+-----------------+---------------+--------------+
; 1 ; 2 / 32 ( 6 % ) ; 3.3V ; -- ;
; 2 ; 0 / 35 ( 0 % ) ; 3.3V ; -- ;
; 3 ; 9 / 35 ( 26 % ) ; 3.3V ; -- ;
; 4 ; 3 / 36 ( 8 % ) ; 3.3V ; -- ;
+----------+-----------------+---------------+--------------+
+------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; All Package Pins ;
+----------+------------+----------+------------------------------------------+--------+--------------+---------+------------+-----------------+----------+--------------+
; Location ; Pad Number ; I/O Bank ; Pin Name/Usage ; Dir. ; I/O Standard ; Voltage ; I/O Type ; User Assignment ; Bus Hold ; Weak Pull Up ;
+----------+------------+----------+------------------------------------------+--------+--------------+---------+------------+-----------------+----------+--------------+
; 1 ; 0 ; 1 ; ~ASDO~ / RESERVED_INPUT_WITH_WEAK_PULLUP ; input ; 3.3-V LVTTL ; ; Row I/O ; N ; no ; On ;
; 2 ; 1 ; 1 ; ~nCSO~ / RESERVED_INPUT_WITH_WEAK_PULLUP ; input ; 3.3-V LVTTL ; ; Row I/O ; N ; no ; On ;
; 3 ; 2 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 4 ; 3 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 5 ; 4 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 6 ; 5 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 7 ; ; 1 ; VCCIO1 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 8 ; 6 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 9 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 10 ; 7 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 11 ; 8 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 12 ; 9 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 13 ; 10 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 14 ; 18 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 15 ; 19 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 16 ; 20 ; 1 ; #TDO ; output ; ; ; -- ; ; -- ; -- ;
; 17 ; 21 ; 1 ; #TMS ; input ; ; ; -- ; ; -- ; -- ;
; 18 ; 22 ; 1 ; #TCK ; input ; ; ; -- ; ; -- ; -- ;
; 19 ; 23 ; 1 ; #TDI ; input ; ; ; -- ; ; -- ; -- ;
; 20 ; 24 ; 1 ; ^DATA0 ; input ; ; ; -- ; ; -- ; -- ;
; 21 ; 25 ; 1 ; ^DCLK ; ; ; ; -- ; ; -- ; -- ;
; 22 ; 26 ; 1 ; ^nCE ; ; ; ; -- ; ; -- ; -- ;
; 23 ; 27 ; 1 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 24 ; 28 ; 1 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 25 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 26 ; 29 ; 1 ; ^nCONFIG ; ; ; ; -- ; ; -- ; -- ;
; 27 ; 30 ; 1 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 28 ; 31 ; 1 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 29 ; ; 1 ; VCCIO1 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 30 ; 32 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 31 ; 33 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 32 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 33 ; 35 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 34 ; 36 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 35 ; 37 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 36 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 37 ; 39 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 38 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 39 ; 43 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 40 ; 44 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 41 ; 45 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 42 ; ; 1 ; VCCIO1 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 43 ; 48 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 44 ; 49 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 45 ; 50 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 46 ; 51 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 47 ; 52 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 48 ; 53 ; 1 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 49 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 50 ; ; ; GND_PLL1 ; gnd ; ; ; -- ; ; -- ; -- ;
; 51 ; ; ; VCCD_PLL1 ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 52 ; ; ; GND_PLL1 ; gnd ; ; ; -- ; ; -- ; -- ;
; 53 ; ; ; VCCA_PLL1 ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 54 ; ; ; GNDA_PLL1 ; gnd ; ; ; -- ; ; -- ; -- ;
; 55 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 56 ; 54 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 57 ; 55 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 58 ; 56 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 59 ; 57 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 60 ; 58 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 61 ; 59 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 62 ; ; 4 ; VCCIO4 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 63 ; 60 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 64 ; 61 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 65 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 66 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 67 ; 69 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 68 ; 70 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 69 ; 71 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 70 ; 74 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 71 ; ; 4 ; VCCIO4 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 72 ; 75 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 73 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 74 ; 76 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 75 ; 77 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 76 ; 78 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 77 ; 79 ; 4 ; I0 ; input ; 3.3-V LVTTL ; ; Column I/O ; Y ; no ; Off ;
; 78 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 79 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 80 ; 82 ; 4 ; I1 ; input ; 3.3-V LVTTL ; ; Column I/O ; Y ; no ; Off ;
; 81 ; 83 ; 4 ; I2 ; input ; 3.3-V LVTTL ; ; Column I/O ; Y ; no ; Off ;
; 82 ; 84 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 83 ; ; 4 ; VCCIO4 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 84 ; 85 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 85 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 86 ; 86 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 87 ; 87 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 88 ; 88 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 89 ; 89 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 90 ; 90 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 91 ; ; 4 ; VCCIO4 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 92 ; 91 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 93 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 94 ; 92 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 95 ; 93 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 96 ; 94 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 97 ; 95 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 98 ; ; 4 ; VCCIO4 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 99 ; 96 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 100 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 101 ; 97 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 102 ; 98 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 103 ; 99 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 104 ; 100 ; 4 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 105 ; 101 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 106 ; 102 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 107 ; 105 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 108 ; 106 ; 3 ; ~LVDS54p/nCEO~ ; output ; 3.3-V LVTTL ; ; Row I/O ; N ; no ; Off ;
; 109 ; ; 3 ; VCCIO3 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 110 ; 107 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 111 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 112 ; 108 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 113 ; 109 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 114 ; 110 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 115 ; 112 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 116 ; 113 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 117 ; 114 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 118 ; 117 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 119 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 120 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 121 ; 121 ; 3 ; ^nSTATUS ; ; ; ; -- ; ; -- ; -- ;
; 122 ; ; 3 ; VCCIO3 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 123 ; 122 ; 3 ; ^CONF_DONE ; ; ; ; -- ; ; -- ; -- ;
; 124 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 125 ; 123 ; 3 ; ^MSEL1 ; ; ; ; -- ; ; -- ; -- ;
; 126 ; 124 ; 3 ; ^MSEL0 ; ; ; ; -- ; ; -- ; -- ;
; 127 ; 125 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 128 ; 126 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 129 ; 127 ; 3 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 130 ; 128 ; 3 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 131 ; 129 ; 3 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 132 ; 130 ; 3 ; GND+ ; ; ; ; Row I/O ; ; -- ; -- ;
; 133 ; 131 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 134 ; 132 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 135 ; 133 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 136 ; ; 3 ; VCCIO3 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 137 ; 134 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 138 ; 135 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 139 ; 136 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 140 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 141 ; 137 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 142 ; 138 ; 3 ; Y0 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 143 ; 141 ; 3 ; Y1 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 144 ; 142 ; 3 ; Y2 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 145 ; 143 ; 3 ; Y3 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 146 ; 149 ; 3 ; Y4 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 147 ; 150 ; 3 ; Y5 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 148 ; ; 3 ; VCCIO3 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 149 ; 151 ; 3 ; Y6 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 150 ; 152 ; 3 ; Y7 ; output ; 3.3-V LVTTL ; ; Row I/O ; Y ; no ; Off ;
; 151 ; 153 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 152 ; 154 ; 3 ; RESERVED_INPUT ; ; ; ; Row I/O ; ; no ; Off ;
; 153 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 154 ; ; ; GND_PLL2 ; gnd ; ; ; -- ; ; -- ; -- ;
; 155 ; ; ; VCCD_PLL2 ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 156 ; ; ; GND_PLL2 ; gnd ; ; ; -- ; ; -- ; -- ;
; 157 ; ; ; VCCA_PLL2 ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 158 ; ; ; GNDA_PLL2 ; gnd ; ; ; -- ; ; -- ; -- ;
; 159 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 160 ; 155 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 161 ; 156 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 162 ; 157 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 163 ; 158 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 164 ; 159 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 165 ; 160 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 166 ; ; 2 ; VCCIO2 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 167 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 168 ; 161 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 169 ; 162 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 170 ; 163 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 171 ; 164 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 172 ; ; 2 ; VCCIO2 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 173 ; 165 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 174 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 175 ; 168 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 176 ; 169 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 177 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 178 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 179 ; 173 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 180 ; 174 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 181 ; 175 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 182 ; 176 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 183 ; ; 2 ; VCCIO2 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 184 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 185 ; 180 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 186 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 187 ; 181 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 188 ; 182 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 189 ; 183 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 190 ; ; ; VCCINT ; power ; ; 1.2V ; -- ; ; -- ; -- ;
; 191 ; 184 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 192 ; 185 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 193 ; 186 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 194 ; ; 2 ; VCCIO2 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 195 ; 187 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 196 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 197 ; 191 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 198 ; 192 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 199 ; 195 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 200 ; 196 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 201 ; 197 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 202 ; ; 2 ; VCCIO2 ; power ; ; 3.3V ; -- ; ; -- ; -- ;
; 203 ; 198 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 204 ; ; ; GND ; gnd ; ; ; -- ; ; -- ; -- ;
; 205 ; 199 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 206 ; 200 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 207 ; 201 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
; 208 ; 202 ; 2 ; RESERVED_INPUT ; ; ; ; Column I/O ; ; no ; Off ;
+----------+------------+----------+------------------------------------------+--------+--------------+---------+------------+-----------------+----------+--------------+
Note: Pin directions (input, output or bidir) are based on device operating in user mode.
+-------------------------------------------------------------------------------+
; Output Pin Default Load For Reported TCO ;
+----------------------------------+-------+------------------------------------+
; I/O Standard ; Load ; Termination Resistance ;
+----------------------------------+-------+------------------------------------+
; 3.3-V LVTTL ; 0 pF ; Not Available ;
; 3.3-V LVCMOS ; 0 pF ; Not Available ;
; 2.5 V ; 0 pF ; Not Available ;
; 1.8 V ; 0 pF ; Not Available ;
; 1.5 V ; 0 pF ; Not Available ;
; 3.3-V PCI ; 10 pF ; 25 Ohm (Parallel) ;
; 3.3-V PCI-X ; 10 pF ; 25 Ohm (Parallel) ;
; SSTL-2 Class I ; 0 pF ; 50 Ohm (Parallel), 25 Ohm (Serial) ;
; SSTL-2 Class II ; 0 pF ; 25 Ohm (Parallel), 25 Ohm (Serial) ;
; SSTL-18 Class I ; 0 pF ; 50 Ohm (Parallel), 25 Ohm (Serial) ;
; SSTL-18 Class II ; 0 pF ; 25 Ohm (Parallel), 25 Ohm (Serial) ;
; 1.5-V HSTL Class I ; 0 pF ; 50 Ohm (Parallel) ;
; 1.5-V HSTL Class II ; 0 pF ; 25 Ohm (Parallel) ;
; 1.8-V HSTL Class I ; 0 pF ; 50 Ohm (Parallel) ;
; 1.8-V HSTL Class II ; 0 pF ; 25 Ohm (Parallel) ;
; Differential SSTL-2 ; 0 pF ; (See SSTL-2) ;
; Differential 2.5-V SSTL Class II ; 0 pF ; (See SSTL-2 Class II) ;
; Differential 1.8-V SSTL Class I ; 0 pF ; (See 1.8-V SSTL Class I) ;
; Differential 1.8-V SSTL Class II ; 0 pF ; (See 1.8-V SSTL Class II) ;
; Differential 1.5-V HSTL Class I ; 0 pF ; (See 1.5-V HSTL Class I) ;
; Differential 1.5-V HSTL Class II ; 0 pF ; (See 1.5-V HSTL Class II) ;
; Differential 1.8-V HSTL Class I ; 0 pF ; (See 1.8-V HSTL Class I) ;
; Differential 1.8-V HSTL Class II ; 0 pF ; (See 1.8-V HSTL Class II) ;
; LVDS ; 0 pF ; 100 Ohm (Differential) ;
; mini-LVDS ; 0 pF ; 100 Ohm (Differential) ;
; RSDS ; 0 pF ; 100 Ohm (Differential) ;
; Simple RSDS ; 0 pF ; Not Available ;
; Differential LVPECL ; 0 pF ; 100 Ohm (Differential) ;
+----------------------------------+-------+------------------------------------+
Note: User assignments will override these defaults. The user specified values are listed in the Output Pins and Bidir Pins tables.
+-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Fitter Resource Utilization by Entity ;
+----------------------------+-------------+---------------------------+---------------+-------------+------+--------------+---------+-----------+------+--------------+--------------+-------------------+------------------+---------------------+--------------+
; Compilation Hierarchy Node ; Logic Cells ; Dedicated Logic Registers ; I/O Registers ; Memory Bits ; M4Ks ; DSP Elements ; DSP 9x9 ; DSP 18x18 ; Pins ; Virtual Pins ; LUT-Only LCs ; Register-Only LCs ; LUT/Register LCs ; Full Hierarchy Name ; Library Name ;
+----------------------------+-------------+---------------------------+---------------+-------------+------+--------------+---------+-----------+------+--------------+--------------+-------------------+------------------+---------------------+--------------+
; |38_decoder ; 8 (8) ; 0 (0) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 11 ; 0 ; 8 (8) ; 0 (0) ; 0 (0) ; |38_decoder ; work ;
+----------------------------+-------------+---------------------------+---------------+-------------+------+--------------+---------+-----------+------+--------------+--------------+-------------------+------------------+---------------------+--------------+
Note: For table entries with two numbers listed, the numbers in parentheses indicate the number of resources of the given type used by the specific entity alone. The numbers listed outside of parentheses indicate the total resources of the given type used by the specific entity and all of its sub-entities in the hierarchy.
+-------------------------------------------------------------------------------+
; Delay Chain Summary ;
+------+----------+---------------+---------------+-----------------------+-----+
; Name ; Pin Type ; Pad to Core 0 ; Pad to Core 1 ; Pad to Input Register ; TCO ;
+------+----------+---------------+---------------+-----------------------+-----+
; Y7 ; Output ; -- ; -- ; -- ; -- ;
; Y0 ; Output ; -- ; -- ; -- ; -- ;
; Y1 ; Output ; -- ; -- ; -- ; -- ;
; Y2 ; Output ; -- ; -- ; -- ; -- ;
; Y3 ; Output ; -- ; -- ; -- ; -- ;
; Y4 ; Output ; -- ; -- ; -- ; -- ;
; Y5 ; Output ; -- ; -- ; -- ; -- ;
; Y6 ; Output ; -- ; -- ; -- ; -- ;
; I2 ; Input ; 6 ; 6 ; -- ; -- ;
; I0 ; Input ; 6 ; 6 ; -- ; -- ;
; I1 ; Input ; 6 ; 6 ; -- ; -- ;
+------+----------+---------------+---------------+-----------------------+-----+
+---------------------------------------------------+
; Pad To Core Delay Chain Fanout ;
+---------------------+-------------------+---------+
; Source Pin / Fanout ; Pad To Core Index ; Setting ;
+---------------------+-------------------+---------+
; I2 ; ; ;
; - inst10~0 ; 0 ; 6 ;
; - inst10~1 ; 0 ; 6 ;
; - inst10~2 ; 0 ; 6 ;
; - inst10~3 ; 0 ; 6 ;
; - inst10~4 ; 0 ; 6 ;
; - inst10~5 ; 0 ; 6 ;
; - inst10~6 ; 0 ; 6 ;
; - inst10~7 ; 0 ; 6 ;
; I0 ; ; ;
; - inst10~0 ; 1 ; 6 ;
; - inst10~1 ; 1 ; 6 ;
; - inst10~2 ; 1 ; 6 ;
; - inst10~3 ; 1 ; 6 ;
; - inst10~4 ; 1 ; 6 ;
; - inst10~5 ; 1 ; 6 ;
; - inst10~6 ; 1 ; 6 ;
; - inst10~7 ; 1 ; 6 ;
; I1 ; ; ;
; - inst10~0 ; 1 ; 6 ;
; - inst10~1 ; 1 ; 6 ;
; - inst10~2 ; 1 ; 6 ;
; - inst10~3 ; 1 ; 6 ;
; - inst10~4 ; 1 ; 6 ;
; - inst10~5 ; 1 ; 6 ;
; - inst10~6 ; 1 ; 6 ;
; - inst10~7 ; 1 ; 6 ;
+---------------------+-------------------+---------+
+---------------------------------+
; Non-Global High Fan-Out Signals ;
+----------+----------------------+
; Name ; Fan-Out ;
+----------+----------------------+
; I1 ; 8 ;
; I0 ; 8 ;
; I2 ; 8 ;
; inst10~7 ; 1 ;
; inst10~6 ; 1 ;
; inst10~5 ; 1 ;
; inst10~4 ; 1 ;
; inst10~3 ; 1 ;
; inst10~2 ; 1 ;
; inst10~1 ; 1 ;
; inst10~0 ; 1 ;
+----------+----------------------+
+----------------------------------------------------+
; Interconnect Usage Summary ;
+----------------------------+-----------------------+
; Interconnect Resource Type ; Usage ;
+----------------------------+-----------------------+
; Block interconnects ; 11 / 26,052 ( < 1 % ) ;
; C16 interconnects ; 4 / 1,156 ( < 1 % ) ;
; C4 interconnects ; 9 / 17,952 ( < 1 % ) ;
; Direct links ; 2 / 26,052 ( < 1 % ) ;
; Global clocks ; 0 / 8 ( 0 % ) ;
; Local interconnects ; 0 / 8,256 ( 0 % ) ;
; R24 interconnects ; 3 / 1,020 ( < 1 % ) ;
; R4 interconnects ; 1 / 22,440 ( < 1 % ) ;
+----------------------------+-----------------------+
+--------------------------------------------------------------------------+
; LAB Logic Elements ;
+--------------------------------------------+-----------------------------+
; Number of Logic Elements (Average = 8.00) ; Number of LABs (Total = 1) ;
+--------------------------------------------+-----------------------------+
; 1 ; 0 ;
; 2 ; 0 ;
; 3 ; 0 ;
; 4 ; 0 ;
; 5 ; 0 ;
; 6 ; 0 ;
; 7 ; 0 ;
; 8 ; 1 ;
; 9 ; 0 ;
; 10 ; 0 ;
; 11 ; 0 ;
; 12 ; 0 ;
; 13 ; 0 ;
; 14 ; 0 ;
; 15 ; 0 ;
; 16 ; 0 ;
+--------------------------------------------+-----------------------------+
+---------------------------------------------------------------------------+
; LAB Signals Sourced ;
+---------------------------------------------+-----------------------------+
; Number of Signals Sourced (Average = 8.00) ; Number of LABs (Total = 1) ;
+---------------------------------------------+-----------------------------+
; 0 ; 0 ;
; 1 ; 0 ;
; 2 ; 0 ;
; 3 ; 0 ;
; 4 ; 0 ;
; 5 ; 0 ;
; 6 ; 0 ;
; 7 ; 0 ;
; 8 ; 1 ;
+---------------------------------------------+-----------------------------+
+-------------------------------------------------------------------------------+
; LAB Signals Sourced Out ;
+-------------------------------------------------+-----------------------------+
; Number of Signals Sourced Out (Average = 8.00) ; Number of LABs (Total = 1) ;
+-------------------------------------------------+-----------------------------+
; 0 ; 0 ;
; 1 ; 0 ;
; 2 ; 0 ;
; 3 ; 0 ;
; 4 ; 0 ;
; 5 ; 0 ;
; 6 ; 0 ;
; 7 ; 0 ;
; 8 ; 1 ;
+-------------------------------------------------+-----------------------------+
+---------------------------------------------------------------------------+
; LAB Distinct Inputs ;
+---------------------------------------------+-----------------------------+
; Number of Distinct Inputs (Average = 3.00) ; Number of LABs (Total = 1) ;
+---------------------------------------------+-----------------------------+
; 0 ; 0 ;
; 1 ; 0 ;
; 2 ; 0 ;
; 3 ; 1 ;
+---------------------------------------------+-----------------------------+
+-------------------------------------------------------------------------+
; Fitter Device Options ;
+----------------------------------------------+--------------------------+
; Option ; Setting ;
+----------------------------------------------+--------------------------+
; Enable user-supplied start-up clock (CLKUSR) ; Off ;
; Enable device-wide reset (DEV_CLRn) ; Off ;
; Enable device-wide output enable (DEV_OE) ; Off ;
; Enable INIT_DONE output ; Off ;
; Configuration scheme ; Active Serial ;
; Error detection CRC ; Off ;
; nCEO ; As output driving ground ;
; ASDO,nCSO ; As input tri-stated ;
; Reserve all unused pins ; As input tri-stated ;
; Base pin-out file on sameframe device ; Off ;
+----------------------------------------------+--------------------------+
+------------------------------------+
; Operating Settings and Conditions ;
+---------------------------+--------+
; Setting ; Value ;
+---------------------------+--------+
; Nominal Core Voltage ; 1.20 V ;
; Low Junction Temperature ; 0 °C ;
; High Junction Temperature ; 85 °C ;
+---------------------------+--------+
+------------------------------------------------------------+
; Estimated Delay Added for Hold Timing ;
+-----------------+----------------------+-------------------+
; Source Clock(s) ; Destination Clock(s) ; Delay Added in ns ;
+-----------------+----------------------+-------------------+
+----------------------------+
; Advanced Data - General ;
+--------------------+-------+
; Name ; Value ;
+--------------------+-------+
; Status Code ; 0 ;
; Desired User Slack ; 0 ;
; Fit Attempts ; 1 ;
+--------------------+-------+
+-------------------------------------------------------------------------------+
; Advanced Data - Placement Preparation ;
+------------------------------------------------------------------+------------+
; Name ; Value ;
+------------------------------------------------------------------+------------+
; Auto Fit Point 1 - Fit Attempt 1 ; ff ;
; Mid Wire Use - Fit Attempt 1 ; 0 ;
; Mid Slack - Fit Attempt 1 ; 2147483639 ;
; Internal Atom Count - Fit Attempt 1 ; 9 ;
; LE/ALM Count - Fit Attempt 1 ; 9 ;
; LAB Count - Fit Attempt 1 ; 2 ;
; Outputs per Lab - Fit Attempt 1 ; 4.000 ;
; Inputs per LAB - Fit Attempt 1 ; 1.500 ;
; Global Inputs per LAB - Fit Attempt 1 ; 0.000 ;
; LAB Constraint 'non-global clock + sync load' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'non-global controls' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'non-global + aclr' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'global non-clock non-aclr' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'global controls' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'deterministic LABSMUXA/LABXMUXB' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'deterministic LABSMUXC/LABXMUXD' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'clock / ce pair constraint' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'aclr constraint' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'true sload_sclear pair' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'constant sload_sclear pair' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'has placement constraint' - Fit Attempt 1 ; 0:2 ;
; LAB Constraint 'group hierarchy constraint' - Fit Attempt 1 ; 0:1;1:1 ;
; LEs in Chains - Fit Attempt 1 ; 0 ;
; LEs in Long Chains - Fit Attempt 1 ; 0 ;
; LABs with Chains - Fit Attempt 1 ; 0 ;
; LABs with Multiple Chains - Fit Attempt 1 ; 0 ;
; Time - Fit Attempt 1 ; 0 ;
+------------------------------------------------------------------+------------+
+-------------------------------------------------+
; Advanced Data - Placement ;
+------------------------------------+------------+
; Name ; Value ;
+------------------------------------+------------+
; Auto Fit Point 2 - Fit Attempt 1 ; ff ;
; Auto Fit Point 5 - Fit Attempt 1 ; ff ;
; Mid Wire Use - Fit Attempt 1 ; 0 ;
; Mid Slack - Fit Attempt 1 ; 2147483639 ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Auto Fit Point 5 - Fit Attempt 1 ; ff ;
; Mid Wire Use - Fit Attempt 1 ; 0 ;
; Mid Slack - Fit Attempt 1 ; 2147483639 ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Auto Fit Point 6 - Fit Attempt 1 ; ff ;
; Late Wire Use - Fit Attempt 1 ; 0 ;
; Late Slack - Fit Attempt 1 ; 2147483639 ;
; Peak Regional Wire - Fit Attempt 1 ; 0.000 ;
; Auto Fit Point 7 - Fit Attempt 1 ; ff ;
; Time - Fit Attempt 1 ; 0 ;
+------------------------------------+------------+
+--------------------------------------------------+
; Advanced Data - Routing ;
+------------------------------------+-------------+
; Name ; Value ;
+------------------------------------+-------------+
; Early Slack - Fit Attempt 1 ; 2147483639 ;
; Mid Slack - Fit Attempt 1 ; 2147483639 ;
; Late Slack - Fit Attempt 1 ; -2147483648 ;
; Early Wire Use - Fit Attempt 1 ; 0 ;
; Peak Regional Wire - Fit Attempt 1 ; 0 ;
; Late Wire Use - Fit Attempt 1 ; 0 ;
; Time - Fit Attempt 1 ; 0 ;
+------------------------------------+-------------+
+-----------------+
; Fitter Messages ;
+-----------------+
Info: *******************************************************************
Info: Running Quartus II Fitter
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Tue Mar 08 15:12:39 2022
Info: Command: quartus_fit --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder
Info: Parallel compilation is enabled and will use 4 of the 4 processors detected
Info: Selected device EP2C8Q208C8 for design "38_decoder"
Info: Low junction temperature is 0 degrees C
Info: High junction temperature is 85 degrees C
Info: Fitter is performing an Auto Fit compilation, which may decrease Fitter effort to reduce compilation time
Info: Device migration not selected. If you intend to use device migration later, you may need to change the pin assignments as they may be incompatible with other devices
Info: Device EP2C5Q208C8 is compatible
Info: Device EP2C5Q208I8 is compatible
Info: Device EP2C8Q208I8 is compatible
Info: Fitter converted 3 user pins into dedicated programming pins
Info: Pin ~ASDO~ is reserved at location 1
Info: Pin ~nCSO~ is reserved at location 2
Info: Pin ~LVDS54p/nCEO~ is reserved at location 108
Info: Fitter is using the Classic Timing Analyzer
Info: Timing requirements not specified -- quality metrics such as performance and power consumption may be sacrificed to reduce compilation time.
Info: Starting register packing
Info: Finished register packing
Extra Info: No registers were packed into other blocks
Info: Fitter preparation operations ending: elapsed time is 00:00:00
Info: Fitter placement preparation operations beginning
Info: Fitter placement preparation operations ending: elapsed time is 00:00:00
Info: Fitter placement operations beginning
Info: Fitter placement was successful
Info: Fitter placement operations ending: elapsed time is 00:00:00
Info: Fitter routing operations beginning
Info: Average interconnect usage is 0% of the available device resources
Info: Peak interconnect usage is 0% of the available device resources in the region that extends from location X23_Y10 to location X34_Y19
Info: Fitter routing operations ending: elapsed time is 00:00:00
Info: The Fitter performed an Auto Fit compilation. Optimizations were skipped to reduce compilation time.
Info: Optimizations that may affect the design's routability were skipped
Info: Optimizations that may affect the design's timing were skipped
Info: Started post-fitting delay annotation
Warning: Found 8 output pins without output pin load capacitance assignment
Info: Pin "Y7" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y0" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y1" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y2" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y3" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y4" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y5" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Pin "Y6" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis
Info: Delay annotation completed successfully
Info: Generated suppressed messages file D:/projects/quartus/38_decoder/38_decoder.fit.smsg
Info: Quartus II Fitter was successful. 0 errors, 1 warning
Info: Peak virtual memory: 305 megabytes
Info: Processing ended: Tue Mar 08 15:12:40 2022
Info: Elapsed time: 00:00:01
Info: Total CPU time (on all processors): 00:00:01
+----------------------------+
; Fitter Suppressed Messages ;
+----------------------------+
The suppressed messages can be found in D:/projects/quartus/38_decoder/38_decoder.fit.smsg.

