**** Build of configuration CPU1_RAM for project dnd2022 ****

"C:\\ti\\ccs1200\\ccs\\utils\\bin\\gmake" -k -j 8 all -O 
 
Building file: "../SysConfig_LLC_General.syscfg"
Invoking: SysConfig
"C:/ti/ccs1200/ccs/utils/sysconfig_1.13.0/sysconfig_cli.bat" -s "C:/ti/c2000/C2000Ware_4_01_00_00/.metadata/sdk.json" -d "F28004x" --script "C:/work/dnd2022/SysConfig_LLC_General.syscfg" -o "syscfg" --package F28004x_64PMQ --part F28004x_64PMQ --compiler ccs
Running script...
Validating...
Generating Code (SysConfig_LLC_General.syscfg)...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\board.c...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\board.h...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\pinmux.csv...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\adc.dot...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\c2000ware_libraries.cmd.genlibs...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\c2000ware_libraries.opt...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\c2000ware_libraries.c...
Writing C:\work\dnd2022\CPU1_RAM\syscfg\c2000ware_libraries.h...
Finished building: "../SysConfig_LLC_General.syscfg"
 
Building file: "syscfg/c2000ware_libraries.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="syscfg/c2000ware_libraries.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="syscfg" --cmd_file="syscfg/c2000ware_libraries.opt"  "syscfg/c2000ware_libraries.c"
Finished building: "syscfg/c2000ware_libraries.c"
 
Building file: "../Application/configSet.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Application/configSet.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Application" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Application/configSet.c"
"../Application/configSet.c", line 37 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/configSet.c", line 44 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/configSet.c", line 60 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/configSet.c", line 68 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Application/configSet.c"
 
Building file: "../Application/dataAnalysis.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Application/dataAnalysis.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Application" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Application/dataAnalysis.c"
"../Application/dataAnalysis.c", line 43 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/dataAnalysis.c", line 44 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/dataAnalysis.c", line 45 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/dataAnalysis.c", line 46 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/dataAnalysis.c", line 47 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/dataAnalysis.c", line 48 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Application/dataAnalysis.c"
 
Building file: "../dnd_main.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="dnd_main.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --cmd_file="syscfg/c2000ware_libraries.opt"  "../dnd_main.c"
Finished building: "../dnd_main.c"
 
Building file: "../Application/relayControl.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Application/relayControl.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Application" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Application/relayControl.c"
"../Application/relayControl.c", line 40 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/relayControl.c", line 47 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Application/relayControl.c"
 
Building file: "syscfg/board.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="syscfg/board.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="syscfg" --cmd_file="syscfg/c2000ware_libraries.opt"  "syscfg/board.c"
Finished building: "syscfg/board.c"
 
Building file: "../Application/sensorProcess.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Application/sensorProcess.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Application" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Application/sensorProcess.c"
"../Application/sensorProcess.c", line 41 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 45 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 51 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 58 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 83 (col. 17): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 87 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 91 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 95 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 103 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 103 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 104 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 104 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 18): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 25): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 25): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 46): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 35): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 105 (col. 57): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 106 (col. 36): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 106 (col. 38): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 32): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 34): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 62): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 107 (col. 64): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 108 (col. 36): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 108 (col. 38): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 108 (col. 40): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 108 (col. 48): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 115 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 118 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 120 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 123 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 125 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 128 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 158 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 163 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 163 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 164 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 164 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 31): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 31): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 52): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 165 (col. 63): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 166 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 166 (col. 28): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 166 (col. 42): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 167 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 173 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 178 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 199 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 222 (col. 14): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 225 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 229 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 251 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Application/sensorProcess.c", line 259 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Application/sensorProcess.c"
 
Building file: "../Drivers/ioDigital.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Drivers/ioDigital.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Drivers" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Drivers/ioDigital.c"
Finished building: "../Drivers/ioDigital.c"
 
Building file: "../Drivers/commI2C.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Drivers/commI2C.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Drivers" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Drivers/commI2C.c"
"../Drivers/commI2C.c", line 124 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 124 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 124 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 124 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 163 (col. 11): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 163 (col. 11): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 163 (col. 11): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 163 (col. 11): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 181 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 181 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 181 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 181 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 231 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 231 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 231 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 231 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 251 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 251 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 251 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 251 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 259 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 259 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 259 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 259 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 311 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 311 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 311 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 311 (col. 13): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 324 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 324 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 324 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 324 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 346 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 346 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 346 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commI2C.c", line 346 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Drivers/commI2C.c"
 
Building file: "../Drivers/ioAnalog.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Drivers/ioAnalog.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Drivers" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Drivers/ioAnalog.c"
Finished building: "../Drivers/ioAnalog.c"
 
Building file: "../InterruptServiceRoutines/ISR.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="InterruptServiceRoutines/ISR.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="InterruptServiceRoutines" --cmd_file="syscfg/c2000ware_libraries.opt"  "../InterruptServiceRoutines/ISR.c"
Finished building: "../InterruptServiceRoutines/ISR.c"
 
