count_distance.fit.qmsg

基于fpga的出租车计费系统

{ "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}
{ "Info" "ITDB_FULL_ESTIMATED_DATA_PATH_RESULT" "3.225 ns register register " "Info: Estimated most critical path is register to register delay of 3.225 ns" { { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.000 ns) 0.000 ns temp0\[1\] 1 REG LAB_X27_Y12 5 " "Info: 1: + IC(0.000 ns) + CELL(0.000 ns) = 0.000 ns; Loc. = LAB_X27_Y12; Fanout = 5; REG Node = 'temp0\[1\]'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "" { temp0[1] } "NODE_NAME" } } { "count_distance.vhd" "" { Text "E:/SOPClab/digital_system_design/texi_jifei_system/count_distance/count_distance.vhd" 27 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.645 ns) + CELL(0.414 ns) 1.059 ns LessThan0~133 2 COMB LAB_X28_Y12 1 " "Info: 2: + IC(0.645 ns) + CELL(0.414 ns) = 1.059 ns; Loc. = LAB_X28_Y12; Fanout = 1; COMB Node = 'LessThan0~133'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "1.059 ns" { temp0[1] LessThan0~133 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.071 ns) 1.130 ns LessThan0~135 3 COMB LAB_X28_Y12 1 " "Info: 3: + IC(0.000 ns) + CELL(0.071 ns) = 1.130 ns; Loc. = LAB_X28_Y12; Fanout = 1; COMB Node = 'LessThan0~135'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.071 ns" { LessThan0~133 LessThan0~135 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.071 ns) 1.201 ns LessThan0~137 4 COMB LAB_X28_Y12 1 " "Info: 4: + IC(0.000 ns) + CELL(0.071 ns) = 1.201 ns; Loc. = LAB_X28_Y12; Fanout = 1; COMB Node = 'LessThan0~137'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.071 ns" { LessThan0~135 LessThan0~137 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.071 ns) 1.272 ns LessThan0~139 5 COMB LAB_X28_Y12 1 " "Info: 5: + IC(0.000 ns) + CELL(0.071 ns) = 1.272 ns; Loc. = LAB_X28_Y12; Fanout = 1; COMB Node = 'LessThan0~139'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.071 ns" { LessThan0~137 LessThan0~139 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.071 ns) 1.343 ns LessThan0~141 6 COMB LAB_X28_Y12 1 " "Info: 6: + IC(0.000 ns) + CELL(0.071 ns) = 1.343 ns; Loc. = LAB_X28_Y12; Fanout = 1; COMB Node = 'LessThan0~141'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.071 ns" { LessThan0~139 LessThan0~141 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.410 ns) 1.753 ns LessThan0~142 7 COMB LAB_X28_Y12 2 " "Info: 7: + IC(0.000 ns) + CELL(0.410 ns) = 1.753 ns; Loc. = LAB_X28_Y12; Fanout = 2; COMB Node = 'LessThan0~142'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.410 ns" { LessThan0~141 LessThan0~142 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.127 ns) + CELL(0.438 ns) 2.318 ns LessThan0~144 8 COMB LAB_X28_Y12 9 " "Info: 8: + IC(0.127 ns) + CELL(0.438 ns) = 2.318 ns; Loc. = LAB_X28_Y12; Fanout = 9; COMB Node = 'LessThan0~144'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.565 ns" { LessThan0~142 LessThan0~144 } "NODE_NAME" } } { "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "d:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 1695 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_NODE_DELAY" "IC(0.247 ns) + CELL(0.660 ns) 3.225 ns temp1\[2\] 9 REG LAB_X28_Y12 3 " "Info: 9: + IC(0.247 ns) + CELL(0.660 ns) = 3.225 ns; Loc. = LAB_X28_Y12; Fanout = 3; REG Node = 'temp1\[2\]'" {  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.907 ns" { LessThan0~144 temp1[2] } "NODE_NAME" } } { "count_distance.vhd" "" { Text "E:/SOPClab/digital_system_design/texi_jifei_system/count_distance/count_distance.vhd" 34 -1 0 } }  } 0 0 "%4!d!: + %1!s! = %2!s!; Loc. = %6!s!; Fanout = %7!d!; %5!s! Node = '%3!s!'" 0 0} { "Info" "ITDB_TOTAL_CELL_DELAY" "2.206 ns ( 68.40 % ) " "Info: Total cell delay = 2.206 ns ( 68.40 % )" {  } {  } 0 0 "Total cell delay = %1!s! %2!s!" 0 0} { "Info" "ITDB_TOTAL_IC_DELAY" "1.019 ns ( 31.60 % ) " "Info: Total interconnect delay = 1.019 ns ( 31.60 % )" {  } {  } 0 0 "Total interconnect delay = %1!s! %2!s!" 0 0}  } { { "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "d:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "3.225 ns" { temp0[1] LessThan0~133 LessThan0~135 LessThan0~137 LessThan0~139 LessThan0~141 LessThan0~142 LessThan0~144 temp1[2] } "NODE_NAME" } }  } 0 0 "Estimated most critical path is %2!s! to %3!s! delay of %1!s!" 0 0}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_ROUTING_START" "" "Info: Fitter routing operations beginning" {  } {  } 0 0 "Fitter routing operations beginning" 0 0}
{ "Info" "IFITAPI_FITAPI_VPR_PERCENT_ROUTING_RESOURCE_USAGE" "0 0 " "Info: Average interconnect usage is 0% of the available device resources. Peak interconnect usage is 0%" { { "Info" "IFITAPI_FITAPI_VPR_PEAK_ROUTING_REGION" "x22_y12 x32_y23 " "Info: The peak interconnect region extends from location x22_y12 to location x32_y23" {  } {  } 0 0 "The peak interconnect region extends from location %1!s! to location %2!s!" 0 0}  } {  } 0 0 "Average interconnect usage is %1!d!%% of the available device resources. Peak interconnect usage is %2!d!%%" 0 0}
{ "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}
{ "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} { "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 0 "The Fitter performed an Auto Fit compilation.  Optimizations were skipped to reduce compilation time." 0 0}
{ "Info" "IDAT_DAT_STARTED" "" "Info: Started post-fitting delay annotation" {  } {  } 0 0 "Started post-fitting delay annotation" 0 0}
{ "Warning" "WDAT_NO_LOADING_SPECIFIED_ONE_OR_MORE_PINS" "11 " "Warning: Found 11 output pins without output pin load capacitance assignment" { { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "clkout 0 " "Info: Pin \"clkout\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[0\] 0 " "Info: Pin \"length\[0\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[1\] 0 " "Info: Pin \"length\[1\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[2\] 0 " "Info: Pin \"length\[2\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[3\] 0 " "Info: Pin \"length\[3\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[4\] 0 " "Info: Pin \"length\[4\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[5\] 0 " "Info: Pin \"length\[5\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[6\] 0 " "Info: Pin \"length\[6\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[7\] 0 " "Info: Pin \"length\[7\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[8\] 0 " "Info: Pin \"length\[8\]\" 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} { "Info" "IDAT_NO_LOADING_SPECIFIED_ON_PIN" "length\[9\] 0 " "Info: Pin \"length\[9\]\" 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 0 "Found %1!d! output pins without output pin load capacitance assignment" 0 0}
{ "Info" "IDAT_DAT_COMPLETED" "" "Info: Delay annotation completed successfully" {  } {  } 0 0 "Delay annotation completed successfully" 0 0}
{ "Info" "IQEXE_ERROR_COUNT" "Fitter 0 s 1  Quartus II " "Info: Quartus II Fitter was successful. 0 errors, 1 warning" { { "Info" "IQEXE_END_BANNER_TIME" "Wed Oct 08 11:34:53 2008 " "Info: Processing ended: Wed Oct 08 11:34:53 2008" {  } {  } 0 0 "Processing ended: %1!s!" 0 0} { "Info" "IQEXE_ELAPSED_TIME" "00:00:12 " "Info: Elapsed time: 00:00:12" {  } {  } 0 0 "Elapsed time: %1!s!" 0 0}  } {  } 0 0 "%6!s! %1!s! was successful. %2!d! error%3!s!, %4!d! warning%5!s!" 0 0}
{ "Info" "IRDB_WROTE_SUPPRESSED_MSGS" "E:/SOPClab/digital_system_design/texi_jifei_system/count_distance/count_distance.fit.smsg " "Info: Generated suppressed messages file E:/SOPClab/digital_system_design/texi_jifei_system/count_distance/count_distance.fit.smsg" {  } {  } 0 0 "Generated suppressed messages file %1!s!" 0 0}