6
38_decoder/38_decoder.fit.smsg
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@ -1,6 +0,0 @@
Extra Info: Performing register packing on registers with non-logic cell location assignments
Extra Info: Completed register packing on registers with non-logic cell location assignments
Extra Info: Started Fast Input/Output/OE register processing
Extra Info: Finished Fast Input/Output/OE register processing
Extra Info: Moving registers into I/O cells, Multiplier Blocks, and RAM blocks to improve timing and density
Extra Info: Finished moving registers into I/O cells, Multiplier Blocks, and RAM blocks

16
38_decoder/38_decoder.fit.summary
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Fitter Status : Successful - Tue Mar 08 15:12:40 2022
Quartus II Version : 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition
Revision Name : 38_decoder
Top-level Entity Name : 38_decoder
Family : Cyclone II
Device : EP2C8Q208C8
Timing Models : Final
Total logic elements : 8 / 8,256 ( < 1 % )
Total combinational functions : 8 / 8,256 ( < 1 % )
Dedicated logic registers : 0 / 8,256 ( 0 % )
Total registers : 0
Total pins : 11 / 138 ( 8 % )
Total virtual pins : 0
Total memory bits : 0 / 165,888 ( 0 % )
Embedded Multiplier 9-bit elements : 0 / 36 ( 0 % )
Total PLLs : 0 / 2 ( 0 % )

121
38_decoder/38_decoder.flow.rpt
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Flow report for 38_decoder
Tue Mar 08 15:12:42 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Flow Summary
3. Flow Settings
4. Flow Non-Default Global Settings
5. Flow Elapsed Time
6. Flow OS Summary
7. Flow Log
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------+
; Flow Summary ;
+------------------------------------+----------------------------------------------+
; Flow Status ; Successful - Tue Mar 08 15:12:42 2022 ;
; Quartus II Version ; 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition ;
; Revision Name ; 38_decoder ;
; Top-level Entity Name ; 38_decoder ;
; Family ; Cyclone II ;
; Device ; EP2C8Q208C8 ;
; Timing Models ; Final ;
; Met timing requirements ; Yes ;
; Total logic elements ; 8 / 8,256 ( < 1 % ) ;
; Total combinational functions ; 8 / 8,256 ( < 1 % ) ;
; Dedicated logic registers ; 0 / 8,256 ( 0 % ) ;
; Total registers ; 0 ;
; Total pins ; 11 / 138 ( 8 % ) ;
; Total virtual pins ; 0 ;
; Total memory bits ; 0 / 165,888 ( 0 % ) ;
; Embedded Multiplier 9-bit elements ; 0 / 36 ( 0 % ) ;
; Total PLLs ; 0 / 2 ( 0 % ) ;
+------------------------------------+----------------------------------------------+
+-----------------------------------------+
; Flow Settings ;
+-------------------+---------------------+
; Option ; Setting ;
+-------------------+---------------------+
; Start date & time ; 03/08/2022 15:12:38 ;
; Main task ; Compilation ;
; Revision Name ; 38_decoder ;
+-------------------+---------------------+
+-----------------------------------------------------------------------------------------------------------------------------------+
; Flow Non-Default Global Settings ;
+------------------------------------+-----------------------------------------------+---------------+-------------+----------------+
; Assignment Name ; Value ; Default Value ; Entity Name ; Section Id ;
+------------------------------------+-----------------------------------------------+---------------+-------------+----------------+
; COMPILER_SIGNATURE_ID ; 220283517943889.164672355814724 ; -- ; -- ; -- ;
; MAX_CORE_JUNCTION_TEMP ; 85 ; -- ; -- ; -- ;
; MIN_CORE_JUNCTION_TEMP ; 0 ; -- ; -- ; -- ;
; MISC_FILE ; D:/projects/quartus/38_decoder/38_decoder.dpf ; -- ; -- ; -- ;
; PARTITION_COLOR ; 16764057 ; -- ; -- ; Top ;
; PARTITION_NETLIST_TYPE ; SOURCE ; -- ; -- ; Top ;
; USE_GENERATED_PHYSICAL_CONSTRAINTS ; Off ; -- ; -- ; eda_blast_fpga ;
+------------------------------------+-----------------------------------------------+---------------+-------------+----------------+
+-----------------------------------------------------------------------------------------------------------------------------+
; Flow Elapsed Time ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
; Module Name ; Elapsed Time ; Average Processors Used ; Peak Virtual Memory ; Total CPU Time (on all processors) ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
; Analysis & Synthesis ; 00:00:00 ; 1.0 ; 246 MB ; 00:00:00 ;
; Fitter ; 00:00:01 ; 1.0 ; 305 MB ; 00:00:01 ;
; Assembler ; 00:00:00 ; 1.0 ; 241 MB ; 00:00:00 ;
; Classic Timing Analyzer ; 00:00:00 ; 1.0 ; 198 MB ; 00:00:00 ;
; Total ; 00:00:01 ; -- ; -- ; 00:00:01 ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
+------------------------------------------------------------------------------------------+
; Flow OS Summary ;
+-------------------------+------------------+---------------+------------+----------------+
; Module Name ; Machine Hostname ; OS Name ; OS Version ; Processor type ;
+-------------------------+------------------+---------------+------------+----------------+
; Analysis & Synthesis ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Fitter ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Assembler ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Classic Timing Analyzer ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
+-------------------------+------------------+---------------+------------+----------------+
------------
; Flow Log ;
------------
quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder
quartus_fit --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder
quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder
quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only

218
38_decoder/38_decoder.map.rpt
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@ -1,218 +0,0 @@
Analysis & Synthesis report for 38_decoder
Tue Mar 08 15:12:38 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Analysis & Synthesis Summary
3. Analysis & Synthesis Settings
4. Analysis & Synthesis Source Files Read
5. Analysis & Synthesis Resource Usage Summary
6. Analysis & Synthesis Resource Utilization by Entity
7. General Register Statistics
8. Analysis & Synthesis Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------+
; Analysis & Synthesis Summary ;
+------------------------------------+----------------------------------------------+
; Analysis & Synthesis Status ; Successful - Tue Mar 08 15:12:38 2022 ;
; Quartus II Version ; 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition ;
; Revision Name ; 38_decoder ;
; Top-level Entity Name ; 38_decoder ;
; Family ; Cyclone II ;
; Total logic elements ; 8 ;
; Total combinational functions ; 8 ;
; Dedicated logic registers ; 0 ;
; Total registers ; 0 ;
; Total pins ; 11 ;
; Total virtual pins ; 0 ;
; Total memory bits ; 0 ;
; Embedded Multiplier 9-bit elements ; 0 ;
; Total PLLs ; 0 ;
+------------------------------------+----------------------------------------------+
+--------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Settings ;
+--------------------------------------------------------------+--------------------+--------------------+
; Option ; Setting ; Default Value ;
+--------------------------------------------------------------+--------------------+--------------------+
; Device ; EP2C8Q208C8 ; ;
; Top-level entity name ; 38_decoder ; 38_decoder ;
; Family name ; Cyclone II ; Stratix II ;
; Use Generated Physical Constraints File ; Off ; ;
; Use smart compilation ; Off ; Off ;
; Restructure Multiplexers ; Auto ; Auto ;
; Create Debugging Nodes for IP Cores ; Off ; Off ;
; Preserve fewer node names ; On ; On ;
; Disable OpenCore Plus hardware evaluation ; Off ; Off ;
; Verilog Version ; Verilog_2001 ; Verilog_2001 ;
; VHDL Version ; VHDL93 ; VHDL93 ;
; State Machine Processing ; Auto ; Auto ;
; Safe State Machine ; Off ; Off ;
; Extract Verilog State Machines ; On ; On ;
; Extract VHDL State Machines ; On ; On ;
; Ignore Verilog initial constructs ; Off ; Off ;
; Iteration limit for constant Verilog loops ; 5000 ; 5000 ;
; Iteration limit for non-constant Verilog loops ; 250 ; 250 ;
; Add Pass-Through Logic to Inferred RAMs ; On ; On ;
; Parallel Synthesis ; Off ; Off ;
; DSP Block Balancing ; Auto ; Auto ;
; NOT Gate Push-Back ; On ; On ;
; Power-Up Don't Care ; On ; On ;
; Remove Redundant Logic Cells ; Off ; Off ;
; Remove Duplicate Registers ; On ; On ;
; Ignore CARRY Buffers ; Off ; Off ;
; Ignore CASCADE Buffers ; Off ; Off ;
; Ignore GLOBAL Buffers ; Off ; Off ;
; Ignore ROW GLOBAL Buffers ; Off ; Off ;
; Ignore LCELL Buffers ; Off ; Off ;
; Ignore SOFT Buffers ; On ; On ;
; Limit AHDL Integers to 32 Bits ; Off ; Off ;
; Optimization Technique ; Balanced ; Balanced ;
; Carry Chain Length ; 70 ; 70 ;
; Auto Carry Chains ; On ; On ;
; Auto Open-Drain Pins ; On ; On ;
; Perform WYSIWYG Primitive Resynthesis ; Off ; Off ;
; Auto ROM Replacement ; On ; On ;
; Auto RAM Replacement ; On ; On ;
; Auto Shift Register Replacement ; Auto ; Auto ;
; Auto Clock Enable Replacement ; On ; On ;
; Strict RAM Replacement ; Off ; Off ;
; Allow Synchronous Control Signals ; On ; On ;
; Force Use of Synchronous Clear Signals ; Off ; Off ;
; Auto RAM to Logic Cell Conversion ; Off ; Off ;
; Auto Resource Sharing ; Off ; Off ;
; Allow Any RAM Size For Recognition ; Off ; Off ;
; Allow Any ROM Size For Recognition ; Off ; Off ;
; Allow Any Shift Register Size For Recognition ; Off ; Off ;
; Use LogicLock Constraints during Resource Balancing ; On ; On ;
; Ignore translate_off and synthesis_off directives ; Off ; Off ;
; Timing-Driven Synthesis ; Off ; Off ;
; Show Parameter Settings Tables in Synthesis Report ; On ; On ;
; Ignore Maximum Fan-Out Assignments ; Off ; Off ;
; Synchronization Register Chain Length ; 2 ; 2 ;
; PowerPlay Power Optimization ; Normal compilation ; Normal compilation ;
; HDL message level ; Level2 ; Level2 ;
; Suppress Register Optimization Related Messages ; Off ; Off ;
; Number of Removed Registers Reported in Synthesis Report ; 100 ; 100 ;
; Number of Inverted Registers Reported in Synthesis Report ; 100 ; 100 ;
; Clock MUX Protection ; On ; On ;
; Auto Gated Clock Conversion ; Off ; Off ;
; Block Design Naming ; Auto ; Auto ;
; SDC constraint protection ; Off ; Off ;
; Synthesis Effort ; Auto ; Auto ;
; Shift Register Replacement - Allow Asynchronous Clear Signal ; On ; On ;
; Analysis & Synthesis Message Level ; Medium ; Medium ;
+--------------------------------------------------------------+--------------------+--------------------+
+-----------------------------------------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Source Files Read ;
+----------------------------------+-----------------+------------------------------------+-----------------------------------------------+
; File Name with User-Entered Path ; Used in Netlist ; File Type ; File Name with Absolute Path ;
+----------------------------------+-----------------+------------------------------------+-----------------------------------------------+
; 38_decoder.bdf ; yes ; User Block Diagram/Schematic File ; D:/projects/quartus/38_decoder/38_decoder.bdf ;
+----------------------------------+-----------------+------------------------------------+-----------------------------------------------+
+-----------------------------------------------------+
; Analysis & Synthesis Resource Usage Summary ;
+---------------------------------------------+-------+
; Resource ; Usage ;
+---------------------------------------------+-------+
; Estimated Total logic elements ; 8 ;
; ; ;
; Total combinational functions ; 8 ;
; Logic element usage by number of LUT inputs ; ;
; -- 4 input functions ; 0 ;
; -- 3 input functions ; 8 ;
; -- <=2 input functions ; 0 ;
; ; ;
; Logic elements by mode ; ;
; -- normal mode ; 8 ;
; -- arithmetic mode ; 0 ;
; ; ;
; Total registers ; 0 ;
; -- Dedicated logic registers ; 0 ;
; -- I/O registers ; 0 ;
; ; ;
; I/O pins ; 11 ;
; Maximum fan-out node ; I2 ;
; Maximum fan-out ; 8 ;
; Total fan-out ; 32 ;
; Average fan-out ; 1.68 ;
+---------------------------------------------+-------+
+-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Resource Utilization by Entity ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+---------------------+--------------+
; Compilation Hierarchy Node ; LC Combinationals ; LC Registers ; Memory Bits ; DSP Elements ; DSP 9x9 ; DSP 18x18 ; Pins ; Virtual Pins ; Full Hierarchy Name ; Library Name ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+---------------------+--------------+
; |38_decoder ; 8 (8) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 11 ; 0 ; |38_decoder ; work ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+---------------------+--------------+
Note: For table entries with two numbers listed, the numbers in parentheses indicate the number of resources of the given type used by the specific entity alone. The numbers listed outside of parentheses indicate the total resources of the given type used by the specific entity and all of its sub-entities in the hierarchy.
+------------------------------------------------------+
; General Register Statistics ;
+----------------------------------------------+-------+
; Statistic ; Value ;
+----------------------------------------------+-------+
; Total registers ; 0 ;
; Number of registers using Synchronous Clear ; 0 ;
; Number of registers using Synchronous Load ; 0 ;
; Number of registers using Asynchronous Clear ; 0 ;
; Number of registers using Asynchronous Load ; 0 ;
; Number of registers using Clock Enable ; 0 ;
; Number of registers using Preset ; 0 ;
+----------------------------------------------+-------+
+-------------------------------+
; Analysis & Synthesis Messages ;
+-------------------------------+
Info: *******************************************************************
Info: Running Quartus II Analysis & Synthesis
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Tue Mar 08 15:12:38 2022
Info: Command: quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder
Info: Found 1 design units, including 1 entities, in source file 38_decoder.bdf
Info: Found entity 1: 38_decoder
Info: Elaborating entity "38_decoder" for the top level hierarchy
Info: Implemented 19 device resources after synthesis - the final resource count might be different
Info: Implemented 3 input pins
Info: Implemented 8 output pins
Info: Implemented 8 logic cells
Info: Quartus II Analysis & Synthesis was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 250 megabytes
Info: Processing ended: Tue Mar 08 15:12:38 2022
Info: Elapsed time: 00:00:00
Info: Total CPU time (on all processors): 00:00:00

