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raw | patch | inline | side by side (parent: ca86340)
author | Ming Wei <mwei@ti.com> | |
Fri, 29 Jul 2016 02:01:58 +0000 (21:01 -0500) | ||
committer | Ming Wei <mwei@ti.com> | |
Fri, 29 Jul 2016 02:01:58 +0000 (21:01 -0500) |
Signed-off-by: Ming Wei <mwei@ti.com>
index d65c837ab6e42f6aa25be0fc4ae0c54c5fd46133..0c14fe7ebbd66492818211211df862225419aac6 100644 (file)
-1. Download AEC-AER and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
-2. Install AEC-AER and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
+1. Download AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
+2. Install AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
3. Rename C:\ti\aer_c64Px_obj_17_0_0_0 to C:\ti\aer_c64Px_obj_17_0_0_0_mod\r
4. Comment out line 236~240 of C:\ti\aer_c64Px_obj_17_0_0_0_mod\packages\ti\mas\types\types.h\r
5. Download xdais_7_23_00_06 and xdctools_3_24_07_73 from TI website; Install them at C:\MAS_Tools\r
-6. Copy noise-reduction directory to C:\ti\noise-reduction\r
+6. Copy audio-preprocessing-fw directory to C:\ti\audio-preprocessing-fw\r
7. Downlaod CCS 6.1.3 from TI website\r
8. Install CCS 6.1.3 at C:\ti\r
9. Launch CCS 6.1.3\r
-10. Import AM572x_bf_nobios from C:\ti\noise-reduction\r
+10. Import AM572x_bf_nobios from C:\ti\audio-preprocessing-fw\r
11. Build the imported project\r
-12. Import the target configuration file AM572x_GPEVM_BH_USB_560M.ccxml from C:\ti\noise-reduction\file_demo\am572x\gel\r
+12. Import the target configuration file AM572x_GPEVM_BH_USB_560M.ccxml from C:\ti\audio-preprocessing-fw\file_demo\am572x\gel\r
13. Connect the Blackhawk USB 560M JTAG to P4 on AM572x GP EVM\r
14. Plug power adaptor(12V) into the AM572x GP EVM (Do not press the Power Button(S1) yet)\r
15. Launch the AM572x_GPEVM_BH_USB_560M.ccxml using "Launch Selected Configuration" from CCS 6.1.3\r
16. Press the Power Button(S1) and "Connect to CortexA15_0" immediately (Due to the EVM will be auto power off in 10 secs)\r
17. Then "Connect to C66xx_DSP1"\r
-18. Load the test_rel_ce66le_CE66LE_LE_ELF.out from C:\ti\noise-reduction\file_demo\am572x\test\ccsProjects\AM572x_bf_nobios\Debug\r
+18. Load the test_rel_ce66le_CE66LE_LE_ELF.out from C:\ti\audio-preprocessing-fw\file_demo\am572x\test\ccsProjects\AM572x_bf_nobios\Debug\r
19. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
- (C:\ti\noise-reduction\file_demo\am572x\gel\mics\y16L8g3m7090_x.pcm) into external memory buffers\r
+ (C:\ti\audio-preprocessing-fw\file_demo\am572x\gel\mics\y16L8g3m7090_x.pcm) into external memory buffers\r
20. Run the program (loaded in step 16) by pressing F8\r
21. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
22. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
- (C:\ti\noise-reduction\file_demo\am572x\gel\mics\fileOutput.bin)\r
+ (C:\ti\audio-preprocessing-fw\file_demo\am572x\gel\mics\fileOutput.bin)\r
23. You can change the "#define NUM_BF_ANALOG_MIC 8" and "#define NUM_BF_VIRTUAL_MIC 12" in bf_asnr_mss_vau.h. \r
The allowed value for NUM_BF_ANALOG_MIC is 1-8. The allowed value for NUM_BF_VIRTUAL_MIC is either 12 (30 degree apart) \r
or 8 (45 degree apart)\r
index d25468edcd446d0a36343fd6faa63aa5e21fb946..ad58f75a73cfa81f87331492ecd2f582b7b70a06 100644 (file)
-1. Download AEC-AER and VOLIB(volib_C64P_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
-2. Install AEC-AER and VOLIB(volib_C64P_2_1_0_1) at C:\ti\r
+1. Download AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C64P_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
+2. Install AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C64P_2_1_0_1) at C:\ti\r
3. Rename C:\ti\aer_c64Px_obj_17_0_0_0 to C:\ti\aer_c64Px_obj_17_0_0_0_mod\r
