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📄 cpu.fit.qmsg

📁 CPU 的简单功能的模拟
💻 QMSG
📖 第 1 页 / 共 4 页
字号:
🔍
1234 
{ "Info" "IFSAC_FSAC_REGISTER_PACKING_FINISH_REGPACKING_INFO" "00:00:01 " "Info: Finished register packing: elapsed time is 00:00:01" {  } {  } 0 0 "Finished register packing: elapsed time is %1!s!" 0 0}
{ "Info" "IFSAC_FSAC_IO_BANK_PIN_GROUP_STATISTICS" "I/O pins that need to be placed that use the same VCCIO and VREF, before I/O pin placement " "Info: Statistics of I/O pins that need to be placed that use the same VCCIO and VREF, before I/O pin placement" { { "Info" "IFSAC_FSAC_SINGLE_IOC_GROUP_STATISTICS" "30 unused 3.30 8 22 0 " "Info: Number of I/O pins in group: 30 (unused VREF, 3.30 VCCIO, 8 input, 22 output, 0 bidirectional)" { { "Info" "IFSAC_FSAC_IO_STDS_IN_IOC_GROUP" "LVTTL. " "Info: I/O standards used: LVTTL." {  } {  } 0 0 "I/O standards used: %1!s!" 0 0}  } {  } 0 0 "Number of I/O pins in group: %1!d! (%2!s! VREF, %3!s! VCCIO, %4!d! input, %5!d! output, %6!d! bidirectional)" 0 0}  } {  } 0 0 "Statistics of %1!s!" 0 0}
{ "Info" "IFSAC_FSAC_IO_STATS_BEFORE_AFTER_PLACEMENT" "before " "Info: I/O bank details before I/O pin placement" { { "Info" "IFSAC_FSAC_IO_BANK_PIN_GROUP_STATISTICS" "I/O banks " "Info: Statistics of I/O banks" { { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "1 does not use unused 2 27 " "Info: I/O bank number 1 does not use VREF pins and has unused VCCIO pins. 2 total pin(s) used --  27 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "2 does not use unused 0 30 " "Info: I/O bank number 2 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  30 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "3 does not use unused 0 51 " "Info: I/O bank number 3 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  51 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "4 does not use unused 1 51 " "Info: I/O bank number 4 does not use VREF pins and has unused VCCIO pins. 1 total pin(s) used --  51 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "5 does not use unused 0 29 " "Info: I/O bank number 5 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  29 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "6 does not use unused 0 29 " "Info: I/O bank number 6 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  29 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "7 does not use unused 0 52 " "Info: I/O bank number 7 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  52 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "8 does not use unused 0 51 " "Info: I/O bank number 8 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  51 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "9 does not use unused 0 6 " "Info: I/O bank number 9 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  6 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "10 does not use unused 0 0 " "Info: I/O bank number 10 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  0 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "11 does not use unused 0 6 " "Info: I/O bank number 11 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  6 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0} { "Info" "IFSAC_FSAC_SINGLE_IO_BANK_STATISTICS" "12 does not use unused 0 0 " "Info: I/O bank number 12 does not use VREF pins and has unused VCCIO pins. 0 total pin(s) used --  0 pins available" {  } {  } 0 0 "I/O bank number %1!d! %2!s! VREF pins and has %3!s! VCCIO pins. %4!d! total pin(s) used --  %5!d! pins available" 0 0}  } {  } 0 0 "Statistics of %1!s!" 0 0}  } {  } 0 0 "I/O bank details %1!s! I/O pin placement" 0 0}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_PREP_START" "" "Info: Fitter placement preparation operations beginning" {  } {  } 0 0 "Fitter placement preparation operations beginning" 0 0}