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Analysis & Synthesis Status : Successful - Tue Mar 08 15:12:38 2022
Quartus II Version : 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition
Revision Name : 38_decoder
Top-level Entity Name : 38_decoder
Family : Cyclone II
Total logic elements : 8
Total combinational functions : 8
Dedicated logic registers : 0
Total registers : 0
Total pins : 11
Total virtual pins : 0
Total memory bits : 0
Embedded Multiplier 9-bit elements : 0
Total PLLs : 0

278
38_decoder/38_decoder.pin
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@ -1,278 +0,0 @@
-- Copyright (C) 1991-2009 Altera Corporation
-- Your use of Altera Corporation's design tools, logic functions
-- and other software and tools, and its AMPP partner logic
-- functions, and any output files from any of the foregoing
-- (including device programming or simulation files), and any
-- associated documentation or information are expressly subject
-- to the terms and conditions of the Altera Program License
-- Subscription Agreement, Altera MegaCore Function License
-- Agreement, or other applicable license agreement, including,
-- without limitation, that your use is for the sole purpose of
-- programming logic devices manufactured by Altera and sold by
-- Altera or its authorized distributors. Please refer to the
-- applicable agreement for further details.
--
-- This is a Quartus II output file. It is for reporting purposes only, and is
-- not intended for use as a Quartus II input file. This file cannot be used
-- to make Quartus II pin assignments - for instructions on how to make pin
-- assignments, please see Quartus II help.
---------------------------------------------------------------------------------
---------------------------------------------------------------------------------
-- NC : No Connect. This pin has no internal connection to the device.
-- DNU : Do Not Use. This pin MUST NOT be connected.
-- VCCINT : Dedicated power pin, which MUST be connected to VCC (1.2V).
-- VCCIO : Dedicated power pin, which MUST be connected to VCC
-- of its bank.
-- Bank 1: 3.3V
-- Bank 2: 3.3V
-- Bank 3: 3.3V
-- Bank 4: 3.3V
-- GND : Dedicated ground pin. Dedicated GND pins MUST be connected to GND.
-- It can also be used to report unused dedicated pins. The connection
-- on the board for unused dedicated pins depends on whether this will
-- be used in a future design. One example is device migration. When
-- using device migration, refer to the device pin-tables. If it is a
-- GND pin in the pin table or if it will not be used in a future design
-- for another purpose the it MUST be connected to GND. If it is an unused
-- dedicated pin, then it can be connected to a valid signal on the board
-- (low, high, or toggling) if that signal is required for a different
-- revision of the design.
-- GND+ : Unused input pin. It can also be used to report unused dual-purpose pins.
-- This pin should be connected to GND. It may also be connected to a
-- valid signal on the board (low, high, or toggling) if that signal
-- is required for a different revision of the design.
-- GND* : Unused I/O pin. For transceiver I/O banks (Bank 13, 14, 15, 16 and 17),
-- connect each pin marked GND* either individually through a 10k Ohm resistor
-- to GND or tie all pins together and connect through a single 10k Ohm resistor
-- to GND.
-- For non-transceiver I/O banks, connect each pin marked GND* directly to GND
-- or leave it unconnected.
-- RESERVED : Unused I/O pin, which MUST be left unconnected.
-- RESERVED_INPUT : Pin is tri-stated and should be connected to the board.
-- RESERVED_INPUT_WITH_WEAK_PULLUP : Pin is tri-stated with internal weak pull-up resistor.
-- RESERVED_INPUT_WITH_BUS_HOLD : Pin is tri-stated with bus-hold circuitry.
-- RESERVED_OUTPUT_DRIVEN_HIGH : Pin is output driven high.
---------------------------------------------------------------------------------
---------------------------------------------------------------------------------
-- Pin directions (input, output or bidir) are based on device operating in user mode.
---------------------------------------------------------------------------------
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
CHIP "38_decoder" ASSIGNED TO AN: EP2C8Q208C8
Pin Name/Usage : Location : Dir. : I/O Standard : Voltage : I/O Bank : User Assignment
-------------------------------------------------------------------------------------------------------------
~ASDO~ / RESERVED_INPUT_WITH_WEAK_PULLUP : 1 : input : 3.3-V LVTTL : : 1 : N
~nCSO~ / RESERVED_INPUT_WITH_WEAK_PULLUP : 2 : input : 3.3-V LVTTL : : 1 : N
RESERVED_INPUT : 3 : : : : 1 :
RESERVED_INPUT : 4 : : : : 1 :
RESERVED_INPUT : 5 : : : : 1 :
RESERVED_INPUT : 6 : : : : 1 :
VCCIO1 : 7 : power : : 3.3V : 1 :
RESERVED_INPUT : 8 : : : : 1 :
GND : 9 : gnd : : : :
RESERVED_INPUT : 10 : : : : 1 :
RESERVED_INPUT : 11 : : : : 1 :
RESERVED_INPUT : 12 : : : : 1 :
RESERVED_INPUT : 13 : : : : 1 :
RESERVED_INPUT : 14 : : : : 1 :
RESERVED_INPUT : 15 : : : : 1 :
TDO : 16 : output : : : 1 :
TMS : 17 : input : : : 1 :
TCK : 18 : input : : : 1 :
TDI : 19 : input : : : 1 :
DATA0 : 20 : input : : : 1 :
DCLK : 21 : : : : 1 :
nCE : 22 : : : : 1 :
GND+ : 23 : : : : 1 :
GND+ : 24 : : : : 1 :
GND : 25 : gnd : : : :
nCONFIG : 26 : : : : 1 :
GND+ : 27 : : : : 1 :
GND+ : 28 : : : : 1 :
VCCIO1 : 29 : power : : 3.3V : 1 :
RESERVED_INPUT : 30 : : : : 1 :
RESERVED_INPUT : 31 : : : : 1 :
VCCINT : 32 : power : : 1.2V : :
RESERVED_INPUT : 33 : : : : 1 :
RESERVED_INPUT : 34 : : : : 1 :
RESERVED_INPUT : 35 : : : : 1 :
GND : 36 : gnd : : : :
RESERVED_INPUT : 37 : : : : 1 :
GND : 38 : gnd : : : :
RESERVED_INPUT : 39 : : : : 1 :
RESERVED_INPUT : 40 : : : : 1 :
RESERVED_INPUT : 41 : : : : 1 :
VCCIO1 : 42 : power : : 3.3V : 1 :
RESERVED_INPUT : 43 : : : : 1 :
RESERVED_INPUT : 44 : : : : 1 :
RESERVED_INPUT : 45 : : : : 1 :
RESERVED_INPUT : 46 : : : : 1 :
RESERVED_INPUT : 47 : : : : 1 :
RESERVED_INPUT : 48 : : : : 1 :
GND : 49 : gnd : : : :
GND_PLL1 : 50 : gnd : : : :
VCCD_PLL1 : 51 : power : : 1.2V : :
GND_PLL1 : 52 : gnd : : : :
VCCA_PLL1 : 53 : power : : 1.2V : :
GNDA_PLL1 : 54 : gnd : : : :
GND : 55 : gnd : : : :
RESERVED_INPUT : 56 : : : : 4 :
RESERVED_INPUT : 57 : : : : 4 :
RESERVED_INPUT : 58 : : : : 4 :
RESERVED_INPUT : 59 : : : : 4 :
RESERVED_INPUT : 60 : : : : 4 :
RESERVED_INPUT : 61 : : : : 4 :
VCCIO4 : 62 : power : : 3.3V : 4 :
RESERVED_INPUT : 63 : : : : 4 :
RESERVED_INPUT : 64 : : : : 4 :
GND : 65 : gnd : : : :
VCCINT : 66 : power : : 1.2V : :
RESERVED_INPUT : 67 : : : : 4 :
RESERVED_INPUT : 68 : : : : 4 :
RESERVED_INPUT : 69 : : : : 4 :
RESERVED_INPUT : 70 : : : : 4 :
VCCIO4 : 71 : power : : 3.3V : 4 :
RESERVED_INPUT : 72 : : : : 4 :
GND : 73 : gnd : : : :
RESERVED_INPUT : 74 : : : : 4 :
RESERVED_INPUT : 75 : : : : 4 :
RESERVED_INPUT : 76 : : : : 4 :
I0 : 77 : input : 3.3-V LVTTL : : 4 : Y
GND : 78 : gnd : : : :
VCCINT : 79 : power : : 1.2V : :
I1 : 80 : input : 3.3-V LVTTL : : 4 : Y
I2 : 81 : input : 3.3-V LVTTL : : 4 : Y
RESERVED_INPUT : 82 : : : : 4 :
VCCIO4 : 83 : power : : 3.3V : 4 :
RESERVED_INPUT : 84 : : : : 4 :
GND : 85 : gnd : : : :
RESERVED_INPUT : 86 : : : : 4 :
RESERVED_INPUT : 87 : : : : 4 :
RESERVED_INPUT : 88 : : : : 4 :
RESERVED_INPUT : 89 : : : : 4 :
RESERVED_INPUT : 90 : : : : 4 :
VCCIO4 : 91 : power : : 3.3V : 4 :
RESERVED_INPUT : 92 : : : : 4 :
GND : 93 : gnd : : : :
RESERVED_INPUT : 94 : : : : 4 :
RESERVED_INPUT : 95 : : : : 4 :
RESERVED_INPUT : 96 : : : : 4 :
RESERVED_INPUT : 97 : : : : 4 :
VCCIO4 : 98 : power : : 3.3V : 4 :
RESERVED_INPUT : 99 : : : : 4 :
GND : 100 : gnd : : : :
RESERVED_INPUT : 101 : : : : 4 :
RESERVED_INPUT : 102 : : : : 4 :
RESERVED_INPUT : 103 : : : : 4 :
RESERVED_INPUT : 104 : : : : 4 :
RESERVED_INPUT : 105 : : : : 3 :
RESERVED_INPUT : 106 : : : : 3 :
RESERVED_INPUT : 107 : : : : 3 :
~LVDS54p/nCEO~ : 108 : output : 3.3-V LVTTL : : 3 : N
VCCIO3 : 109 : power : : 3.3V : 3 :
RESERVED_INPUT : 110 : : : : 3 :
GND : 111 : gnd : : : :
RESERVED_INPUT : 112 : : : : 3 :
RESERVED_INPUT : 113 : : : : 3 :
RESERVED_INPUT : 114 : : : : 3 :
RESERVED_INPUT : 115 : : : : 3 :
RESERVED_INPUT : 116 : : : : 3 :
RESERVED_INPUT : 117 : : : : 3 :
RESERVED_INPUT : 118 : : : : 3 :
GND : 119 : gnd : : : :
VCCINT : 120 : power : : 1.2V : :
nSTATUS : 121 : : : : 3 :
VCCIO3 : 122 : power : : 3.3V : 3 :
CONF_DONE : 123 : : : : 3 :
GND : 124 : gnd : : : :
MSEL1 : 125 : : : : 3 :
MSEL0 : 126 : : : : 3 :
RESERVED_INPUT : 127 : : : : 3 :
RESERVED_INPUT : 128 : : : : 3 :
GND+ : 129 : : : : 3 :
GND+ : 130 : : : : 3 :
GND+ : 131 : : : : 3 :
GND+ : 132 : : : : 3 :
RESERVED_INPUT : 133 : : : : 3 :
RESERVED_INPUT : 134 : : : : 3 :
RESERVED_INPUT : 135 : : : : 3 :
VCCIO3 : 136 : power : : 3.3V : 3 :
RESERVED_INPUT : 137 : : : : 3 :
RESERVED_INPUT : 138 : : : : 3 :
RESERVED_INPUT : 139 : : : : 3 :
GND : 140 : gnd : : : :
RESERVED_INPUT : 141 : : : : 3 :
Y0 : 142 : output : 3.3-V LVTTL : : 3 : Y
Y1 : 143 : output : 3.3-V LVTTL : : 3 : Y
Y2 : 144 : output : 3.3-V LVTTL : : 3 : Y
Y3 : 145 : output : 3.3-V LVTTL : : 3 : Y
Y4 : 146 : output : 3.3-V LVTTL : : 3 : Y
Y5 : 147 : output : 3.3-V LVTTL : : 3 : Y
VCCIO3 : 148 : power : : 3.3V : 3 :
Y6 : 149 : output : 3.3-V LVTTL : : 3 : Y
Y7 : 150 : output : 3.3-V LVTTL : : 3 : Y
RESERVED_INPUT : 151 : : : : 3 :
RESERVED_INPUT : 152 : : : : 3 :
GND : 153 : gnd : : : :
GND_PLL2 : 154 : gnd : : : :
VCCD_PLL2 : 155 : power : : 1.2V : :
GND_PLL2 : 156 : gnd : : : :
VCCA_PLL2 : 157 : power : : 1.2V : :
GNDA_PLL2 : 158 : gnd : : : :
GND : 159 : gnd : : : :
RESERVED_INPUT : 160 : : : : 2 :
RESERVED_INPUT : 161 : : : : 2 :
RESERVED_INPUT : 162 : : : : 2 :
RESERVED_INPUT : 163 : : : : 2 :
RESERVED_INPUT : 164 : : : : 2 :
RESERVED_INPUT : 165 : : : : 2 :
VCCIO2 : 166 : power : : 3.3V : 2 :
GND : 167 : gnd : : : :
RESERVED_INPUT : 168 : : : : 2 :
RESERVED_INPUT : 169 : : : : 2 :
RESERVED_INPUT : 170 : : : : 2 :
RESERVED_INPUT : 171 : : : : 2 :
VCCIO2 : 172 : power : : 3.3V : 2 :
RESERVED_INPUT : 173 : : : : 2 :
GND : 174 : gnd : : : :
RESERVED_INPUT : 175 : : : : 2 :
RESERVED_INPUT : 176 : : : : 2 :
GND : 177 : gnd : : : :
VCCINT : 178 : power : : 1.2V : :
RESERVED_INPUT : 179 : : : : 2 :
RESERVED_INPUT : 180 : : : : 2 :
RESERVED_INPUT : 181 : : : : 2 :
RESERVED_INPUT : 182 : : : : 2 :
VCCIO2 : 183 : power : : 3.3V : 2 :
GND : 184 : gnd : : : :
RESERVED_INPUT : 185 : : : : 2 :
GND : 186 : gnd : : : :
RESERVED_INPUT : 187 : : : : 2 :
RESERVED_INPUT : 188 : : : : 2 :
RESERVED_INPUT : 189 : : : : 2 :
VCCINT : 190 : power : : 1.2V : :
RESERVED_INPUT : 191 : : : : 2 :
RESERVED_INPUT : 192 : : : : 2 :
RESERVED_INPUT : 193 : : : : 2 :
VCCIO2 : 194 : power : : 3.3V : 2 :
RESERVED_INPUT : 195 : : : : 2 :
GND : 196 : gnd : : : :
RESERVED_INPUT : 197 : : : : 2 :
RESERVED_INPUT : 198 : : : : 2 :
RESERVED_INPUT : 199 : : : : 2 :
RESERVED_INPUT : 200 : : : : 2 :
RESERVED_INPUT : 201 : : : : 2 :
VCCIO2 : 202 : power : : 3.3V : 2 :
RESERVED_INPUT : 203 : : : : 2 :
GND : 204 : gnd : : : :
RESERVED_INPUT : 205 : : : : 2 :
RESERVED_INPUT : 206 : : : : 2 :
RESERVED_INPUT : 207 : : : : 2 :
RESERVED_INPUT : 208 : : : : 2 :

二進制
38_decoder/38_decoder.pof
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14
38_decoder/38_decoder.qws
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@ -1,14 +0,0 @@
[ProjectWorkspace]
ptn_Child1=Frames
[ProjectWorkspace.Frames]
ptn_Child1=ChildFrames
[ProjectWorkspace.Frames.ChildFrames]
ptn_Child1=Document-0
[ProjectWorkspace.Frames.ChildFrames.Document-0]
ptn_Child1=ViewFrame-0
[ProjectWorkspace.Frames.ChildFrames.Document-0.ViewFrame-0]
DocPathName=38_decoder.bdf
DocumentCLSID={7b19e8f2-2bbe-11d1-a082-0020affa5bde}
IsChildFrameDetached=False
IsActiveChildFrame=True
ptn_Child1=StateMap

二進制
38_decoder/38_decoder.sof
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未顯示二進位檔案。