4. Comment out line 236~240 of C:\ti\aer_c64Px_obj_17_0_0_0_mod\packages\ti\mas\types\types.h\r
5. Download xdais_7_23_00_06 and xdctools_3_24_07_73 from TI website; Install them at C:\MAS_Tools\r
-6. Copy noise-reduction directory to C:\ti\noise-reduction\r
+6. Copy audio-preprocessing-fw directory to C:\ti\audio-preprocessing-fw\r
7. Downlaod CCS 6.1.3 from TI website\r
8. Install CCS 6.1.3 at C:\ti\r
9. Launch CCS 6.1.3\r
-10. Import DA830_bf_nobios from C:\ti\noise-reduction\r
+10. Import DA830_bf_nobios from C:\ti\audio-preprocessing-fw\r
11. Build the imported project\r
-12. Import the target configuration file DA830_DSK_USB560M.ccxml from C:\ti\noise-reduction\file_demo\da830\gel\r
+12. Import the target configuration file DA830_DSK_USB560M.ccxml from C:\ti\audio-preprocessing-fw\file_demo\da830\gel\r
13. Connect the Blackhawk USB 560M JTAG to J4 on DA830 DSK\r
14. Power on the DA830DSK\r
15. Connect to the DA830 DSK via JTAG using CCS 6.1.3\r
-16. Load the test_rel_ce64Ple_CE64PLE_LE_ELF.out from C:\ti\noise-reduction\file_demo\da830\test\ccsProjects\DA830_bf_nobios\Debug\r
+16. Load the test_rel_ce64Ple_CE64PLE_LE_ELF.out from C:\ti\audio-preprocessing-fw\file_demo\da830\test\ccsProjects\DA830_bf_nobios\Debug\r
17. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
- (C:\ti\noise-reduction\file_demo\da830\gel\mics\y16L8g3m7090_x.pcm) into external memory buffers\r
+ (C:\ti\audio-preprocessing-fw\file_demo\da830\gel\mics\y16L8g3m7090_x.pcm) into external memory buffers\r
18. Run the program (loaded in step 13) by pressing F8\r
19. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
20. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
- (C:\ti\noise-reduction\file_demo\da830\gel\mics\fileOutput.bin)\r
+ (C:\ti\audio-preprocessing-fw\file_demo\da830\gel\mics\fileOutput.bin)\r
21. You can change the "#define NUM_BF_ANALOG_MIC 8" and "#define NUM_BF_VIRTUAL_MIC 12" in bf_asnr_mss_vau.h. \r
The allowed value for NUM_BF_ANALOG_MIC is 1-8. The allowed value for NUM_BF_VIRTUAL_MIC is either 12 (30 degree apart) \r
or 8 (45 degree apart)\r
index f41efc992a4e51b9c9da5145becc9c6248fa9802..413e5ed5151457e207c4124993e77e87afcec228 100644 (file)
-1. Download AEC-AER and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
-2. Install AEC-AER and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
-3. Copy noise-reduction directory to C:\ti\noise-reduction\r
-4. Download and install bios_6_45_01_29\r
-5. Download and install xdais_7_24_00_04 and xdctools_3_32_00_06_core from TI website \r
-6. Downlaod CCS 6.1.3 from TI website\r
-7. Install CCS 6.1.3 at C:\ti\r
-8. Launch CCS 6.1.3\r
-9. Import AM572x_bf from C:\ti\noise-reduction\file_demo_bios\am572x\r
-10. Build the imported project\r
-11. Import the target configuration file AM572x_bf.ccxml from C:\ti\noise-reduction\file_demo_bios\am572x\r
-12. Connect the Blackhawk USB 560M JTAG to P4 on AM572x GP EVM\r
-13. Plug power adaptor(12V) into the AM572x GP EVM (Do not press the Power Button(S1) yet)\r
-14. Launch the AM572x_bf.ccxml using "Launch Selected Configuration" from CCS 6.1.3\r
-15. Press the Power Button(S1) and "Connect to CortexA15_0" immediately (Due to the EVM will be auto power off in 10 secs)\r
-16. Then "Connect to C66xx_DSP1"\r
-17. Load the AM572x_bf.out from C:\ti\noise-reduction\file_demo_bios\am572x\Debug\r
-18. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
- (C:\ti\noise-reduction\file_demo_bios\am572x\t8\y16L8g3m7090_x.pcm) into external memory buffers\r
-19. Run the program (loaded in step 16) by pressing F8\r
-20. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
-21. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
- (C:\ti\noise-reduction\file_demo_bios\am572x\t8\fileOutput.bin)\r
-22. By default 12 virtual microphones (30 degree apart) will be used\r