Building file: "../Drivers/commUART.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Drivers/commUART.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Drivers" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Drivers/commUART.c"
"../Drivers/commUART.c", line 32 (col. 6): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 74 (col. 27): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 207 (col. 6): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 211 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 234 (col. 19): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 248 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 248 (col. 30): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 248 (col. 32): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 249 (col. 25): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 249 (col. 44): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 252 (col. 25): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 252 (col. 39): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Drivers/commUART.c", line 253 (col. 25): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Drivers/commUART.c"
 
Building file: "../Misc/Timer.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Misc/Timer.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Misc" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Misc/Timer.c"
Finished building: "../Misc/Timer.c"
 
Building file: "../Misc/Utility.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Misc/Utility.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Misc" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Misc/Utility.c"
"../Misc/Utility.c", line 21 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 30 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 30 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 30 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 30 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 33 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 33 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 33 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 33 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 43 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 43 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 43 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 43 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 53 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 53 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 53 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 53 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 62 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 62 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 62 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 62 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 72 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 72 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 72 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 72 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 86 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 86 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 86 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 86 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 96 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 96 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 96 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Misc/Utility.c", line 96 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Misc/Utility.c"
 
Building file: "../device/f28004x_codestartbranch.asm"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="device/f28004x_codestartbranch.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="device" --cmd_file="syscfg/c2000ware_libraries.opt"  "../device/f28004x_codestartbranch.asm"
Finished building: "../device/f28004x_codestartbranch.asm"
 
Building file: "../Peripherals/devConfig.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Peripherals/devConfig.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Peripherals" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Peripherals/devConfig.c"
"../Peripherals/devConfig.c", line 85 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devConfig.c", line 127 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devConfig.c", line 128 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devConfig.c", line 129 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devConfig.c", line 130 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devConfig.c", line 131 (col. 16): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Peripherals/devConfig.c"
 
Building file: "../Peripherals/devIOexpander.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Peripherals/devIOexpander.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Peripherals" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Peripherals/devIOexpander.c"
"../Peripherals/devIOexpander.c", line 72 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devIOexpander.c", line 73 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Peripherals/devIOexpander.c"
 
Building file: "../Peripherals/devMultiplexer.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Peripherals/devMultiplexer.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Peripherals" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Peripherals/devMultiplexer.c"
"../Peripherals/devMultiplexer.c", line 86 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Peripherals/devMultiplexer.c"
 
Building file: "../Peripherals/devAD5933.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Peripherals/devAD5933.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Peripherals" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Peripherals/devAD5933.c"
"../Peripherals/devAD5933.c", line 64 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 66 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 72 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 74 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 83 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 79): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 56): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 52): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 331 (col. 61): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 75): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 52): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 48): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 39): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 335 (col. 57): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 404 (col. 8): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 408 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 409 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 432 (col. 15): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 432 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 432 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 433 (col. 17): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 433 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 433 (col. 34): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 433 (col. 36): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 449 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 455 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 477 (col. 15): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 477 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 477 (col. 21): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 480 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 481 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 481 (col. 52): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 481 (col. 30): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 481 (col. 30): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5933.c", line 481 (col. 30): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Peripherals/devAD5933.c"
 
Building file: "../device/device.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="device/device.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="device" --cmd_file="syscfg/c2000ware_libraries.opt"  "../device/device.c"
Finished building: "../device/device.c"
 
Building file: "../Peripherals/devAD5934.c"
Invoking: C2000 Compiler
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --include_path="C:/work/dnd2022/InterruptServiceRoutines" --include_path="C:/work/dnd2022/Misc" --include_path="C:/work/dnd2022" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00" --include_path="C:/work/dnd2022/device" --include_path="C:/work/dnd2022/Application" --include_path="C:/work/dnd2022/Peripherals" --include_path="C:/work/dnd2022/Drivers" --include_path="C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib" --include_path="C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi --preproc_with_compile --preproc_dependency="Peripherals/devAD5934.d_raw" --include_path="C:/work/dnd2022/CPU1_RAM/syscfg" --obj_directory="Peripherals" --cmd_file="syscfg/c2000ware_libraries.opt"  "../Peripherals/devAD5934.c"
"../Peripherals/devAD5934.c", line 279: warning #179-D: variable "timer" was declared but never referenced
"../Peripherals/devAD5934.c", line 57 (col. 24): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 69 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 71 (col. 10): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 71 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 72 (col. 10): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 72 (col. 45): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 72 (col. 42): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 72 (col. 17): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 73 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 75 (col. 10): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 75 (col. 12): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 76 (col. 10): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 76 (col. 45): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 76 (col. 42): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 76 (col. 17): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 77 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 79 (col. 5): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 22): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 80): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 57): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 52): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 41): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 243 (col. 62): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 20): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 76): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 53): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 48): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 39): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 247 (col. 58): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
"../Peripherals/devAD5934.c", line 330 (col. 9): advice #3195-D: (Performance) EABI double precision is 64-bits as opposed to 32-bits for COFF. Consider changing doubles to floats for improved performance in FPU32-mode.
Finished building: "../Peripherals/devAD5934.c"
 