149
38_decoder/38_decoder.tan.rpt
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@ -1,149 +0,0 @@
Classic Timing Analyzer report for 38_decoder
Tue Mar 08 15:12:42 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Timing Analyzer Summary
3. Timing Analyzer Settings
4. Parallel Compilation
5. tpd
6. Timing Analyzer Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------------------------------------------+
; Timing Analyzer Summary ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
; Type ; Slack ; Required Time ; Actual Time ; From ; To ; From Clock ; To Clock ; Failed Paths ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
; Worst-case tpd ; N/A ; None ; 13.172 ns ; I2 ; Y4 ; -- ; -- ; 0 ;
; Total number of failed paths ; ; ; ; ; ; ; ; 0 ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
+--------------------------------------------------------------------------------------------------------------------+
; Timing Analyzer Settings ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
; Option ; Setting ; From ; To ; Entity Name ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
; Device Name ; EP2C8Q208C8 ; ; ; ;
; Timing Models ; Final ; ; ; ;
; Default hold multicycle ; Same as Multicycle ; ; ; ;
; Cut paths between unrelated clock domains ; On ; ; ; ;
; Cut off read during write signal paths ; On ; ; ; ;
; Cut off feedback from I/O pins ; On ; ; ; ;
; Report Combined Fast/Slow Timing ; Off ; ; ; ;
; Ignore Clock Settings ; Off ; ; ; ;
; Analyze latches as synchronous elements ; On ; ; ; ;
; Enable Recovery/Removal analysis ; Off ; ; ; ;
; Enable Clock Latency ; Off ; ; ; ;
; Use TimeQuest Timing Analyzer ; Off ; ; ; ;
; Minimum Core Junction Temperature ; 0 ; ; ; ;
; Maximum Core Junction Temperature ; 85 ; ; ; ;
; Number of source nodes to report per destination node ; 10 ; ; ; ;
; Number of destination nodes to report ; 10 ; ; ; ;
; Number of paths to report ; 200 ; ; ; ;
; Report Minimum Timing Checks ; Off ; ; ; ;
; Use Fast Timing Models ; Off ; ; ; ;
; Report IO Paths Separately ; Off ; ; ; ;
; Perform Multicorner Analysis ; On ; ; ; ;
; Reports the worst-case path for each clock domain and analysis ; Off ; ; ; ;
; Removes common clock path pessimism (CCPP) during slack computation ; Off ; ; ; ;
; Output I/O Timing Endpoint ; Near End ; ; ; ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
+------------------------------------------+
; Parallel Compilation ;
+----------------------------+-------------+
; Processors ; Number ;
+----------------------------+-------------+
; Number detected on machine ; 4 ;
; Maximum allowed ; 4 ;
; ; ;
; Average used ; 1.00 ;
; Maximum used ; 1 ;
; ; ;
; Usage by Processor ; % Time Used ;
; 1 processor ; 100.0% ;
; 2-4 processors ; 0.0% ;
+----------------------------+-------------+
+---------------------------------------------------------+
; tpd ;
+-------+-------------------+-----------------+------+----+
; Slack ; Required P2P Time ; Actual P2P Time ; From ; To ;
+-------+-------------------+-----------------+------+----+
; N/A ; None ; 13.172 ns ; I2 ; Y4 ;
; N/A ; None ; 13.161 ns ; I2 ; Y6 ;
; N/A ; None ; 13.141 ns ; I2 ; Y5 ;
; N/A ; None ; 13.095 ns ; I2 ; Y7 ;
; N/A ; None ; 13.009 ns ; I2 ; Y3 ;
; N/A ; None ; 12.995 ns ; I2 ; Y0 ;
; N/A ; None ; 12.674 ns ; I1 ; Y6 ;
; N/A ; None ; 12.658 ns ; I0 ; Y5 ;
; N/A ; None ; 12.658 ns ; I1 ; Y4 ;
; N/A ; None ; 12.648 ns ; I1 ; Y3 ;
; N/A ; None ; 12.647 ns ; I2 ; Y1 ;
; N/A ; None ; 12.636 ns ; I0 ; Y3 ;
; N/A ; None ; 12.623 ns ; I1 ; Y7 ;
; N/A ; None ; 12.619 ns ; I0 ; Y7 ;
; N/A ; None ; 12.614 ns ; I0 ; Y4 ;
; N/A ; None ; 12.612 ns ; I1 ; Y5 ;
; N/A ; None ; 12.594 ns ; I0 ; Y6 ;
; N/A ; None ; 12.580 ns ; I1 ; Y0 ;
; N/A ; None ; 12.560 ns ; I2 ; Y2 ;
; N/A ; None ; 12.535 ns ; I0 ; Y0 ;
; N/A ; None ; 12.270 ns ; I0 ; Y1 ;
; N/A ; None ; 12.241 ns ; I1 ; Y1 ;
; N/A ; None ; 12.201 ns ; I1 ; Y2 ;
; N/A ; None ; 12.104 ns ; I0 ; Y2 ;
+-------+-------------------+-----------------+------+----+
+--------------------------+
; Timing Analyzer Messages ;
+--------------------------+
Info: *******************************************************************
Info: Running Quartus II Classic Timing Analyzer
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Tue Mar 08 15:12:42 2022
Info: Command: quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only
Info: Parallel compilation is enabled and will use 4 of the 4 processors detected
Info: Longest tpd from source pin "I2" to destination pin "Y4" is 13.172 ns
Info: 1: + IC(0.000 ns) + CELL(0.974 ns) = 0.974 ns; Loc. = PIN_81; Fanout = 8; PIN Node = 'I2'
Info: 2: + IC(7.387 ns) + CELL(0.651 ns) = 9.012 ns; Loc. = LCCOMB_X33_Y13_N2; Fanout = 1; COMB Node = 'inst10~5'
Info: 3: + IC(1.054 ns) + CELL(3.106 ns) = 13.172 ns; Loc. = PIN_146; Fanout = 0; PIN Node = 'Y4'
Info: Total cell delay = 4.731 ns ( 35.92 % )
Info: Total interconnect delay = 8.441 ns ( 64.08 % )
Info: Quartus II Classic Timing Analyzer was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 212 megabytes
Info: Processing ended: Tue Mar 08 15:12:42 2022
Info: Elapsed time: 00:00:00
Info: Total CPU time (on all processors): 00:00:00

26
38_decoder/38_decoder.tan.summary
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@ -1,26 +0,0 @@
--------------------------------------------------------------------------------------
Timing Analyzer Summary
--------------------------------------------------------------------------------------
Type : Worst-case tpd
Slack : N/A
Required Time : None
Actual Time : 13.172 ns
From : I2
To : Y4
From Clock : --
To Clock : --
Failed Paths : 0
Type : Total number of failed paths
Slack :
Required Time :
Actual Time :
From :
To :
From Clock :
To Clock :
Failed Paths : 0
--------------------------------------------------------------------------------------

二進制
38_decoder/db/38_decoder.(0).cnf.cdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.(0).cnf.hdb
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未顯示二進位檔案。

7
38_decoder/db/38_decoder.asm.qmsg
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@ -1,7 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Assembler Quartus II " "Info: Running Quartus II Assembler" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Tue Mar 08 15:12:41 2022 " "Info: Processing started: Tue Mar 08 15:12:41 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder " "Info: Command: quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_POWER_DATA" "" "Info: Writing out detailed assembly data for power analysis" { } { } 0 0 "Writing out detailed assembly data for power analysis" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_PROGRAMMING_FILES" "" "Info: Assembler is generating device programming files" { } { } 0 0 "Assembler is generating device programming files" 0 0 "" 0 -1}
{ "Info" "IPGMIO_CONDONE_ERROR_CHECKS_DISABLED" "" "Info: The Active Serial/Parallel mode CONF_DONE pin error check is disabled" { } { } 0 0 "The Active Serial/Parallel mode CONF_DONE pin error check is disabled" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Assembler 0 s 0 s Quartus II " "Info: Quartus II Assembler was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "241 " "Info: Peak virtual memory: 241 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Tue Mar 08 15:12:41 2022 " "Info: Processing ended: Tue Mar 08 15:12:41 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

二進制
38_decoder/db/38_decoder.asm_labs.ddb
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未顯示二進位檔案。

5
38_decoder/db/38_decoder.cbx.xml
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@ -1,5 +0,0 @@
<?xml version="1.0" ?>
<LOG_ROOT>
<PROJECT NAME="38_decoder">
</PROJECT>
</LOG_ROOT>

二進制
38_decoder/db/38_decoder.cmp.bpm
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.cmp.cdb
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二進制
38_decoder/db/38_decoder.cmp.ecobp
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二進制
38_decoder/db/38_decoder.cmp.hdb
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10
38_decoder/db/38_decoder.cmp.kpt
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@ -1,10 +0,0 @@
<kpt_db name="38_decoder.cmp" kpt_version="1.1">
<key_points_set type="reference" hier_sep="|">
</key_points_set>
<key_points_set type="transition" hier_sep="|">
</key_points_set>
<key_points_set type="transformed" hier_sep="|">
</key_points_set>
<transformations_set hier_sep="|">
</transformations_set>
</kpt_db>

1
38_decoder/db/38_decoder.cmp.logdb
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@ -1 +0,0 @@
v1

二進制
38_decoder/db/38_decoder.cmp.rdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.cmp.tdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.cmp0.ddb
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二進制
38_decoder/db/38_decoder.cmp2.ddb
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未顯示二進位檔案。

10
38_decoder/db/38_decoder.cmp_merge.kpt
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@ -1,10 +0,0 @@
<kpt_db name="38_decoder.cmp_merge" kpt_version="1.1">
<key_points_set type="reference" hier_sep="|">
</key_points_set>
<key_points_set type="transition" hier_sep="|">
</key_points_set>
<key_points_set type="transformed" hier_sep="|">
</key_points_set>
<transformations_set hier_sep="|">
</transformations_set>
</kpt_db>

3
38_decoder/db/38_decoder.db_info
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@ -1,3 +0,0 @@
Quartus_Version = Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Version_Index = 167832322
Creation_Time = Mon Mar 07 09:11:53 2022

二進制
38_decoder/db/38_decoder.eco.cdb
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未顯示二進位檔案。

35
38_decoder/db/38_decoder.fit.qmsg
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@ -1,35 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Fitter Quartus II " "Info: Running Quartus II Fitter" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Tue Mar 08 15:12:39 2022 " "Info: Processing started: Tue Mar 08 15:12:39 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_fit --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder " "Info: Command: quartus_fit --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IQCU_PARALLEL_AUTODETECT_MULTIPLE_PROCESSORS" "4 4 " "Info: Parallel compilation is enabled and will use 4 of the 4 processors detected" { } { } 0 0 "Parallel compilation is enabled and will use %1!i! of the %2!i! processors detected" 0 0 "" 0 -1}
{ "Info" "IMPP_MPP_USER_DEVICE" "38_decoder EP2C8Q208C8 " "Info: Selected device EP2C8Q208C8 for design \"38_decoder\"" { } { } 0 0 "Selected device %2!s! for design \"%1!s!\"" 0 0 "" 0 -1}
{ "Info" "ICUT_CUT_USING_OPERATING_CONDITION" "Low junction temperature 0 degrees C " "Info: Low junction temperature is 0 degrees C" { } { } 0 0 "%1!s! is %2!s!" 0 0 "" 0 -1}
{ "Info" "ICUT_CUT_USING_OPERATING_CONDITION" "High junction temperature 85 degrees C " "Info: High junction temperature is 85 degrees C" { } { } 0 0 "%1!s! is %2!s!" 0 0 "" 0 -1}
{ "Info" "IFITCC_FITCC_INFO_AUTO_FIT_COMPILATION_ON" "" "Info: Fitter is performing an Auto Fit compilation, which may decrease Fitter effort to reduce compilation time" { } { } 0 0 "Fitter is performing an Auto Fit compilation, which may decrease Fitter effort to reduce compilation time" 0 0 "" 0 -1}
{ "Info" "IFSAC_FSAC_MIGRATION_NOT_SELECTED" "" "Info: Device migration not selected. If you intend to use device migration later, you may need to change the pin assignments as they may be incompatible with other devices" { { "Info" "IFSAC_FSAC_MIGRATION_NOT_SELECTED_SUB" "EP2C5Q208C8 " "Info: Device EP2C5Q208C8 is compatible" { } { } 2 0 "Device %1!s! is compatible" 0 0 "" 0 -1} { "Info" "IFSAC_FSAC_MIGRATION_NOT_SELECTED_SUB" "EP2C5Q208I8 " "Info: Device EP2C5Q208I8 is compatible" { } { } 2 0 "Device %1!s! is compatible" 0 0 "" 0 -1} { "Info" "IFSAC_FSAC_MIGRATION_NOT_SELECTED_SUB" "EP2C8Q208I8 " "Info: Device EP2C8Q208I8 is compatible" { } { } 2 0 "Device %1!s! is compatible" 0 0 "" 0 -1} } { } 2 0 "Device migration not selected. If you intend to use device migration later, you may need to change the pin assignments as they may be incompatible with other devices" 0 0 "" 0 -1}
{ "Info" "IFIOMGR_RESERVED_PIN_WITH_LOCATION" "3 " "Info: Fitter converted 3 user pins into dedicated programming pins" { { "Info" "IFIOMGR_RESERVED_PIN_WITH_LOCATION_SUB" "~ASDO~ 1 " "Info: Pin ~ASDO~ is reserved at location 1" { } { { "d:/altera/90sp2/quartus/bin/pin_planner.ppl" "" { PinPlanner "d:/altera/90sp2/quartus/bin/pin_planner.ppl" { ~ASDO~ } } } { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "" { ~ASDO~ } "NODE_NAME" } } } 0 0 "Pin %1!s! is reserved at location %2!s!" 0 0 "" 0 -1} { "Info" "IFIOMGR_RESERVED_PIN_WITH_LOCATION_SUB" "~nCSO~ 2 " "Info: Pin ~nCSO~ is reserved at location 2" { } { { "d:/altera/90sp2/quartus/bin/pin_planner.ppl" "" { PinPlanner "d:/altera/90sp2/quartus/bin/pin_planner.ppl" { ~nCSO~ } } } { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "" { ~nCSO~ } "NODE_NAME" } } } 0 0 "Pin %1!s! is reserved at location %2!s!" 0 0 "" 0 -1} { "Info" "IFIOMGR_RESERVED_PIN_WITH_LOCATION_SUB" "~LVDS54p/nCEO~ 108 " "Info: Pin ~LVDS54p/nCEO~ is reserved at location 108" { } { { "d:/altera/90sp2/quartus/bin/pin_planner.ppl" "" { PinPlanner "d:/altera/90sp2/quartus/bin/pin_planner.ppl" { ~LVDS54p/nCEO~ } } } { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "" { ~LVDS54p/nCEO~ } "NODE_NAME" } } } 0 0 "Pin %1!s! is reserved at location %2!s!" 0 0 "" 0 -1} } { } 0 0 "Fitter converted %1!d! user pins into dedicated programming pins" 0 0 "" 0 -1}
{ "Info" "ITDC_FITTER_TIMING_ENGINE" "Classic " "Info: Fitter is using the Classic Timing Analyzer" { } { } 0 0 "Fitter is using the %1!s! Timing Analyzer" 0 0 "" 0 -1}
{ "Info" "ITAN_TDC_NO_DEFAULT_OPTIMIZATION_GOALS" "" "Info: Timing requirements not specified -- quality metrics such as performance and power consumption may be sacrificed to reduce compilation time." { } { } 0 0 "Timing requirements not specified -- quality metrics such as performance and power consumption may be sacrificed to reduce compilation time." 0 0 "" 0 -1}
{ "Info" "IFSAC_FSAC_REGISTER_PACKING_START_REGPACKING_INFO" "" "Info: Starting register packing" { } { } 0 0 "Starting register packing" 0 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_START_REG_LOCATION_PROCESSING" "" "Extra Info: Performing register packing on registers with non-logic cell location assignments" { } { } 1 0 "Performing register packing on registers with non-logic cell location assignments" 1 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_FINISH_REG_LOCATION_PROCESSING" "" "Extra Info: Completed register packing on registers with non-logic cell location assignments" { } { } 1 0 "Completed register packing on registers with non-logic cell location assignments" 1 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_REGISTER_PACKING_BEGIN_FAST_REGISTER_INFO" "" "Extra Info: Started Fast Input/Output/OE register processing" { } { } 1 0 "Started Fast Input/Output/OE register processing" 1 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_REGISTER_PACKING_FINISH_FAST_REGISTER_INFO" "" "Extra Info: Finished Fast Input/Output/OE register processing" { } { } 1 0 "Finished Fast Input/Output/OE register processing" 1 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_START_IO_MULT_RAM_PACKING" "" "Extra Info: Moving registers into I/O cells, Multiplier Blocks, and RAM blocks to improve timing and density" { } { } 1 0 "Moving registers into I/O cells, Multiplier Blocks, and RAM blocks to improve timing and density" 1 0 "" 0 -1}
{ "Extra Info" "IFSAC_FSAC_FINISH_IO_MULT_RAM_PACKING" "" "Extra Info: Finished moving registers into I/O cells, Multiplier Blocks, and RAM blocks" { } { } 1 0 "Finished moving registers into I/O cells, Multiplier Blocks, and RAM blocks" 1 0 "" 0 -1}
{ "Info" "IFSAC_FSAC_REGISTER_PACKING_FINISH_REGPACKING_INFO" "" "Info: Finished register packing" { { "Extra Info" "IFSAC_NO_REGISTERS_WERE_PACKED" "" "Extra Info: No registers were packed into other blocks" { } { } 1 0 "No registers were packed into other blocks" 0 0 "" 0 -1} } { } 0 0 "Finished register packing" 0 0 "" 0 -1}
{ "Info" "IFITCC_FITTER_PREPARATION_END" "00:00:00 " "Info: Fitter preparation operations ending: elapsed time is 00:00:00" { } { } 0 0 "Fitter preparation operations ending: elapsed time is %1!s!" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_PREP_START" "" "Info: Fitter placement preparation operations beginning" { } { } 0 0 "Fitter placement preparation operations beginning" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_PREP_END" "00:00:00 " "Info: Fitter placement preparation operations ending: elapsed time is 00:00:00" { } { } 0 0 "Fitter placement preparation operations ending: elapsed time is %1!s!" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_START" "" "Info: Fitter placement operations beginning" { } { } 0 0 "Fitter placement operations beginning" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_INFO_VPR_PLACEMENT_FINISH" "" "Info: Fitter placement was successful" { } { } 0 0 "Fitter placement was successful" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_END" "00:00:00 " "Info: Fitter placement operations ending: elapsed time is 00:00:00" { } { } 0 0 "Fitter placement operations ending: elapsed time is %1!s!" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_ROUTING_START" "" "Info: Fitter routing operations beginning" { } { } 0 0 "Fitter routing operations beginning" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_PERCENT_ROUTING_RESOURCE_USAGE" "0 " "Info: Average interconnect usage is 0% of the available device resources" { { "Info" "IFITAPI_FITAPI_VPR_PEAK_ROUTING_REGION" "0 X23_Y10 X34_Y19 " "Info: Peak interconnect usage is 0% of the available device resources in the region that extends from location X23_Y10 to location X34_Y19" { } { } 0 0 "Peak interconnect usage is %1!d!%% of the available device resources in the region that extends from location %2!s! to location %3!s!" 0 0 "" 0 -1} } { } 0 0 "Average interconnect usage is %1!d!%% of the available device resources" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_ROUTING_END" "00:00:00 " "Info: Fitter routing operations ending: elapsed time is 00:00:00" { } { } 0 0 "Fitter routing operations ending: elapsed time is %1!s!" 0 0 "" 0 -1}
{ "Info" "IFITAPI_FITAPI_VPR_AUTO_FIT_ENABLED_AND_USED" "" "Info: The Fitter performed an Auto Fit compilation. Optimizations were skipped to reduce compilation time." { { "Info" "IFITAPI_FITAPI_VPR_AUTO_FIT_ENABLED_AND_USED_FOR_ROUTABILITY" "" "Info: Optimizations that may affect the design's routability were skipped" { } { } 0 0 "Optimizations that may affect the design's routability were skipped" 0 0 "" 0 -1} { "Info" "IFITAPI_FITAPI_VPR_AUTO_FIT_ENABLED_AND_USED_FOR_TIMING" "" "Info: Optimizations that may affect the design's timing were skipped" { } { } 0 0 "Optimizations that may affect the design's timing were skipped" 0 0 "" 0 -1} } { } 0 0 "The Fitter performed an Auto Fit compilation. Optimizations were skipped to reduce compilation time." 0 0 "" 0 -1}
{ "Info" "IDAT_DAT_STARTED" "" "Info: Started post-fitting delay annotation" { } { } 0 0 "Started post-fitting delay annotation" 0 0 "" 0 -1}
{ "Warning" "WDAT_NO_LOADING_SPECIFIED_ONE_OR_MORE_PINS" "8 " "Warning: Found 8 output pins without output pin load capacitance assignment" { { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y7 0 " "Info: Pin \"Y7\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y0 0 " "Info: Pin \"Y0\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y1 0 " "Info: Pin \"Y1\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y2 0 " "Info: Pin \"Y2\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y3 0 " "Info: Pin \"Y3\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y4 0 " "Info: Pin \"Y4\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y5 0 " "Info: Pin \"Y5\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "Y6 0 " "Info: Pin \"Y6\" has no specified output pin load capacitance -- assuming default load capacitance of 0 pF for timing analysis" { } { } 0 0 "Pin \"%1!s!\" has no specified output pin load capacitance -- assuming default load capacitance of %2!d! pF for timing analysis" 0 0 "" 0 -1} } { } 0 0 "Found %1!d! output pins without output pin load capacitance assignment" 0 0 "" 0 -1}
{ "Info" "IDAT_DAT_COMPLETED" "" "Info: Delay annotation completed successfully" { } { } 0 0 "Delay annotation completed successfully" 0 0 "" 0 -1}
{ "Info" "IRDB_WROTE_SUPPRESSED_MSGS" "D:/projects/quartus/38_decoder/38_decoder.fit.smsg " "Info: Generated suppressed messages file D:/projects/quartus/38_decoder/38_decoder.fit.smsg" { } { } 0 0 "Generated suppressed messages file %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Fitter 0 s 1 Quartus II " "Info: Quartus II Fitter was successful. 0 errors, 1 warning" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "305 " "Info: Peak virtual memory: 305 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Tue Mar 08 15:12:40 2022 " "Info: Processing ended: Tue Mar 08 15:12:40 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:01 " "Info: Elapsed time: 00:00:01" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:01 " "Info: Total CPU time (on all processors): 00:00:01" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