-\r
+1. Download AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
+2. Install AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
+3. Download Processor SDK RTOS 3.x from TI website; Install them at C:\ti\r
+4. Downlaod CCS 6.1.3 from TI website; Install CCS 6.1.3 at C:\ti\r
+5. Launch CCS 6.1.3\r
+6. Import AM572x_bf from C:\ti\processor_sdk_rtos_k2g_3_xx_xx_xx\demos\audio-preprocessing-fw\file_demo_bios\am572x\r
+7. Build the imported project\r
+8. Import the target configuration file AM572x_GPEVM_BH_USB_560M.ccxml from C:\ti\processor_sdk_rtos_k2g_3_xx_xx_xx\demos\audio-preprocessing-fw\file_demo_bios\am572x\r
+9. Connect the Blackhawk USB 560M JTAG to P4 on AM572x GP EVM\r
+10. Plug power adaptor(12V) into the AM572x GP EVM (Do not press the Power Button(S1) yet)\r
+11. Launch the AM572x_GPEVM_BH_USB_560M.ccxml using "Launch Selected Configuration" from CCS 6.1.3\r
+12. Press the Power Button(S1) and "Connect to CortexA15_0" immediately (Due to the EVM will be auto power off in 10 secs)\r
+13. Then "Connect to C66xx_DSP1"\r
+14. Load the test_rel_ce66le_CE66LE_LE_ELF.out from C:\ti\processor_sdk_rtos_k2g_3_xx_xx_xx\demos\audio-preprocessing-fw\file_demo_bios\am572x\Debug\r
+15. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
+ (C:\ti\processor_sdk_rtos_k2g_3_xx_xx_xx\demos\audio-preprocessing-fw\file_demo_bios\am572x\gel\mics\y16L8g3m7090_x.pcm) into external memory buffers\r
+16. Run the program (loaded in step 16) by pressing F8\r
+17. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
+18. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
+ (C:\ti\processor_sdk_rtos_k2g_3_xx_xx_xx\demos\audio-preprocessing-fw\file_demo_bios\am572x\gel\mics\fileOutput.bin)\r
+19. You can change the "#define NUM_BF_ANALOG_MIC 8" and "#define NUM_BF_VIRTUAL_MIC 12" in bf_asnr_mss_vau.h. \r
+ The allowed value for NUM_BF_ANALOG_MIC is 1-8. The allowed value for NUM_BF_VIRTUAL_MIC is either 12 (30 degree apart) \r
+ or 8 (45 degree apart)
\ No newline at end of file
index 9f2bb4c2f500d7937ef002a8c66f68cee39b17c7..e5c3bc517d48e799491b3a60b3b41e19b4c0ca28 100644 (file)
#
# This file was generated based on the configuration script:
-# C:\ti\processor_sdk_rtos_am57xx_3_00_00_04\demos\noise-reduction\file_demo_bios\am572x\app.cfg
+# C:\ti\processor_sdk_rtos_am57xx_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\am572x\app.cfg
#
# This makefile may be included in other makefiles that need to build
# the libraries containing the compiled source files generated as
#
# The absolute path to the generated source directory (at the time the
# sources were generated) is:
-# C:\ti\processor_sdk_rtos_am57xx_3_00_00_04\demos\noise-reduction\file_demo_bios\am572x\src
+# C:\ti\processor_sdk_rtos_am57xx_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\am572x\src
#
GEN_SRC_DIR ?= ../src
index 07c2194cb76a322f98a6d1e68c433bcbb0e37b7b..e99ea9872e8072501e76b845383566523682270c 100644 (file)
-1. Download AEC-AER and VOLIB(volib_C64P_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
+1. Download AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C64P_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
2. Rename C:\ti\aer_c64Px_obj_17_0_0_0 to C:\ti\aer_c64Px_obj_17_0_0_0_mod\r
3. Comment out line 236~240 of C:\ti\aer_c64Px_obj_17_0_0_0_mod\packages\ti\mas\types\types.h\r
-4. Install AEC-AER and VOLIB(volib_C64P_2_1_0_1) at C:\ti\r
-5. Copy noise-reduction directory to C:\ti\noise-reduction\r
+4. Install AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C64P_2_1_0_1) at C:\ti\r
+5. Copy audio-preprocessing-fw directory to C:\ti\audio-preprocessing-fw\r
6. Download and install bios_6_45_01_29\r
7. Download and install xdais_7_24_00_04 and xdctools_3_32_00_06_core from TI website \r