{ "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}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_START" "" "Info: Fitter placement operations beginning" {  } {  } 0 0 "Fitter placement operations beginning" 0 0}
{ "Info" "IFITAPI_FITAPI_INFO_VPR_PLACEMENT_FINISH" "" "Info: Fitter placement was successful" {  } {  } 0 0 "Fitter placement was successful" 0 0}
{ "Info" "IFITAPI_FITAPI_VPR_FITTER_PLACEMENT_END" "00:00:02 " "Info: Fitter placement operations ending: elapsed time is 00:00:02" {  } {  } 0 0 "Fitter placement operations ending: elapsed time is %1!s!" 0 0}
{ "Info" "ITDB_FULL_ESTIMATED_DATA_PATH_RESULT" "8.582 ns register register " "Info: Estimated most critical path is register to register delay of 8.582 ns" { { "Info" "ITDB_NODE_DELAY" "IC(0.000 ns) + CELL(0.000 ns) 0.000 ns \\seq:R0\[0\] 1 REG LAB_X19_Y14 22 " "Info: 1: + IC(0.000 ns) + CELL(0.000 ns) = 0.000 ns; Loc. = LAB_X19_Y14; Fanout = 22; REG Node = '\\seq:R0\[0\]'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "" { \seq:R0[0] } "NODE_NAME" } }  } 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(1.267 ns) + CELL(0.443 ns) 1.710 ns Add0~137 2 COMB LAB_X14_Y18 2 " "Info: 2: + IC(1.267 ns) + CELL(0.443 ns) = 1.710 ns; Loc. = LAB_X14_Y18; Fanout = 2; COMB Node = 'Add0~137'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "1.710 ns" { \seq:R0[0] Add0~137 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(0.058 ns) 1.768 ns Add0~139 3 COMB LAB_X14_Y18 2 " "Info: 3: + IC(0.000 ns) + CELL(0.058 ns) = 1.768 ns; Loc. = LAB_X14_Y18; Fanout = 2; COMB Node = 'Add0~139'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.058 ns" { Add0~137 Add0~139 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(0.058 ns) 1.826 ns Add0~147 4 COMB LAB_X14_Y18 2 " "Info: 4: + IC(0.000 ns) + CELL(0.058 ns) = 1.826 ns; Loc. = LAB_X14_Y18; Fanout = 2; COMB Node = 'Add0~147'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.058 ns" { Add0~139 Add0~147 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(0.058 ns) 1.884 ns Add0~149 5 COMB LAB_X14_Y18 2 " "Info: 5: + IC(0.000 ns) + CELL(0.058 ns) = 1.884 ns; Loc. = LAB_X14_Y18; Fanout = 2; COMB Node = 'Add0~149'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.058 ns" { Add0~147 Add0~149 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(0.214 ns) 2.098 ns Add0~141 6 COMB LAB_X14_Y18 4 " "Info: 6: + IC(0.000 ns) + CELL(0.214 ns) = 2.098 ns; Loc. = LAB_X14_Y18; Fanout = 4; COMB Node = 'Add0~141'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.214 ns" { Add0~149 Add0~141 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(0.469 ns) 2.567 ns Add0~144 7 COMB LAB_X14_Y18 1 " "Info: 7: + IC(0.000 ns) + CELL(0.469 ns) = 2.567 ns; Loc. = LAB_X14_Y18; Fanout = 1; COMB Node = 'Add0~144'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.469 ns" { Add0~141 Add0~144 } "NODE_NAME" } } { "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" "" { Text "c:/altera/quartus60/libraries/vhdl/synopsys/syn_arit.vhd" 836 -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(1.027 ns) + CELL(0.075 ns) 3.669 ns Mux541~94 8 COMB LAB_X14_Y17 1 " "Info: 8: + IC(1.027 ns) + CELL(0.075 ns) = 3.669 ns; Loc. = LAB_X14_Y17; Fanout = 1; COMB Node = 'Mux541~94'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "1.102 ns" { Add0~144 Mux541~94 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.285 ns) + CELL(0.183 ns) 4.137 ns Mux541~95 9 COMB LAB_X14_Y17 1 " "Info: 9: + IC(0.285 ns) + CELL(0.183 ns) = 4.137 ns; Loc. = LAB_X14_Y17; Fanout = 1; COMB Node = 'Mux541~95'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.468 ns" { Mux541~94 Mux541~95 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.188 ns) + CELL(0.280 ns) 4.605 ns Mux541~96 10 COMB LAB_X14_Y17 2 " "Info: 10: + IC(0.188 ns) + CELL(0.280 ns) = 4.605 ns; Loc. = LAB_X14_Y17; Fanout = 2; COMB Node = 'Mux541~96'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.468 ns" { Mux541~95 Mux541~96 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.136 ns) + CELL(0.366 ns) 5.107 ns Mux541~101 11 COMB LAB_X14_Y17 1 " "Info: 11: + IC(0.136 ns) + CELL(0.366 ns) = 5.107 ns; Loc. = LAB_X14_Y17; Fanout = 1; COMB Node = 'Mux541~101'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.502 ns" { Mux541~96 Mux541~101 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.188 ns) + CELL(0.280 ns) 5.575 ns Mux541~102 12 COMB LAB_X14_Y17 1 " "Info: 12: + IC(0.188 ns) + CELL(0.280 ns) = 5.575 ns; Loc. = LAB_X14_Y17; Fanout = 1; COMB Node = 'Mux541~102'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.468 ns" { Mux541~101 Mux541~102 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(1.355 ns) + CELL(0.075 ns) 7.005 ns Mux541~97 13 COMB LAB_X7_Y18 1 " "Info: 13: + IC(1.355 ns) + CELL(0.075 ns) = 7.005 ns; Loc. = LAB_X7_Y18; Fanout = 1; COMB Node = 'Mux541~97'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "1.430 ns" { Mux541~102 Mux541~97 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.285 ns) + CELL(0.183 ns) 7.473 ns Mux541~98 14 COMB LAB_X7_Y18 1 " "Info: 14: + IC(0.285 ns) + CELL(0.183 ns) = 7.473 ns; Loc. = LAB_X7_Y18; Fanout = 1; COMB Node = 'Mux541~98'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.468 ns" { Mux541~97 Mux541~98 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.393 ns) + CELL(0.075 ns) 7.941 ns Mux541~99 15 COMB LAB_X7_Y18 1 " "Info: 15: + IC(0.393 ns) + CELL(0.075 ns) = 7.941 ns; Loc. = LAB_X7_Y18; Fanout = 1; COMB Node = 'Mux541~99'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.468 ns" { Mux541~98 Mux541~99 } "NODE_NAME" } } { "cpu.vhd" "" { Text "C:/altera/VHDL/chap4/cpu.vhd" 111 -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(0.102 ns) + CELL(0.539 ns) 8.582 ns \\seq:R0\[6\] 16 REG LAB_X7_Y18 16 " "Info: 16: + IC(0.102 ns) + CELL(0.539 ns) = 8.582 ns; Loc. = LAB_X7_Y18; Fanout = 16; REG Node = '\\seq:R0\[6\]'" {  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "0.641 ns" { Mux541~99 \seq:R0[6] } "NODE_NAME" } }  } 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" "3.356 ns ( 39.11 % ) " "Info: Total cell delay = 3.356 ns ( 39.11 % )" {  } {  } 0 0 "Total cell delay = %1!s! %2!s!" 0 0} { "Info" "ITDB_TOTAL_IC_DELAY" "5.226 ns ( 60.89 % ) " "Info: Total interconnect delay = 5.226 ns ( 60.89 % )" {  } {  } 0 0 "Total interconnect delay = %1!s! %2!s!" 0 0}  } { { "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" { Floorplan "c:/altera/quartus60/win/TimingClosureFloorplan.fld" "" "8.582 ns" { \seq:R0[0] Add0~137 Add0~139 Add0~147 Add0~149 Add0~141 Add0~144 Mux541~94 Mux541~95 Mux541~96 Mux541~101 Mux541~102 Mux541~97 Mux541~98 Mux541~99 \seq:R0[6] } "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" "1 12 " "Info: Average interconnect usage is 1% of the available device resources. Peak interconnect usage is 12%" { { "Info" "IFITAPI_FITAPI_VPR_PEAK_ROUTING_REGION" "x10_y10 x20_y20 " "Info: The peak interconnect region extends from location x10_y10 to location x20_y20" {  } {  } 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}
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