26
38_decoder/db/38_decoder.hier_info
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@ -1,26 +0,0 @@
|38_decoder
Y7 <= inst3.DB_MAX_OUTPUT_PORT_TYPE
I2 => inst3.IN0
I2 => inst.IN0
I2 => inst6.IN0
I2 => inst5.IN0
I2 => inst4.IN0
I1 => inst3.IN1
I1 => inst1.IN0
I1 => inst8.IN1
I1 => inst7.IN1
I1 => inst4.IN1
I0 => inst3.IN2
I0 => inst2.IN0
I0 => inst9.IN2
I0 => inst7.IN2
I0 => inst5.IN2
Y0 <= inst10.DB_MAX_OUTPUT_PORT_TYPE
Y1 <= inst9.DB_MAX_OUTPUT_PORT_TYPE
Y2 <= inst8.DB_MAX_OUTPUT_PORT_TYPE
Y3 <= inst7.DB_MAX_OUTPUT_PORT_TYPE
Y4 <= inst6.DB_MAX_OUTPUT_PORT_TYPE
Y5 <= inst5.DB_MAX_OUTPUT_PORT_TYPE
Y6 <= inst4.DB_MAX_OUTPUT_PORT_TYPE

42
38_decoder/db/38_decoder.hif
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@ -1,42 +0,0 @@
Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
11
936
OFF
OFF
OFF
ON
ON
ON
FV_OFF
Level2
0
0
VRSM_ON
VHSM_ON
0
-- Start Library Paths --
-- End Library Paths --
-- Start VHDL Libraries --
-- End VHDL Libraries --
# entity
38_decoder
# storage
db|38_decoder.(0).cnf
db|38_decoder.(0).cnf
# case_insensitive
# source_file
38_decoder.bdf
ce95eaa7a0801a2b705ca5ea74e4b7a
26
# internal_option {
BLOCK_DESIGN_NAMING
AUTO
}
# hierarchies {
|
}
# macro_sequence
# end
# complete

18
38_decoder/db/38_decoder.lpc.html
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@ -1,18 +0,0 @@
<TABLE BORDER="1" cellspacing="1" cellpadding="2">
<TR valign="middle" bgcolor="#C0C0C0">
<TH>Hierarchy</TH>
<TH>Input</TH>
<TH>Constant Input</TH>
<TH>Unused Input</TH>
<TH>Floating Input</TH>
<TH>Output</TH>
<TH>Constant Output</TH>
<TH>Unused Output</TH>
<TH>Floating Output</TH>
<TH>Bidir</TH>
<TH>Constant Bidir</TH>
<TH>Unused Bidir</TH>
<TH>Input only Bidir</TH>
<TH>Output only Bidir</TH>
</TR>
</TABLE>

二進制
38_decoder/db/38_decoder.lpc.rdb
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5
38_decoder/db/38_decoder.lpc.txt
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@ -1,5 +0,0 @@
+----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Legal Partition Candidates ;
+-----------+-------+----------------+--------------+----------------+--------+-----------------+---------------+-----------------+-------+----------------+--------------+------------------+-------------------+
; Hierarchy ; Input ; Constant Input ; Unused Input ; Floating Input ; Output ; Constant Output ; Unused Output ; Floating Output ; Bidir ; Constant Bidir ; Unused Bidir ; Input only Bidir ; Output only Bidir ;
+-----------+-------+----------------+--------------+----------------+--------+-----------------+---------------+-----------------+-------+----------------+--------------+------------------+-------------------+

二進制
38_decoder/db/38_decoder.map.bpm
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二進制
38_decoder/db/38_decoder.map.cdb
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二進制
38_decoder/db/38_decoder.map.ecobp
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二進制
38_decoder/db/38_decoder.map.hdb
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10
38_decoder/db/38_decoder.map.kpt
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@ -1,10 +0,0 @@
<kpt_db name="38_decoder.map" kpt_version="1.1">
<key_points_set type="reference" hier_sep="/">
</key_points_set>
<key_points_set type="transition" hier_sep="|">
</key_points_set>
<key_points_set type="transformed" hier_sep="|">
</key_points_set>
<transformations_set hier_sep="|">
</transformations_set>
</kpt_db>

1
38_decoder/db/38_decoder.map.logdb
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@ -1 +0,0 @@
v1

7
38_decoder/db/38_decoder.map.qmsg
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@ -1,7 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Analysis & Synthesis Quartus II " "Info: Running Quartus II Analysis & Synthesis" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Tue Mar 08 15:12:38 2022 " "Info: Processing started: Tue Mar 08 15:12:38 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder " "Info: Command: quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "ISGN_NUM_OF_DESIGN_UNITS_AND_ENTITIES" "38_decoder.bdf 1 1 " "Info: Found 1 design units, including 1 entities, in source file 38_decoder.bdf" { { "Info" "ISGN_ENTITY_NAME" "1 38_decoder " "Info: Found entity 1: 38_decoder" { } { { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { } } } } 0 0 "Found entity %1!d!: %2!s!" 0 0 "" 0 -1} } { } 0 0 "Found %2!llu! design units, including %3!llu! entities, in source file %1!s!" 0 0 "" 0 -1}
{ "Info" "ISGN_START_ELABORATION_TOP" "38_decoder " "Info: Elaborating entity \"38_decoder\" for the top level hierarchy" { } { } 0 0 "Elaborating entity \"%1!s!\" for the top level hierarchy" 0 0 "" 0 -1}
{ "Info" "ICUT_CUT_TM_SUMMARY" "19 " "Info: Implemented 19 device resources after synthesis - the final resource count might be different" { { "Info" "ICUT_CUT_TM_IPINS" "3 " "Info: Implemented 3 input pins" { } { } 0 0 "Implemented %1!d! input pins" 0 0 "" 0 -1} { "Info" "ICUT_CUT_TM_OPINS" "8 " "Info: Implemented 8 output pins" { } { } 0 0 "Implemented %1!d! output pins" 0 0 "" 0 -1} { "Info" "ICUT_CUT_TM_LCELLS" "8 " "Info: Implemented 8 logic cells" { } { } 0 0 "Implemented %1!d! logic cells" 0 0 "" 0 -1} } { } 0 0 "Implemented %1!d! device resources after synthesis - the final resource count might be different" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Analysis & Synthesis 0 s 0 s Quartus II " "Info: Quartus II Analysis & Synthesis was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "250 " "Info: Peak virtual memory: 250 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Tue Mar 08 15:12:38 2022 " "Info: Processing ended: Tue Mar 08 15:12:38 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

二進制
38_decoder/db/38_decoder.map_bb.cdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.map_bb.hdb
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未顯示二進位檔案。

1
38_decoder/db/38_decoder.map_bb.logdb
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@ -1 +0,0 @@
v1

二進制
38_decoder/db/38_decoder.pre_map.cdb
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二進制
38_decoder/db/38_decoder.pre_map.hdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.rtlv.hdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.rtlv_sg.cdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.rtlv_sg_swap.cdb
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二進制
38_decoder/db/38_decoder.sgdiff.cdb
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二進制
38_decoder/db/38_decoder.sgdiff.hdb
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.sld_design_entry.sci
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未顯示二進位檔案。

二進制
38_decoder/db/38_decoder.sld_design_entry_dsc.sci
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未顯示二進位檔案。

0
38_decoder/db/38_decoder.syn_hier_info
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6
38_decoder/db/38_decoder.tan.qmsg
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@ -1,6 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Classic Timing Analyzer Quartus II " "Info: Running Quartus II Classic Timing Analyzer" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Tue Mar 08 15:12:42 2022 " "Info: Processing started: Tue Mar 08 15:12:42 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only " "Info: Command: quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IQCU_PARALLEL_AUTODETECT_MULTIPLE_PROCESSORS" "4 4 " "Info: Parallel compilation is enabled and will use 4 of the 4 processors detected" { } { } 0 0 "Parallel compilation is enabled and will use %1!i! of the %2!i! processors detected" 0 0 "" 0 -1}
{ "Info" "ITDB_FULL_TPD_RESULT" "I2 Y4 13.172 ns Longest " "Info: Longest tpd from source pin \"I2\" to destination pin \"Y4\" is 13.172 ns" { { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.974 ns) 0.974 ns I2 1 PIN PIN_81 8 " "Info: 1: + IC(0.000 ns) + CELL(0.974 ns) = 0.974 ns; Loc. = PIN_81; Fanout = 8; PIN Node = 'I2'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "" { I2 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 144 32 200 160 "I2" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_NODE_DELAY" "IC(7.387 ns) + CELL(0.651 ns) 9.012 ns inst10~5 2 COMB LCCOMB_X33_Y13_N2 1 " "Info: 2: + IC(7.387 ns) + CELL(0.651 ns) = 9.012 ns; Loc. = LCCOMB_X33_Y13_N2; Fanout = 1; COMB Node = 'inst10~5'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "8.038 ns" { I2 inst10~5 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 360 544 608 408 "inst10" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_NODE_DELAY" "IC(1.054 ns) + CELL(3.106 ns) 13.172 ns Y4 3 PIN PIN_146 0 " "Info: 3: + IC(1.054 ns) + CELL(3.106 ns) = 13.172 ns; Loc. = PIN_146; Fanout = 0; PIN Node = 'Y4'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "4.160 ns" { inst10~5 Y4 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 184 664 840 200 "Y4" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_TOTAL_CELL_DELAY" "4.731 ns ( 35.92 % ) " "Info: Total cell delay = 4.731 ns ( 35.92 % )" { } { } 0 0 "Total cell delay = %1!s! %2!s!" 0 0 "" 0 -1} { "Info" "ITDB_TOTAL_IC_DELAY" "8.441 ns ( 64.08 % ) " "Info: Total interconnect delay = 8.441 ns ( 64.08 % )" { } { } 0 0 "Total interconnect delay = %1!s! %2!s!" 0 0 "" 0 -1} } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "13.172 ns" { I2 inst10~5 Y4 } "NODE_NAME" } } { "d:/altera/90sp2/quartus/bin/Technology_Viewer.qrui" "" { "TechnologyMapViewer" "d:/altera/90sp2/quartus/bin/Technology_Viewer.qrui" "13.172 ns" { I2 {} I2~combout {} inst10~5 {} Y4 {} } { 0.000ns 0.000ns 7.387ns 1.054ns } { 0.000ns 0.974ns 0.651ns 3.106ns } "" } } } 0 0 "%4!s! tpd from source pin \"%1!s!\" to destination pin \"%2!s!\" is %3!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Classic Timing Analyzer 0 s 0 s Quartus II " "Info: Quartus II Classic Timing Analyzer was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "212 " "Info: Peak virtual memory: 212 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Tue Mar 08 15:12:42 2022 " "Info: Processing ended: Tue Mar 08 15:12:42 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

二進制
38_decoder/db/38_decoder.tis_db_list.ddb
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未顯示二進位檔案。

6
38_decoder/db/38_decoder.tmw_info
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@ -1,6 +0,0 @@
start_full_compilation:s:00:00:05
start_analysis_synthesis:s:00:00:02-start_full_compilation
start_analysis_elaboration:s-start_full_compilation
start_fitter:s:00:00:01-start_full_compilation
start_assembler:s:00:00:02-start_full_compilation
start_timing_analyzer:s:00:00:00-start_full_compilation

7
38_decoder/db/prev_cmp_38_decoder.asm.qmsg
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@ -1,7 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Assembler Quartus II " "Info: Running Quartus II Assembler" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Mon Mar 07 09:13:07 2022 " "Info: Processing started: Mon Mar 07 09:13:07 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder " "Info: Command: quartus_asm --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_POWER_DATA" "" "Info: Writing out detailed assembly data for power analysis" { } { } 0 0 "Writing out detailed assembly data for power analysis" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_PROGRAMMING_FILES" "" "Info: Assembler is generating device programming files" { } { } 0 0 "Assembler is generating device programming files" 0 0 "" 0 -1}
{ "Info" "IPGMIO_CONDONE_ERROR_CHECKS_DISABLED" "" "Info: The Active Serial/Parallel mode CONF_DONE pin error check is disabled" { } { } 0 0 "The Active Serial/Parallel mode CONF_DONE pin error check is disabled" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Assembler 0 s 0 s Quartus II " "Info: Quartus II Assembler was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "241 " "Info: Peak virtual memory: 241 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Mon Mar 07 09:13:07 2022 " "Info: Processing ended: Mon Mar 07 09:13:07 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

39
38_decoder/db/prev_cmp_38_decoder.fit.qmsg
查看文件

檔案差異因為一行或多行太長而無法顯示

7
38_decoder/db/prev_cmp_38_decoder.map.qmsg
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@ -1,7 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Analysis & Synthesis Quartus II " "Info: Running Quartus II Analysis & Synthesis" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Mon Mar 07 09:13:04 2022 " "Info: Processing started: Mon Mar 07 09:13:04 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder " "Info: Command: quartus_map --read_settings_files=on --write_settings_files=off 38_decoder -c 38_decoder" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "ISGN_NUM_OF_DESIGN_UNITS_AND_ENTITIES" "38_decoder.bdf 1 1 " "Info: Found 1 design units, including 1 entities, in source file 38_decoder.bdf" { { "Info" "ISGN_ENTITY_NAME" "1 38_decoder " "Info: Found entity 1: 38_decoder" { } { { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { } } } } 0 0 "Found entity %1!d!: %2!s!" 0 0 "" 0 -1} } { } 0 0 "Found %2!llu! design units, including %3!llu! entities, in source file %1!s!" 0 0 "" 0 -1}
{ "Info" "ISGN_START_ELABORATION_TOP" "38_decoder " "Info: Elaborating entity \"38_decoder\" for the top level hierarchy" { } { } 0 0 "Elaborating entity \"%1!s!\" for the top level hierarchy" 0 0 "" 0 -1}
{ "Info" "ICUT_CUT_TM_SUMMARY" "19 " "Info: Implemented 19 device resources after synthesis - the final resource count might be different" { { "Info" "ICUT_CUT_TM_IPINS" "3 " "Info: Implemented 3 input pins" { } { } 0 0 "Implemented %1!d! input pins" 0 0 "" 0 -1} { "Info" "ICUT_CUT_TM_OPINS" "8 " "Info: Implemented 8 output pins" { } { } 0 0 "Implemented %1!d! output pins" 0 0 "" 0 -1} { "Info" "ICUT_CUT_TM_LCELLS" "8 " "Info: Implemented 8 logic cells" { } { } 0 0 "Implemented %1!d! logic cells" 0 0 "" 0 -1} } { } 0 0 "Implemented %1!d! device resources after synthesis - the final resource count might be different" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Analysis & Synthesis 0 s 0 s Quartus II " "Info: Quartus II Analysis & Synthesis was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "248 " "Info: Peak virtual memory: 248 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Mon Mar 07 09:13:04 2022 " "Info: Processing ended: Mon Mar 07 09:13:04 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

6
38_decoder/db/prev_cmp_38_decoder.tan.qmsg
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@ -1,6 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Classic Timing Analyzer Quartus II " "Info: Running Quartus II Classic Timing Analyzer" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Mon Mar 07 09:13:08 2022 " "Info: Processing started: Mon Mar 07 09:13:08 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only " "Info: Command: quartus_tan --read_settings_files=off --write_settings_files=off 38_decoder -c 38_decoder --timing_analysis_only" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IQCU_PARALLEL_AUTODETECT_MULTIPLE_PROCESSORS" "4 4 " "Info: Parallel compilation is enabled and will use 4 of the 4 processors detected" { } { } 0 0 "Parallel compilation is enabled and will use %1!i! of the %2!i! processors detected" 0 0 "" 0 -1}
{ "Info" "ITDB_FULL_TPD_RESULT" "I2 Y2 13.383 ns Longest " "Info: Longest tpd from source pin \"I2\" to destination pin \"Y2\" is 13.383 ns" { { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.995 ns) 0.995 ns I2 1 PIN PIN_41 8 " "Info: 1: + IC(0.000 ns) + CELL(0.995 ns) = 0.995 ns; Loc. = PIN_41; Fanout = 8; PIN Node = 'I2'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "" { I2 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 144 32 200 160 "I2" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_NODE_DELAY" "IC(5.786 ns) + CELL(0.499 ns) 7.280 ns inst10~3 2 COMB LCCOMB_X1_Y7_N22 1 " "Info: 2: + IC(5.786 ns) + CELL(0.499 ns) = 7.280 ns; Loc. = LCCOMB_X1_Y7_N22; Fanout = 1; COMB Node = 'inst10~3'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "6.285 ns" { I2 inst10~3 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 360 544 608 408 "inst10" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_NODE_DELAY" "IC(2.847 ns) + CELL(3.256 ns) 13.383 ns Y2 3 PIN PIN_195 0 " "Info: 3: + IC(2.847 ns) + CELL(3.256 ns) = 13.383 ns; Loc. = PIN_195; Fanout = 0; PIN Node = 'Y2'" { } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "6.103 ns" { inst10~3 Y2 } "NODE_NAME" } } { "38_decoder.bdf" "" { Schematic "D:/projects/quartus/38_decoder/38_decoder.bdf" { { 280 664 840 296 "Y2" "" } } } } } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0 "" 0 -1} { "Info" "ITDB_TOTAL_CELL_DELAY" "4.750 ns ( 35.49 % ) " "Info: Total cell delay = 4.750 ns ( 35.49 % )" { } { } 0 0 "Total cell delay = %1!s! %2!s!" 0 0 "" 0 -1} { "Info" "ITDB_TOTAL_IC_DELAY" "8.633 ns ( 64.51 % ) " "Info: Total interconnect delay = 8.633 ns ( 64.51 % )" { } { } 0 0 "Total interconnect delay = %1!s! %2!s!" 0 0 "" 0 -1} } { { "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/90sp2/quartus/bin/TimingClosureFloorplan.fld" "" "13.383 ns" { I2 inst10~3 Y2 } "NODE_NAME" } } { "d:/altera/90sp2/quartus/bin/Technology_Viewer.qrui" "" { "TechnologyMapViewer" "d:/altera/90sp2/quartus/bin/Technology_Viewer.qrui" "13.383 ns" { I2 {} I2~combout {} inst10~3 {} Y2 {} } { 0.000ns 0.000ns 5.786ns 2.847ns } { 0.000ns 0.995ns 0.499ns 3.256ns } "" } } } 0 0 "%4!s! tpd from source pin \"%1!s!\" to destination pin \"%2!s!\" is %3!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Classic Timing Analyzer 0 s 0 s Quartus II " "Info: Quartus II Classic Timing Analyzer was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "212 " "Info: Peak virtual memory: 212 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Mon Mar 07 09:13:08 2022 " "Info: Processing ended: Mon Mar 07 09:13:08 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

11
38_decoder/incremental_db/README
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@ -1,11 +0,0 @@
This folder contains data for incremental compilation.
The compiled_partitions sub-folder contains previous compilation results for each partition.
As long as this folder is preserved, incremental compilation results from earlier compiles
can be re-used. To perform a clean compilation from source files for all partitions, both
the db and incremental_db folder should be removed.
The imported_partitions sub-folder contains the last imported QXP for each imported partition.
As long as this folder is preserved, imported partitions will be automatically re-imported
when the db or incremental_db/compiled_partitions folders are removed.