Building target: "dnd2022.out"
Invoking: C2000 Linker
"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/bin/cl2000" -v28 -ml -mt --float_support=fpu32 --tmu_support=tmu0 --vcu_support=vcu0 -Ooff --fp_mode=relaxed --define=DEBUG --diag_suppress=10063 --diag_warning=225 --diag_wrap=off --display_error_number --gen_func_subsections=on --abi=eabi -z -m"dnd2022.map" --heap_size=0x200 --stack_size=0x3F8 --warn_sections -i"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/lib" -i"C:/ti/c2000/C2000Ware_4_01_00_00" -i"C:/work/dnd2022/CPU1_RAM/syscfg" -i"C:/ti/ccs1200/ccs/tools/compiler/ti-cgt-c2000_22.6.0.LTS/include" --reread_libs --diag_wrap=off --display_error_number --xml_link_info="dnd2022_linkInfo.xml" --entry_point=code_start --rom_model -o "dnd2022.out" "./syscfg/board.obj" "./syscfg/c2000ware_libraries.obj" "./dnd_main.obj" "./Application/configSet.obj" "./Application/dataAnalysis.obj" "./Application/relayControl.obj" "./Application/sensorProcess.obj" "./Drivers/commI2C.obj" "./Drivers/commUART.obj" "./Drivers/ioAnalog.obj" "./Drivers/ioDigital.obj" "./InterruptServiceRoutines/ISR.obj" "./Misc/Timer.obj" "./Misc/Utility.obj" "./Peripherals/devAD5933.obj" "./Peripherals/devAD5934.obj" "./Peripherals/devConfig.obj" "./Peripherals/devIOexpander.obj" "./Peripherals/devMultiplexer.obj" "./device/device.obj" "./device/f28004x_codestartbranch.obj" "../28004x_generic_ram_lnk.cmd" "C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/f28004x/driverlib/ccs/Debug/driverlib.lib"  -llibc.a 
<Linking>
Finished building target: "dnd2022.out"
 
if 0 == 1  mkdir "C:/work/dnd2022/CPU1_RAM/simulation"
if 0 == 1  C:/TDM-GCC-64/bin/g++  -c -DCLB_SIM -IC:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc-2.3.3/src -IC:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/include/type2 -IC:/work/dnd2022 -IC:/TDM-GCC-64/bin/include -Og -g -gdwarf-3 -gstrict-dwarf -Wall -MMD -MP -MFC:/work/dnd2022/CPU1_RAM/simulation/clb_sim.d -MTC:/work/dnd2022/CPU1_RAM/simulation/clb_sim.o -IC:/work/dnd2022/CPU1_RAM/syscfg   -fno-threadsafe-statics  -oC:/work/dnd2022/CPU1_RAM/simulation/clb_sim.o C:/work/dnd2022/CPU1_RAM/syscfg/clb_sim.cpp
if 0 == 1  C:/TDM-GCC-64/bin/g++ -DCLB_SIM -Og -g -gdwarf-3 -gstrict-dwarf -Wall -Wl,-Map,C:/work/dnd2022/CPU1_RAM/simulation/simulation_output.map -LC:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc-2.3.3/build/src -oC:/work/dnd2022/CPU1_RAM/simulation/simulation_output.exe C:/work/dnd2022/CPU1_RAM/simulation/clb_sim.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_FSM_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_HLC_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_LUT4_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_OutputLUT_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_counter_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_counter_top_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_FSM_top_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_LUT4_top_SC_model.o C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/systemc/src/type2/CLB_OutputLUT_top_SC_model.o  -Wl,--start-group -lsystemc -Wl,--end-group
if 0 == 1  "./simulation/simulation_output.exe"
if 0 == 1  C:/ti/ccs1200/ccs/tools/node/node.exe "C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/dot_file_libraries/clbDotUtility.js"  "C:/ti/c2000/C2000Ware_4_01_00_00/utilities/clb_tool/clb_syscfg/" "C:/work/dnd2022/CPU1_RAM/syscfg" "C:/work/dnd2022/CPU1_RAM/syscfg/clb.dot"
if 0 == 1  mkdir "C:/work/dnd2022/CPU1_RAM/diagrams"
if 0 == 1  C:/ti/ccs1200/ccs/tools/node/node.exe "C:/ti/c2000/C2000Ware_4_01_00_00/driverlib/.meta/generate_diagrams.js" "C:/ti/c2000/C2000Ware_4_01_00_00" "C:/work/dnd2022/CPU1_RAM/diagrams" "C:/work/dnd2022/CPU1_RAM/syscfg"
 

**** Build Finished ****