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.atm
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未顯示二進位檔案。

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.dfp
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未顯示二進位檔案。

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.hdbx
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未顯示二進位檔案。

10
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.kpt
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@ -1,10 +0,0 @@
<kpt_db name="root_partition" kpt_version="1.1">
<key_points_set type="reference" hier_sep="|">
</key_points_set>
<key_points_set type="transition" hier_sep="|">
</key_points_set>
<key_points_set type="transformed" hier_sep="|">
</key_points_set>
<transformations_set hier_sep="|">
</transformations_set>
</kpt_db>

1
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.logdb
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@ -1 +0,0 @@
v1

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.cmp.rcf
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未顯示二進位檔案。

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.map.atm
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未顯示二進位檔案。

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.map.dpi
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未顯示二進位檔案。

二進制
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.map.hdbx
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未顯示二進位檔案。

10
38_decoder/incremental_db/compiled_partitions/38_decoder.root_partition.map.kpt
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@ -1,10 +0,0 @@
<kpt_db name="38_decoder.map_bb" kpt_version="1.1">
<key_points_set type="reference" hier_sep="/">
</key_points_set>
<key_points_set type="transition" hier_sep="|">
</key_points_set>
<key_points_set type="transformed" hier_sep="|">
</key_points_set>
<transformations_set hier_sep="|">
</transformations_set>
</kpt_db>

129
adder_8b/adder_8b.asm.rpt
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@ -1,129 +0,0 @@
Assembler report for adder_8b
Mon Mar 07 11:28:58 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Assembler Summary
3. Assembler Settings
4. Assembler Generated Files
5. Assembler Device Options: D:/projects/quartus/adder_8b/adder_8b.sof
6. Assembler Device Options: D:/projects/quartus/adder_8b/adder_8b.pof
7. Assembler Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+---------------------------------------------------------------+
; Assembler Summary ;
+-----------------------+---------------------------------------+
; Assembler Status ; Successful - Mon Mar 07 11:28:58 2022 ;
; Revision Name ; adder_8b ;
; Top-level Entity Name ; adder_8b ;
; Family ; Cyclone II ;
; Device ; EP2C8Q208C8 ;
+-----------------------+---------------------------------------+
+--------------------------------------------------------------------------------------------------------+
; Assembler Settings ;
+-----------------------------------------------------------------------------+----------+---------------+
; Option ; Setting ; Default Value ;
+-----------------------------------------------------------------------------+----------+---------------+
; Use smart compilation ; Off ; Off ;
; Generate compressed bitstreams ; On ; On ;
; Compression mode ; Off ; Off ;
; Clock source for configuration device ; Internal ; Internal ;
; Clock frequency of the configuration device ; 10 MHZ ; 10 MHz ;
; Divide clock frequency by ; 1 ; 1 ;
; Auto user code ; Off ; Off ;
; Use configuration device ; On ; On ;
; Configuration device ; Auto ; Auto ;
; Configuration device auto user code ; Off ; Off ;
; Generate Tabular Text File (.ttf) For Target Device ; Off ; Off ;
; Generate Raw Binary File (.rbf) For Target Device ; Off ; Off ;
; Generate Hexadecimal (Intel-Format) Output File (.hexout) for Target Device ; Off ; Off ;
; Hexadecimal Output File start address ; 0 ; 0 ;
; Hexadecimal Output File count direction ; Up ; Up ;
; Release clears before tri-states ; Off ; Off ;
; Auto-restart configuration after error ; On ; On ;
; Maintain Compatibility with All Cyclone II M4K Versions ; On ; On ;
; Generate Serial Vector Format File (.svf) for Target Device ; Off ; Off ;
; Generate a JEDEC STAPL Format File (.jam) for Target Device ; Off ; Off ;
; Generate a compressed Jam STAPL Byte Code 2.0 File (.jbc) for Target Device ; Off ; Off ;
; Generate a compressed Jam STAPL Byte Code 2.0 File (.jbc) for Target Device ; On ; On ;
+-----------------------------------------------------------------------------+----------+---------------+
+-------------------------------------------+
; Assembler Generated Files ;
+-------------------------------------------+
; File Name ;
+-------------------------------------------+
; D:/projects/quartus/adder_8b/adder_8b.sof ;
; D:/projects/quartus/adder_8b/adder_8b.pof ;
+-------------------------------------------+
+---------------------------------------------------------------------+
; Assembler Device Options: D:/projects/quartus/adder_8b/adder_8b.sof ;
+----------------+----------------------------------------------------+
; Option ; Setting ;
+----------------+----------------------------------------------------+
; Device ; EP2C8Q208C8 ;
; JTAG usercode ; 0xFFFFFFFF ;
; Checksum ; 0x000C3C8E ;
+----------------+----------------------------------------------------+
+---------------------------------------------------------------------+
; Assembler Device Options: D:/projects/quartus/adder_8b/adder_8b.pof ;
+--------------------+------------------------------------------------+
; Option ; Setting ;
+--------------------+------------------------------------------------+
; Device ; EPCS4 ;
; JTAG usercode ; 0x00000000 ;
; Checksum ; 0x06EFBA32 ;
; Compression Ratio ; 3 ;
+--------------------+------------------------------------------------+
+--------------------+
; Assembler Messages ;
+--------------------+
Info: *******************************************************************
Info: Running Quartus II Assembler
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Mon Mar 07 11:28:58 2022
Info: Command: quartus_asm --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b
Info: Writing out detailed assembly data for power analysis
Info: Assembler is generating device programming files
Info: The Active Serial/Parallel mode CONF_DONE pin error check is disabled
Info: Quartus II Assembler was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 242 megabytes
Info: Processing ended: Mon Mar 07 11:28:58 2022
Info: Elapsed time: 00:00:00
Info: Total CPU time (on all processors): 00:00:00

1
adder_8b/adder_8b.done
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@ -1 +0,0 @@
Mon Mar 07 11:29:00 2022

1014
adder_8b/adder_8b.fit.rpt
查看文件

檔案差異因為檔案過大而無法顯示 載入差異

6
adder_8b/adder_8b.fit.smsg
查看文件

@ -1,6 +0,0 @@
Extra Info: Performing register packing on registers with non-logic cell location assignments
Extra Info: Completed register packing on registers with non-logic cell location assignments
Extra Info: Started Fast Input/Output/OE register processing
Extra Info: Finished Fast Input/Output/OE register processing
Extra Info: Moving registers into I/O cells, Multiplier Blocks, and RAM blocks to improve timing and density
Extra Info: Finished moving registers into I/O cells, Multiplier Blocks, and RAM blocks

16
adder_8b/adder_8b.fit.summary
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@ -1,16 +0,0 @@
Fitter Status : Successful - Mon Mar 07 11:28:57 2022
Quartus II Version : 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition
Revision Name : adder_8b
Top-level Entity Name : adder_8b
Family : Cyclone II
Device : EP2C8Q208C8
Timing Models : Final
Total logic elements : 21 / 8,256 ( < 1 % )
Total combinational functions : 21 / 8,256 ( < 1 % )
Dedicated logic registers : 0 / 8,256 ( 0 % )
Total registers : 0
Total pins : 26 / 138 ( 19 % )
Total virtual pins : 0
Total memory bits : 0 / 165,888 ( 0 % )
Embedded Multiplier 9-bit elements : 0 / 36 ( 0 % )
Total PLLs : 0 / 2 ( 0 % )

121
adder_8b/adder_8b.flow.rpt
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@ -1,121 +0,0 @@
Flow report for adder_8b
Mon Mar 07 11:28:59 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Flow Summary
3. Flow Settings
4. Flow Non-Default Global Settings
5. Flow Elapsed Time
6. Flow OS Summary
7. Flow Log
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------+
; Flow Summary ;
+------------------------------------+----------------------------------------------+
; Flow Status ; Successful - Mon Mar 07 11:28:59 2022 ;
; Quartus II Version ; 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition ;
; Revision Name ; adder_8b ;
; Top-level Entity Name ; adder_8b ;
; Family ; Cyclone II ;
; Device ; EP2C8Q208C8 ;
; Timing Models ; Final ;
; Met timing requirements ; Yes ;
; Total logic elements ; 21 / 8,256 ( < 1 % ) ;
; Total combinational functions ; 21 / 8,256 ( < 1 % ) ;
; Dedicated logic registers ; 0 / 8,256 ( 0 % ) ;
; Total registers ; 0 ;
; Total pins ; 26 / 138 ( 19 % ) ;
; Total virtual pins ; 0 ;
; Total memory bits ; 0 / 165,888 ( 0 % ) ;
; Embedded Multiplier 9-bit elements ; 0 / 36 ( 0 % ) ;
; Total PLLs ; 0 / 2 ( 0 % ) ;
+------------------------------------+----------------------------------------------+
+-----------------------------------------+
; Flow Settings ;
+-------------------+---------------------+
; Option ; Setting ;
+-------------------+---------------------+
; Start date & time ; 03/07/2022 11:28:55 ;
; Main task ; Compilation ;
; Revision Name ; adder_8b ;
+-------------------+---------------------+
+-------------------------------------------------------------------------------------------------------------------------------+
; Flow Non-Default Global Settings ;
+------------------------------------+-------------------------------------------+---------------+-------------+----------------+
; Assignment Name ; Value ; Default Value ; Entity Name ; Section Id ;
+------------------------------------+-------------------------------------------+---------------+-------------+----------------+
; COMPILER_SIGNATURE_ID ; 220283517943889.164662373514744 ; -- ; -- ; -- ;
; MAX_CORE_JUNCTION_TEMP ; 85 ; -- ; -- ; -- ;
; MIN_CORE_JUNCTION_TEMP ; 0 ; -- ; -- ; -- ;
; MISC_FILE ; D:/projects/quartus/adder_8b/adder_8b.dpf ; -- ; -- ; -- ;
; PARTITION_COLOR ; 16764057 ; -- ; -- ; Top ;
; PARTITION_NETLIST_TYPE ; SOURCE ; -- ; -- ; Top ;
; USE_GENERATED_PHYSICAL_CONSTRAINTS ; Off ; -- ; -- ; eda_blast_fpga ;
+------------------------------------+-------------------------------------------+---------------+-------------+----------------+
+-----------------------------------------------------------------------------------------------------------------------------+
; Flow Elapsed Time ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
; Module Name ; Elapsed Time ; Average Processors Used ; Peak Virtual Memory ; Total CPU Time (on all processors) ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
; Analysis & Synthesis ; 00:00:01 ; 1.0 ; 246 MB ; 00:00:00 ;
; Fitter ; 00:00:01 ; 1.0 ; 305 MB ; 00:00:01 ;
; Assembler ; 00:00:00 ; 1.0 ; 242 MB ; 00:00:00 ;
; Classic Timing Analyzer ; 00:00:00 ; 1.0 ; 199 MB ; 00:00:00 ;
; Total ; 00:00:02 ; -- ; -- ; 00:00:01 ;
+-------------------------+--------------+-------------------------+---------------------+------------------------------------+
+------------------------------------------------------------------------------------------+
; Flow OS Summary ;
+-------------------------+------------------+---------------+------------+----------------+
; Module Name ; Machine Hostname ; OS Name ; OS Version ; Processor type ;
+-------------------------+------------------+---------------+------------+----------------+
; Analysis & Synthesis ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Fitter ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Assembler ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
; Classic Timing Analyzer ; Polyphony ; Windows Vista ; 6.2 ; x86_64 ;
+-------------------------+------------------+---------------+------------+----------------+
------------
; Flow Log ;
------------
quartus_map --read_settings_files=on --write_settings_files=off adder_8b -c adder_8b
quartus_fit --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b
quartus_asm --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b
quartus_tan --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b --timing_analysis_only

240
adder_8b/adder_8b.map.rpt
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@ -1,240 +0,0 @@
Analysis & Synthesis report for adder_8b
Mon Mar 07 11:28:55 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Analysis & Synthesis Summary
3. Analysis & Synthesis Settings
4. Analysis & Synthesis Source Files Read
5. Analysis & Synthesis Resource Usage Summary
6. Analysis & Synthesis Resource Utilization by Entity
7. General Register Statistics
8. Analysis & Synthesis Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------+
; Analysis & Synthesis Summary ;
+------------------------------------+----------------------------------------------+
; Analysis & Synthesis Status ; Successful - Mon Mar 07 11:28:55 2022 ;
; Quartus II Version ; 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition ;
; Revision Name ; adder_8b ;
; Top-level Entity Name ; adder_8b ;
; Family ; Cyclone II ;
; Total logic elements ; 21 ;
; Total combinational functions ; 21 ;
; Dedicated logic registers ; 0 ;
; Total registers ; 0 ;
; Total pins ; 26 ;
; Total virtual pins ; 0 ;
; Total memory bits ; 0 ;
; Embedded Multiplier 9-bit elements ; 0 ;
; Total PLLs ; 0 ;
+------------------------------------+----------------------------------------------+
+--------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Settings ;
+--------------------------------------------------------------+--------------------+--------------------+
; Option ; Setting ; Default Value ;
+--------------------------------------------------------------+--------------------+--------------------+
; Device ; EP2C8Q208C8 ; ;
; Top-level entity name ; adder_8b ; adder_8b ;
; Family name ; Cyclone II ; Stratix II ;
; Use Generated Physical Constraints File ; Off ; ;
; Use smart compilation ; Off ; Off ;
; Restructure Multiplexers ; Auto ; Auto ;
; Create Debugging Nodes for IP Cores ; Off ; Off ;
; Preserve fewer node names ; On ; On ;
; Disable OpenCore Plus hardware evaluation ; Off ; Off ;
; Verilog Version ; Verilog_2001 ; Verilog_2001 ;
; VHDL Version ; VHDL93 ; VHDL93 ;
; State Machine Processing ; Auto ; Auto ;
; Safe State Machine ; Off ; Off ;
; Extract Verilog State Machines ; On ; On ;
; Extract VHDL State Machines ; On ; On ;
; Ignore Verilog initial constructs ; Off ; Off ;
; Iteration limit for constant Verilog loops ; 5000 ; 5000 ;
; Iteration limit for non-constant Verilog loops ; 250 ; 250 ;
; Add Pass-Through Logic to Inferred RAMs ; On ; On ;
; Parallel Synthesis ; Off ; Off ;
; DSP Block Balancing ; Auto ; Auto ;
; NOT Gate Push-Back ; On ; On ;
; Power-Up Don't Care ; On ; On ;
; Remove Redundant Logic Cells ; Off ; Off ;
; Remove Duplicate Registers ; On ; On ;
; Ignore CARRY Buffers ; Off ; Off ;
; Ignore CASCADE Buffers ; Off ; Off ;
; Ignore GLOBAL Buffers ; Off ; Off ;
; Ignore ROW GLOBAL Buffers ; Off ; Off ;
; Ignore LCELL Buffers ; Off ; Off ;
; Ignore SOFT Buffers ; On ; On ;
; Limit AHDL Integers to 32 Bits ; Off ; Off ;
; Optimization Technique ; Balanced ; Balanced ;
; Carry Chain Length ; 70 ; 70 ;
; Auto Carry Chains ; On ; On ;
; Auto Open-Drain Pins ; On ; On ;
; Perform WYSIWYG Primitive Resynthesis ; Off ; Off ;
; Auto ROM Replacement ; On ; On ;
; Auto RAM Replacement ; On ; On ;
; Auto Shift Register Replacement ; Auto ; Auto ;
; Auto Clock Enable Replacement ; On ; On ;
; Strict RAM Replacement ; Off ; Off ;
; Allow Synchronous Control Signals ; On ; On ;
; Force Use of Synchronous Clear Signals ; Off ; Off ;
; Auto RAM to Logic Cell Conversion ; Off ; Off ;
; Auto Resource Sharing ; Off ; Off ;
; Allow Any RAM Size For Recognition ; Off ; Off ;
; Allow Any ROM Size For Recognition ; Off ; Off ;
; Allow Any Shift Register Size For Recognition ; Off ; Off ;
; Use LogicLock Constraints during Resource Balancing ; On ; On ;
; Ignore translate_off and synthesis_off directives ; Off ; Off ;
; Timing-Driven Synthesis ; Off ; Off ;
; Show Parameter Settings Tables in Synthesis Report ; On ; On ;
; Ignore Maximum Fan-Out Assignments ; Off ; Off ;
; Synchronization Register Chain Length ; 2 ; 2 ;
; PowerPlay Power Optimization ; Normal compilation ; Normal compilation ;
; HDL message level ; Level2 ; Level2 ;
; Suppress Register Optimization Related Messages ; Off ; Off ;
; Number of Removed Registers Reported in Synthesis Report ; 100 ; 100 ;
; Number of Inverted Registers Reported in Synthesis Report ; 100 ; 100 ;
; Clock MUX Protection ; On ; On ;
; Auto Gated Clock Conversion ; Off ; Off ;
; Block Design Naming ; Auto ; Auto ;
; SDC constraint protection ; Off ; Off ;
; Synthesis Effort ; Auto ; Auto ;
; Shift Register Replacement - Allow Asynchronous Clear Signal ; On ; On ;
; Analysis & Synthesis Message Level ; Medium ; Medium ;
+--------------------------------------------------------------+--------------------+--------------------+
+------------------------------------------------------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Source Files Read ;
+----------------------------------+-----------------+------------------------------------+------------------------------------------------------------+
; File Name with User-Entered Path ; Used in Netlist ; File Type ; File Name with Absolute Path ;
+----------------------------------+-----------------+------------------------------------+------------------------------------------------------------+
; adder_8b.bdf ; yes ; User Block Diagram/Schematic File ; D:/projects/quartus/adder_8b/adder_8b.bdf ;
; 7400.bdf ; yes ; Megafunction ; d:/altera/90sp2/quartus/libraries/others/maxplus2/7400.bdf ;
; 7486.bdf ; yes ; Megafunction ; d:/altera/90sp2/quartus/libraries/others/maxplus2/7486.bdf ;
+----------------------------------+-----------------+------------------------------------+------------------------------------------------------------+
+--------------------------------------------------------------+
; Analysis & Synthesis Resource Usage Summary ;
+---------------------------------------------+----------------+
; Resource ; Usage ;
+---------------------------------------------+----------------+
; Estimated Total logic elements ; 21 ;
; ; ;
; Total combinational functions ; 21 ;
; Logic element usage by number of LUT inputs ; ;
; -- 4 input functions ; 9 ;
; -- 3 input functions ; 9 ;
; -- <=2 input functions ; 3 ;
; ; ;
; Logic elements by mode ; ;
; -- normal mode ; 21 ;
; -- arithmetic mode ; 0 ;
; ; ;
; Total registers ; 0 ;
; -- Dedicated logic registers ; 0 ;
; -- I/O registers ; 0 ;
; ; ;
; I/O pins ; 26 ;
; Maximum fan-out node ; 7400:inst8|4~0 ;
; Maximum fan-out ; 4 ;
; Total fan-out ; 78 ;
; Average fan-out ; 1.66 ;
+---------------------------------------------+----------------+
+-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------+
; Analysis & Synthesis Resource Utilization by Entity ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+-----------------------+--------------+
; Compilation Hierarchy Node ; LC Combinationals ; LC Registers ; Memory Bits ; DSP Elements ; DSP 9x9 ; DSP 18x18 ; Pins ; Virtual Pins ; Full Hierarchy Name ; Library Name ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+-----------------------+--------------+
; |adder_8b ; 21 (0) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 26 ; 0 ; |adder_8b ; work ;
; |7400:inst13| ; 2 (2) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst13 ; work ;
; |7400:inst18| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst18 ; work ;
; |7400:inst23| ; 3 (3) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst23 ; work ;
; |7400:inst28| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst28 ; work ;
; |7400:inst33| ; 2 (2) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst33 ; work ;
; |7400:inst38| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst38 ; work ;
; |7400:inst3| ; 2 (2) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst3 ; work ;
; |7400:inst8| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7400:inst8 ; work ;
; |7486:inst10| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst10 ; work ;
; |7486:inst15| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst15 ; work ;
; |7486:inst20| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst20 ; work ;
; |7486:inst25| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst25 ; work ;
; |7486:inst30| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst30 ; work ;
; |7486:inst35| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst35 ; work ;
; |7486:inst40| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst40 ; work ;
; |7486:inst5| ; 1 (1) ; 0 (0) ; 0 ; 0 ; 0 ; 0 ; 0 ; 0 ; |adder_8b|7486:inst5 ; work ;
+----------------------------+-------------------+--------------+-------------+--------------+---------+-----------+------+--------------+-----------------------+--------------+
Note: For table entries with two numbers listed, the numbers in parentheses indicate the number of resources of the given type used by the specific entity alone. The numbers listed outside of parentheses indicate the total resources of the given type used by the specific entity and all of its sub-entities in the hierarchy.
+------------------------------------------------------+
; General Register Statistics ;
+----------------------------------------------+-------+
; Statistic ; Value ;
+----------------------------------------------+-------+
; Total registers ; 0 ;
; Number of registers using Synchronous Clear ; 0 ;
; Number of registers using Synchronous Load ; 0 ;
; Number of registers using Asynchronous Clear ; 0 ;
; Number of registers using Asynchronous Load ; 0 ;
; Number of registers using Clock Enable ; 0 ;
; Number of registers using Preset ; 0 ;
+----------------------------------------------+-------+
+-------------------------------+
; Analysis & Synthesis Messages ;
+-------------------------------+
Info: *******************************************************************
Info: Running Quartus II Analysis & Synthesis
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Mon Mar 07 11:28:54 2022
Info: Command: quartus_map --read_settings_files=on --write_settings_files=off adder_8b -c adder_8b
Info: Found 1 design units, including 1 entities, in source file adder_8b.bdf
Info: Found entity 1: adder_8b
Info: Elaborating entity "adder_8b" for the top level hierarchy
Info: Elaborating entity "7400" for hierarchy "7400:inst38"
Info: Elaborated megafunction instantiation "7400:inst38"
Info: Elaborating entity "7486" for hierarchy "7486:inst"
Info: Elaborated megafunction instantiation "7486:inst"
Info: Implemented 47 device resources after synthesis - the final resource count might be different
Info: Implemented 17 input pins
Info: Implemented 9 output pins
Info: Implemented 21 logic cells
Info: Quartus II Analysis & Synthesis was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 250 megabytes
Info: Processing ended: Mon Mar 07 11:28:55 2022
Info: Elapsed time: 00:00:01
Info: Total CPU time (on all processors): 00:00:01

14
adder_8b/adder_8b.map.summary
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@ -1,14 +0,0 @@
Analysis & Synthesis Status : Successful - Mon Mar 07 11:28:55 2022
Quartus II Version : 9.0 Build 235 06/17/2009 SP 2 SJ Web Edition
Revision Name : adder_8b
Top-level Entity Name : adder_8b
Family : Cyclone II
Total logic elements : 21
Total combinational functions : 21
Dedicated logic registers : 0
Total registers : 0
Total pins : 26
Total virtual pins : 0
Total memory bits : 0
Embedded Multiplier 9-bit elements : 0
Total PLLs : 0

278
adder_8b/adder_8b.pin
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@ -1,278 +0,0 @@
-- Copyright (C) 1991-2009 Altera Corporation
-- Your use of Altera Corporation's design tools, logic functions
-- and other software and tools, and its AMPP partner logic
-- functions, and any output files from any of the foregoing
-- (including device programming or simulation files), and any
-- associated documentation or information are expressly subject
-- to the terms and conditions of the Altera Program License
-- Subscription Agreement, Altera MegaCore Function License
-- Agreement, or other applicable license agreement, including,
-- without limitation, that your use is for the sole purpose of
-- programming logic devices manufactured by Altera and sold by
-- Altera or its authorized distributors. Please refer to the
-- applicable agreement for further details.
--
-- This is a Quartus II output file. It is for reporting purposes only, and is
-- not intended for use as a Quartus II input file. This file cannot be used
-- to make Quartus II pin assignments - for instructions on how to make pin
-- assignments, please see Quartus II help.
---------------------------------------------------------------------------------
---------------------------------------------------------------------------------
-- NC : No Connect. This pin has no internal connection to the device.
-- DNU : Do Not Use. This pin MUST NOT be connected.
-- VCCINT : Dedicated power pin, which MUST be connected to VCC (1.2V).
-- VCCIO : Dedicated power pin, which MUST be connected to VCC
-- of its bank.
-- Bank 1: 3.3V
-- Bank 2: 3.3V
-- Bank 3: 3.3V
-- Bank 4: 3.3V
-- GND : Dedicated ground pin. Dedicated GND pins MUST be connected to GND.
-- It can also be used to report unused dedicated pins. The connection
-- on the board for unused dedicated pins depends on whether this will
-- be used in a future design. One example is device migration. When
-- using device migration, refer to the device pin-tables. If it is a
-- GND pin in the pin table or if it will not be used in a future design
-- for another purpose the it MUST be connected to GND. If it is an unused
-- dedicated pin, then it can be connected to a valid signal on the board
-- (low, high, or toggling) if that signal is required for a different
-- revision of the design.
-- GND+ : Unused input pin. It can also be used to report unused dual-purpose pins.
-- This pin should be connected to GND. It may also be connected to a
-- valid signal on the board (low, high, or toggling) if that signal
-- is required for a different revision of the design.
-- GND* : Unused I/O pin. For transceiver I/O banks (Bank 13, 14, 15, 16 and 17),
-- connect each pin marked GND* either individually through a 10k Ohm resistor
-- to GND or tie all pins together and connect through a single 10k Ohm resistor
-- to GND.
-- For non-transceiver I/O banks, connect each pin marked GND* directly to GND
-- or leave it unconnected.
-- RESERVED : Unused I/O pin, which MUST be left unconnected.
-- RESERVED_INPUT : Pin is tri-stated and should be connected to the board.
-- RESERVED_INPUT_WITH_WEAK_PULLUP : Pin is tri-stated with internal weak pull-up resistor.
-- RESERVED_INPUT_WITH_BUS_HOLD : Pin is tri-stated with bus-hold circuitry.
-- RESERVED_OUTPUT_DRIVEN_HIGH : Pin is output driven high.
---------------------------------------------------------------------------------
---------------------------------------------------------------------------------
-- Pin directions (input, output or bidir) are based on device operating in user mode.
---------------------------------------------------------------------------------
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
CHIP "adder_8b" ASSIGNED TO AN: EP2C8Q208C8
Pin Name/Usage : Location : Dir. : I/O Standard : Voltage : I/O Bank : User Assignment
-------------------------------------------------------------------------------------------------------------
~ASDO~ / RESERVED_INPUT_WITH_WEAK_PULLUP : 1 : input : 3.3-V LVTTL : : 1 : N
~nCSO~ / RESERVED_INPUT_WITH_WEAK_PULLUP : 2 : input : 3.3-V LVTTL : : 1 : N
RESERVED_INPUT : 3 : : : : 1 :
RESERVED_INPUT : 4 : : : : 1 :
RESERVED_INPUT : 5 : : : : 1 :
RESERVED_INPUT : 6 : : : : 1 :
VCCIO1 : 7 : power : : 3.3V : 1 :
RESERVED_INPUT : 8 : : : : 1 :
GND : 9 : gnd : : : :
RESERVED_INPUT : 10 : : : : 1 :
RESERVED_INPUT : 11 : : : : 1 :
RESERVED_INPUT : 12 : : : : 1 :
RESERVED_INPUT : 13 : : : : 1 :
RESERVED_INPUT : 14 : : : : 1 :
RESERVED_INPUT : 15 : : : : 1 :
TDO : 16 : output : : : 1 :
TMS : 17 : input : : : 1 :
TCK : 18 : input : : : 1 :
TDI : 19 : input : : : 1 :
DATA0 : 20 : input : : : 1 :
DCLK : 21 : : : : 1 :
nCE : 22 : : : : 1 :
CI : 23 : input : 3.3-V LVTTL : : 1 : Y
GND+ : 24 : : : : 1 :
GND : 25 : gnd : : : :
nCONFIG : 26 : : : : 1 :
GND+ : 27 : : : : 1 :
GND+ : 28 : : : : 1 :
VCCIO1 : 29 : power : : 3.3V : 1 :
RESERVED_INPUT : 30 : : : : 1 :
RESERVED_INPUT : 31 : : : : 1 :
VCCINT : 32 : power : : 1.2V : :
RESERVED_INPUT : 33 : : : : 1 :
RESERVED_INPUT : 34 : : : : 1 :
RESERVED_INPUT : 35 : : : : 1 :
GND : 36 : gnd : : : :
RESERVED_INPUT : 37 : : : : 1 :
GND : 38 : gnd : : : :
RESERVED_INPUT : 39 : : : : 1 :
RESERVED_INPUT : 40 : : : : 1 :
RESERVED_INPUT : 41 : : : : 1 :
VCCIO1 : 42 : power : : 3.3V : 1 :
RESERVED_INPUT : 43 : : : : 1 :
RESERVED_INPUT : 44 : : : : 1 :
RESERVED_INPUT : 45 : : : : 1 :
RESERVED_INPUT : 46 : : : : 1 :
RESERVED_INPUT : 47 : : : : 1 :
RESERVED_INPUT : 48 : : : : 1 :
GND : 49 : gnd : : : :
GND_PLL1 : 50 : gnd : : : :
VCCD_PLL1 : 51 : power : : 1.2V : :
GND_PLL1 : 52 : gnd : : : :
VCCA_PLL1 : 53 : power : : 1.2V : :
GNDA_PLL1 : 54 : gnd : : : :
GND : 55 : gnd : : : :
RESERVED_INPUT : 56 : : : : 4 :
RESERVED_INPUT : 57 : : : : 4 :
RESERVED_INPUT : 58 : : : : 4 :
RESERVED_INPUT : 59 : : : : 4 :
RESERVED_INPUT : 60 : : : : 4 :
RESERVED_INPUT : 61 : : : : 4 :
VCCIO4 : 62 : power : : 3.3V : 4 :
RESERVED_INPUT : 63 : : : : 4 :
RESERVED_INPUT : 64 : : : : 4 :
GND : 65 : gnd : : : :
VCCINT : 66 : power : : 1.2V : :
B0 : 67 : input : 3.3-V LVTTL : : 4 : Y
B1 : 68 : input : 3.3-V LVTTL : : 4 : Y
B2 : 69 : input : 3.3-V LVTTL : : 4 : Y
B3 : 70 : input : 3.3-V LVTTL : : 4 : Y
VCCIO4 : 71 : power : : 3.3V : 4 :
B4 : 72 : input : 3.3-V LVTTL : : 4 : Y
GND : 73 : gnd : : : :
B5 : 74 : input : 3.3-V LVTTL : : 4 : Y
B6 : 75 : input : 3.3-V LVTTL : : 4 : Y
B7 : 76 : input : 3.3-V LVTTL : : 4 : Y
A0 : 77 : input : 3.3-V LVTTL : : 4 : Y
GND : 78 : gnd : : : :
VCCINT : 79 : power : : 1.2V : :
A1 : 80 : input : 3.3-V LVTTL : : 4 : Y
A2 : 81 : input : 3.3-V LVTTL : : 4 : Y
A3 : 82 : input : 3.3-V LVTTL : : 4 : Y
VCCIO4 : 83 : power : : 3.3V : 4 :
A4 : 84 : input : 3.3-V LVTTL : : 4 : Y
GND : 85 : gnd : : : :
A5 : 86 : input : 3.3-V LVTTL : : 4 : Y
A6 : 87 : input : 3.3-V LVTTL : : 4 : Y
A7 : 88 : input : 3.3-V LVTTL : : 4 : Y
RESERVED_INPUT : 89 : : : : 4 :
RESERVED_INPUT : 90 : : : : 4 :
VCCIO4 : 91 : power : : 3.3V : 4 :
RESERVED_INPUT : 92 : : : : 4 :
GND : 93 : gnd : : : :
RESERVED_INPUT : 94 : : : : 4 :
RESERVED_INPUT : 95 : : : : 4 :
RESERVED_INPUT : 96 : : : : 4 :
RESERVED_INPUT : 97 : : : : 4 :
VCCIO4 : 98 : power : : 3.3V : 4 :
RESERVED_INPUT : 99 : : : : 4 :
GND : 100 : gnd : : : :
RESERVED_INPUT : 101 : : : : 4 :
RESERVED_INPUT : 102 : : : : 4 :
RESERVED_INPUT : 103 : : : : 4 :
RESERVED_INPUT : 104 : : : : 4 :
RESERVED_INPUT : 105 : : : : 3 :
RESERVED_INPUT : 106 : : : : 3 :
RESERVED_INPUT : 107 : : : : 3 :
~LVDS54p/nCEO~ : 108 : output : 3.3-V LVTTL : : 3 : N
VCCIO3 : 109 : power : : 3.3V : 3 :
RESERVED_INPUT : 110 : : : : 3 :
GND : 111 : gnd : : : :
RESERVED_INPUT : 112 : : : : 3 :
RESERVED_INPUT : 113 : : : : 3 :
RESERVED_INPUT : 114 : : : : 3 :
RESERVED_INPUT : 115 : : : : 3 :
RESERVED_INPUT : 116 : : : : 3 :
RESERVED_INPUT : 117 : : : : 3 :
RESERVED_INPUT : 118 : : : : 3 :
GND : 119 : gnd : : : :
VCCINT : 120 : power : : 1.2V : :
nSTATUS : 121 : : : : 3 :
VCCIO3 : 122 : power : : 3.3V : 3 :
CONF_DONE : 123 : : : : 3 :
GND : 124 : gnd : : : :
MSEL1 : 125 : : : : 3 :
MSEL0 : 126 : : : : 3 :
RESERVED_INPUT : 127 : : : : 3 :
RESERVED_INPUT : 128 : : : : 3 :
GND+ : 129 : : : : 3 :
GND+ : 130 : : : : 3 :
GND+ : 131 : : : : 3 :
GND+ : 132 : : : : 3 :
RESERVED_INPUT : 133 : : : : 3 :
RESERVED_INPUT : 134 : : : : 3 :
RESERVED_INPUT : 135 : : : : 3 :
VCCIO3 : 136 : power : : 3.3V : 3 :
RESERVED_INPUT : 137 : : : : 3 :
RESERVED_INPUT : 138 : : : : 3 :
RESERVED_INPUT : 139 : : : : 3 :
GND : 140 : gnd : : : :
RESERVED_INPUT : 141 : : : : 3 :
S0 : 142 : output : 3.3-V LVTTL : : 3 : Y
S1 : 143 : output : 3.3-V LVTTL : : 3 : Y
S2 : 144 : output : 3.3-V LVTTL : : 3 : Y
S3 : 145 : output : 3.3-V LVTTL : : 3 : Y
S4 : 146 : output : 3.3-V LVTTL : : 3 : Y
S5 : 147 : output : 3.3-V LVTTL : : 3 : Y
VCCIO3 : 148 : power : : 3.3V : 3 :
S6 : 149 : output : 3.3-V LVTTL : : 3 : Y
S7 : 150 : output : 3.3-V LVTTL : : 3 : Y
CO : 151 : output : 3.3-V LVTTL : : 3 : Y
RESERVED_INPUT : 152 : : : : 3 :
GND : 153 : gnd : : : :
GND_PLL2 : 154 : gnd : : : :
VCCD_PLL2 : 155 : power : : 1.2V : :
GND_PLL2 : 156 : gnd : : : :
VCCA_PLL2 : 157 : power : : 1.2V : :
GNDA_PLL2 : 158 : gnd : : : :
GND : 159 : gnd : : : :
RESERVED_INPUT : 160 : : : : 2 :
RESERVED_INPUT : 161 : : : : 2 :
RESERVED_INPUT : 162 : : : : 2 :
RESERVED_INPUT : 163 : : : : 2 :
RESERVED_INPUT : 164 : : : : 2 :
RESERVED_INPUT : 165 : : : : 2 :
VCCIO2 : 166 : power : : 3.3V : 2 :
GND : 167 : gnd : : : :
RESERVED_INPUT : 168 : : : : 2 :
RESERVED_INPUT : 169 : : : : 2 :
RESERVED_INPUT : 170 : : : : 2 :
RESERVED_INPUT : 171 : : : : 2 :
VCCIO2 : 172 : power : : 3.3V : 2 :
RESERVED_INPUT : 173 : : : : 2 :
GND : 174 : gnd : : : :
RESERVED_INPUT : 175 : : : : 2 :
RESERVED_INPUT : 176 : : : : 2 :
GND : 177 : gnd : : : :
VCCINT : 178 : power : : 1.2V : :
RESERVED_INPUT : 179 : : : : 2 :
RESERVED_INPUT : 180 : : : : 2 :
RESERVED_INPUT : 181 : : : : 2 :
RESERVED_INPUT : 182 : : : : 2 :
VCCIO2 : 183 : power : : 3.3V : 2 :
GND : 184 : gnd : : : :
RESERVED_INPUT : 185 : : : : 2 :
GND : 186 : gnd : : : :
RESERVED_INPUT : 187 : : : : 2 :
RESERVED_INPUT : 188 : : : : 2 :
RESERVED_INPUT : 189 : : : : 2 :
VCCINT : 190 : power : : 1.2V : :
RESERVED_INPUT : 191 : : : : 2 :
RESERVED_INPUT : 192 : : : : 2 :
RESERVED_INPUT : 193 : : : : 2 :
VCCIO2 : 194 : power : : 3.3V : 2 :
RESERVED_INPUT : 195 : : : : 2 :
GND : 196 : gnd : : : :
RESERVED_INPUT : 197 : : : : 2 :
RESERVED_INPUT : 198 : : : : 2 :
RESERVED_INPUT : 199 : : : : 2 :
RESERVED_INPUT : 200 : : : : 2 :
RESERVED_INPUT : 201 : : : : 2 :
VCCIO2 : 202 : power : : 3.3V : 2 :
RESERVED_INPUT : 203 : : : : 2 :
GND : 204 : gnd : : : :
RESERVED_INPUT : 205 : : : : 2 :
RESERVED_INPUT : 206 : : : : 2 :
RESERVED_INPUT : 207 : : : : 2 :
RESERVED_INPUT : 208 : : : : 2 :

二進制
adder_8b/adder_8b.pof
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14
adder_8b/adder_8b.qws
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[ProjectWorkspace]
ptn_Child1=Frames
[ProjectWorkspace.Frames]
ptn_Child1=ChildFrames
[ProjectWorkspace.Frames.ChildFrames]
ptn_Child1=Document-0
[ProjectWorkspace.Frames.ChildFrames.Document-0]
ptn_Child1=ViewFrame-0
[ProjectWorkspace.Frames.ChildFrames.Document-0.ViewFrame-0]
DocPathName=adder_8b.bdf
DocumentCLSID={7b19e8f2-2bbe-11d1-a082-0020affa5bde}
IsChildFrameDetached=False
IsActiveChildFrame=True
ptn_Child1=StateMap

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adder_8b/adder_8b.sof
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229
adder_8b/adder_8b.tan.rpt
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@ -1,229 +0,0 @@
Classic Timing Analyzer report for adder_8b
Mon Mar 07 11:28:59 2022
Quartus II Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
---------------------
; Table of Contents ;
---------------------
1. Legal Notice
2. Timing Analyzer Summary
3. Timing Analyzer Settings
4. Parallel Compilation
5. tpd
6. Timing Analyzer Messages
----------------
; Legal Notice ;
----------------
Copyright (C) 1991-2009 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
+-----------------------------------------------------------------------------------------------------------------------+
; Timing Analyzer Summary ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
; Type ; Slack ; Required Time ; Actual Time ; From ; To ; From Clock ; To Clock ; Failed Paths ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
; Worst-case tpd ; N/A ; None ; 22.018 ns ; B0 ; CO ; -- ; -- ; 0 ;
; Total number of failed paths ; ; ; ; ; ; ; ; 0 ;
+------------------------------+-------+---------------+-------------+------+----+------------+----------+--------------+
+--------------------------------------------------------------------------------------------------------------------+
; Timing Analyzer Settings ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
; Option ; Setting ; From ; To ; Entity Name ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
; Device Name ; EP2C8Q208C8 ; ; ; ;
; Timing Models ; Final ; ; ; ;
; Default hold multicycle ; Same as Multicycle ; ; ; ;
; Cut paths between unrelated clock domains ; On ; ; ; ;
; Cut off read during write signal paths ; On ; ; ; ;
; Cut off feedback from I/O pins ; On ; ; ; ;
; Report Combined Fast/Slow Timing ; Off ; ; ; ;
; Ignore Clock Settings ; Off ; ; ; ;
; Analyze latches as synchronous elements ; On ; ; ; ;
; Enable Recovery/Removal analysis ; Off ; ; ; ;
; Enable Clock Latency ; Off ; ; ; ;
; Use TimeQuest Timing Analyzer ; Off ; ; ; ;
; Minimum Core Junction Temperature ; 0 ; ; ; ;
; Maximum Core Junction Temperature ; 85 ; ; ; ;
; Number of source nodes to report per destination node ; 10 ; ; ; ;
; Number of destination nodes to report ; 10 ; ; ; ;
; Number of paths to report ; 200 ; ; ; ;
; Report Minimum Timing Checks ; Off ; ; ; ;
; Use Fast Timing Models ; Off ; ; ; ;
; Report IO Paths Separately ; Off ; ; ; ;
; Perform Multicorner Analysis ; On ; ; ; ;
; Reports the worst-case path for each clock domain and analysis ; Off ; ; ; ;
; Removes common clock path pessimism (CCPP) during slack computation ; Off ; ; ; ;
; Output I/O Timing Endpoint ; Near End ; ; ; ;
+---------------------------------------------------------------------+--------------------+------+----+-------------+
+------------------------------------------+
; Parallel Compilation ;
+----------------------------+-------------+
; Processors ; Number ;
+----------------------------+-------------+
; Number detected on machine ; 4 ;
; Maximum allowed ; 4 ;
; ; ;
; Average used ; 1.00 ;
; Maximum used ; 1 ;
; ; ;
; Usage by Processor ; % Time Used ;
; 1 processor ; 100.0% ;
; 2-4 processors ; 0.0% ;
+----------------------------+-------------+
+---------------------------------------------------------+
; tpd ;
+-------+-------------------+-----------------+------+----+
; Slack ; Required P2P Time ; Actual P2P Time ; From ; To ;
+-------+-------------------+-----------------+------+----+
; N/A ; None ; 22.018 ns ; B0 ; CO ;
; N/A ; None ; 21.780 ns ; B0 ; S7 ;
; N/A ; None ; 21.052 ns ; B1 ; CO ;
; N/A ; None ; 20.864 ns ; A0 ; CO ;
; N/A ; None ; 20.814 ns ; B1 ; S7 ;
; N/A ; None ; 20.626 ns ; A0 ; S7 ;
; N/A ; None ; 20.579 ns ; A1 ; CO ;
; N/A ; None ; 20.442 ns ; B0 ; S6 ;
; N/A ; None ; 20.341 ns ; A1 ; S7 ;
; N/A ; None ; 20.259 ns ; B2 ; CO ;
; N/A ; None ; 20.021 ns ; B2 ; S7 ;
; N/A ; None ; 19.812 ns ; A2 ; CO ;
; N/A ; None ; 19.574 ns ; A2 ; S7 ;
; N/A ; None ; 19.476 ns ; B1 ; S6 ;
; N/A ; None ; 19.288 ns ; A0 ; S6 ;
; N/A ; None ; 19.089 ns ; B0 ; S5 ;
; N/A ; None ; 19.003 ns ; A1 ; S6 ;
; N/A ; None ; 18.831 ns ; B3 ; CO ;
; N/A ; None ; 18.728 ns ; A3 ; CO ;
; N/A ; None ; 18.683 ns ; B2 ; S6 ;
; N/A ; None ; 18.593 ns ; B3 ; S7 ;
; N/A ; None ; 18.490 ns ; A3 ; S7 ;
; N/A ; None ; 18.303 ns ; B0 ; S4 ;
; N/A ; None ; 18.291 ns ; A4 ; CO ;
; N/A ; None ; 18.236 ns ; A2 ; S6 ;
; N/A ; None ; 18.123 ns ; B1 ; S5 ;
; N/A ; None ; 18.053 ns ; A4 ; S7 ;
; N/A ; None ; 17.935 ns ; A0 ; S5 ;
; N/A ; None ; 17.650 ns ; A1 ; S5 ;
; N/A ; None ; 17.587 ns ; B4 ; CO ;
; N/A ; None ; 17.447 ns ; CI ; CO ;
; N/A ; None ; 17.370 ns ; B0 ; S3 ;
; N/A ; None ; 17.349 ns ; B4 ; S7 ;
; N/A ; None ; 17.337 ns ; B1 ; S4 ;
; N/A ; None ; 17.330 ns ; B2 ; S5 ;
; N/A ; None ; 17.255 ns ; B3 ; S6 ;
; N/A ; None ; 17.209 ns ; CI ; S7 ;
; N/A ; None ; 17.202 ns ; A5 ; CO ;
; N/A ; None ; 17.152 ns ; A3 ; S6 ;
; N/A ; None ; 17.149 ns ; A0 ; S4 ;
; N/A ; None ; 16.987 ns ; B5 ; CO ;
; N/A ; None ; 16.964 ns ; A5 ; S7 ;
; N/A ; None ; 16.883 ns ; A2 ; S5 ;
; N/A ; None ; 16.864 ns ; A1 ; S4 ;
; N/A ; None ; 16.749 ns ; B5 ; S7 ;
; N/A ; None ; 16.715 ns ; A4 ; S6 ;
; N/A ; None ; 16.544 ns ; B2 ; S4 ;
; N/A ; None ; 16.404 ns ; B1 ; S3 ;
; N/A ; None ; 16.306 ns ; B0 ; S2 ;
; N/A ; None ; 16.216 ns ; A0 ; S3 ;
; N/A ; None ; 16.097 ns ; A2 ; S4 ;
; N/A ; None ; 16.011 ns ; B4 ; S6 ;
; N/A ; None ; 15.931 ns ; A1 ; S3 ;
; N/A ; None ; 15.902 ns ; B3 ; S5 ;
; N/A ; None ; 15.871 ns ; CI ; S6 ;
; N/A ; None ; 15.799 ns ; A3 ; S5 ;
; N/A ; None ; 15.626 ns ; A5 ; S6 ;
; N/A ; None ; 15.611 ns ; B2 ; S3 ;
; N/A ; None ; 15.411 ns ; B5 ; S6 ;
; N/A ; None ; 15.366 ns ; A4 ; S5 ;
; N/A ; None ; 15.340 ns ; B1 ; S2 ;
; N/A ; None ; 15.164 ns ; A2 ; S3 ;
; N/A ; None ; 15.152 ns ; A0 ; S2 ;
; N/A ; None ; 15.116 ns ; B3 ; S4 ;
; N/A ; None ; 15.042 ns ; B6 ; CO ;
; N/A ; None ; 15.013 ns ; A3 ; S4 ;
; N/A ; None ; 14.892 ns ; B0 ; S1 ;
; N/A ; None ; 14.867 ns ; A1 ; S2 ;
; N/A ; None ; 14.804 ns ; B6 ; S7 ;
; N/A ; None ; 14.658 ns ; B4 ; S5 ;
; N/A ; None ; 14.543 ns ; B2 ; S2 ;
; N/A ; None ; 14.518 ns ; CI ; S5 ;
; N/A ; None ; 14.282 ns ; A5 ; S5 ;
; N/A ; None ; 14.173 ns ; B3 ; S3 ;
; N/A ; None ; 14.162 ns ; B0 ; S0 ;
; N/A ; None ; 14.098 ns ; A2 ; S2 ;
; N/A ; None ; 14.088 ns ; A4 ; S4 ;
; N/A ; None ; 14.077 ns ; A3 ; S3 ;
; N/A ; None ; 14.063 ns ; B5 ; S5 ;
; N/A ; None ; 14.043 ns ; B7 ; CO ;
; N/A ; None ; 13.974 ns ; A6 ; CO ;
; N/A ; None ; 13.933 ns ; B1 ; S1 ;
; N/A ; None ; 13.865 ns ; B4 ; S4 ;
; N/A ; None ; 13.816 ns ; B7 ; S7 ;
; N/A ; None ; 13.738 ns ; A0 ; S1 ;
; N/A ; None ; 13.736 ns ; A6 ; S7 ;
; N/A ; None ; 13.732 ns ; CI ; S4 ;
; N/A ; None ; 13.470 ns ; A1 ; S1 ;
; N/A ; None ; 13.462 ns ; B6 ; S6 ;
; N/A ; None ; 13.415 ns ; A7 ; CO ;
; N/A ; None ; 13.184 ns ; A7 ; S7 ;
; N/A ; None ; 13.004 ns ; A0 ; S0 ;
; N/A ; None ; 12.799 ns ; CI ; S3 ;
; N/A ; None ; 12.403 ns ; A6 ; S6 ;
; N/A ; None ; 11.735 ns ; CI ; S2 ;
; N/A ; None ; 10.321 ns ; CI ; S1 ;
; N/A ; None ; 9.587 ns ; CI ; S0 ;
+-------+-------------------+-----------------+------+----+
+--------------------------+
; Timing Analyzer Messages ;
+--------------------------+
Info: *******************************************************************
Info: Running Quartus II Classic Timing Analyzer
Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition
Info: Processing started: Mon Mar 07 11:28:59 2022
Info: Command: quartus_tan --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b --timing_analysis_only
Info: Parallel compilation is enabled and will use 4 of the 4 processors detected
Info: Longest tpd from source pin "B0" to destination pin "CO" is 22.018 ns
Info: 1: + IC(0.000 ns) + CELL(0.994 ns) = 0.994 ns; Loc. = PIN_67; Fanout = 2; PIN Node = 'B0'
Info: 2: + IC(6.491 ns) + CELL(0.624 ns) = 8.109 ns; Loc. = LCCOMB_X18_Y4_N2; Fanout = 2; COMB Node = '7400:inst3|4~1'
Info: 3: + IC(0.373 ns) + CELL(0.624 ns) = 9.106 ns; Loc. = LCCOMB_X18_Y4_N20; Fanout = 4; COMB Node = '7400:inst8|4~0'
Info: 4: + IC(0.407 ns) + CELL(0.370 ns) = 9.883 ns; Loc. = LCCOMB_X18_Y4_N16; Fanout = 2; COMB Node = '7400:inst13|4~1'
Info: 5: + IC(0.426 ns) + CELL(0.650 ns) = 10.959 ns; Loc. = LCCOMB_X18_Y4_N12; Fanout = 2; COMB Node = '7400:inst18|4~0'
Info: 6: + IC(0.408 ns) + CELL(0.650 ns) = 12.017 ns; Loc. = LCCOMB_X18_Y4_N30; Fanout = 2; COMB Node = '7400:inst23|4~9'
Info: 7: + IC(0.365 ns) + CELL(0.206 ns) = 12.588 ns; Loc. = LCCOMB_X18_Y4_N0; Fanout = 3; COMB Node = '7400:inst28|4~0'
Info: 8: + IC(2.636 ns) + CELL(0.370 ns) = 15.594 ns; Loc. = LCCOMB_X28_Y11_N26; Fanout = 2; COMB Node = '7400:inst33|4~1'
Info: 9: + IC(0.370 ns) + CELL(0.624 ns) = 16.588 ns; Loc. = LCCOMB_X28_Y11_N12; Fanout = 1; COMB Node = '7400:inst38|4~0'
Info: 10: + IC(2.150 ns) + CELL(3.280 ns) = 22.018 ns; Loc. = PIN_151; Fanout = 0; PIN Node = 'CO'
Info: Total cell delay = 8.392 ns ( 38.11 % )
Info: Total interconnect delay = 13.626 ns ( 61.89 % )
Info: Quartus II Classic Timing Analyzer was successful. 0 errors, 0 warnings
Info: Peak virtual memory: 213 megabytes
Info: Processing ended: Mon Mar 07 11:28:59 2022
Info: Elapsed time: 00:00:00
Info: Total CPU time (on all processors): 00:00:00

26
adder_8b/adder_8b.tan.summary
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@ -1,26 +0,0 @@
--------------------------------------------------------------------------------------
Timing Analyzer Summary
--------------------------------------------------------------------------------------
Type : Worst-case tpd
Slack : N/A
Required Time : None
Actual Time : 22.018 ns
From : B0
To : CO
From Clock : --
To Clock : --
Failed Paths : 0
Type : Total number of failed paths
Slack :
Required Time :
Actual Time :
From :
To :
From Clock :
To Clock :
Failed Paths : 0
--------------------------------------------------------------------------------------

二進制
adder_8b/db/adder_8b.(0).cnf.cdb
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二進制
adder_8b/db/adder_8b.(0).cnf.hdb
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二進制
adder_8b/db/adder_8b.(1).cnf.cdb
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二進制
adder_8b/db/adder_8b.(1).cnf.hdb
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二進制
adder_8b/db/adder_8b.(2).cnf.cdb
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二進制
adder_8b/db/adder_8b.(2).cnf.hdb
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7
adder_8b/db/adder_8b.asm.qmsg
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@ -1,7 +0,0 @@
{ "Info" "IQEXE_SEPARATOR" "" "Info: *******************************************************************" { } { } 3 0 "*******************************************************************" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_PRODUCT" "Assembler Quartus II " "Info: Running Quartus II Assembler" { { "Info" "IQEXE_START_BANNER_VERSION" "Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition " "Info: Version 9.0 Build 235 06/17/2009 Service Pack 2 SJ Web Edition" { } { } 0 0 "%1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_START_BANNER_TIME" "Mon Mar 07 11:28:58 2022 " "Info: Processing started: Mon Mar 07 11:28:58 2022" { } { } 0 0 "Processing started: %1!s!" 0 0 "" 0 -1} } { } 4 0 "Running %2!s! %1!s!" 0 0 "" 0 -1}
{ "Info" "IQEXE_START_BANNER_COMMANDLINE" "quartus_asm --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b " "Info: Command: quartus_asm --read_settings_files=off --write_settings_files=off adder_8b -c adder_8b" { } { } 0 0 "Command: %1!s!" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_POWER_DATA" "" "Info: Writing out detailed assembly data for power analysis" { } { } 0 0 "Writing out detailed assembly data for power analysis" 0 0 "" 0 -1}
{ "Info" "IASM_ASM_GENERATING_PROGRAMMING_FILES" "" "Info: Assembler is generating device programming files" { } { } 0 0 "Assembler is generating device programming files" 0 0 "" 0 -1}
{ "Info" "IPGMIO_CONDONE_ERROR_CHECKS_DISABLED" "" "Info: The Active Serial/Parallel mode CONF_DONE pin error check is disabled" { } { } 0 0 "The Active Serial/Parallel mode CONF_DONE pin error check is disabled" 0 0 "" 0 -1}
{ "Info" "IQEXE_ERROR_COUNT" "Assembler 0 s 0 s Quartus II " "Info: Quartus II Assembler was successful. 0 errors, 0 warnings" { { "Info" "IQEXE_END_PEAK_VSIZE_MEMORY" "242 " "Info: Peak virtual memory: 242 megabytes" { } { } 0 0 "Peak virtual memory: %1!s! megabytes" 0 0 "" 0 -1} { "Info" "IQEXE_END_BANNER_TIME" "Mon Mar 07 11:28:58 2022 " "Info: Processing ended: Mon Mar 07 11:28:58 2022" { } { } 0 0 "Processing ended: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_TIME" "00:00:00 " "Info: Elapsed time: 00:00:00" { } { } 0 0 "Elapsed time: %1!s!" 0 0 "" 0 -1} { "Info" "IQEXE_ELAPSED_CPU_TIME" "00:00:00 " "Info: Total CPU time (on all processors): 00:00:00" { } { } 0 0 "Total CPU time (on all processors): %1!s!" 0 0 "" 0 -1} } { } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0 "" 0 -1}

二進制
adder_8b/db/adder_8b.asm_labs.ddb
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5
adder_8b/db/adder_8b.cbx.xml
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<?xml version="1.0" ?>
<LOG_ROOT>
<PROJECT NAME="adder_8b">
</PROJECT>
</LOG_ROOT>

二進制
adder_8b/db/adder_8b.cmp.bpm
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