8. Downlaod CCS 6.1.3 from TI website\r
9. Install CCS 6.1.3 at C:\ti\r
10. Launch CCS 6.1.3\r
-11. Import DA830_bf from C:\ti\noise-reduction\file_demo_bios\da830\r
+11. Import DA830_bf from C:\ti\audio-preprocessing-fw\file_demo_bios\da830\r
12. Build the imported project\r
-13. Import the target configuration file DA830_DSK_USB560M.ccxml from C:\ti\noise-reduction\file_demo_bios\da830\r
+13. Import the target configuration file DA830_DSK_USB560M.ccxml from C:\ti\audio-preprocessing-fw\file_demo_bios\da830\r
14. Connect the Blackhawk USB 560M JTAG to J4 on DA830 DSK\r
15. Power on the DA830DSK\r
16. Connect to the DA830 DSK via JTAG using CCS 6.1.3\r
-17. Load the DA830_bf.out from C:\ti\noise-reduction\file_demo_bios\da830\Debug\r
+17. Load the DA830_bf.out from C:\ti\audio-preprocessing-fw\file_demo_bios\da830\Debug\r
18. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
- (C:\ti\noise-reduction\file_demo_bios\da830\t8\y16L8g3m7090_x.pcm) into external memory buffers\r
+ (C:\ti\audio-preprocessing-fw\file_demo_bios\da830\t8\y16L8g3m7090_x.pcm) into external memory buffers\r
19. Run the program (loaded in step 13) by pressing F8\r
20. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
21. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
- (C:\ti\noise-reduction\file_demo_bios\da830\t8\fileOutput.bin)\r
+ (C:\ti\audio-preprocessing-fw\file_demo_bios\da830\t8\fileOutput.bin)\r
22. By default 12 virtual microphones (30 degree apart) will be used\r
\r
index c7e094dfa2645ba958b05bb5fc77f92c50b0464e..122e39024bd67f34a33028c4d50690873f55aafc 100644 (file)
-1. Download AEC-AER and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
-2. Install AEC-AER and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
-3. Copy noise-reduction directory to C:\ti\noise-reduction\r
-4. Download and install bios_6_45_01_29\r
-5. Download and install xdais_7_24_00_04 and xdctools_3_32_00_06_core from TI website \r
-6. Downlaod CCS 6.1.3 from TI website\r
-7. Install CCS 6.1.3 at C:\ti\r
-8. Launch CCS 6.1.3\r
-9. Import K2G_bf from C:\ti\noise-reduction\file_demo_bios\k2g\r
-10. Build the imported project\r
-11. Import the target configuration file K2G_bf.ccxml from C:\ti\noise-reduction\file_demo_bios\k2g\r
-12. Connect to the on board emulator (J1 on K2G EVM) to your PC USB\r
-13. Plug power adaptor(12V) into the K2G EVM and power on the EVM\r
-14. Launch the K2G_bf.ccxml using "Launch Selected Configuration" from CCS 6.1.3\r
-15. Then "Connect to C66xx_DSP"\r
-16. Load the K2G_bf.out from C:\ti\noise-reduction\file_demo_bios\k2g\Debug\r
-17. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
- (C:\ti\noise-reduction\file_demo_bios\k2g\t8\y16L8g3m7090_x.pcm) into external memory buffers\r
-18. Run the program (loaded in step 16) by pressing F8\r
-19. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
-20. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
- (C:\ti\noise-reduction\file_demo_bios\k2g\t8\fileOutput.bin)\r
-21. By default 12 virtual microphones (30 degree apart) will be used\r
+1. Download AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) from http://www.ti.com/tool/telecomlib\r
+2. Install AEC-AER(aer_c64Px_obj_17_0_0_0) and VOLIB(volib_C66_2_1_0_1) at C:\ti\r
+3. Downlaod CCS 6.1.3 from TI website; Install CCS 6.1.3 at C:\ti\r
+4. Launch CCS 6.1.3\r
+5. Import K2G_bf from C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\r
+6. Build the imported project\r
+7. Import the target configuration file K2G_bf.ccxml from C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\r
+8. Connect to the on board emulator (J1 on K2G EVM) to your PC USB\r
+9. Plug power adaptor(12V) into the K2G EVM and power on the EVM\r
+10. Launch the K2G_bf.ccxml using "Launch Selected Configuration" from CCS 6.1.3\r
+11. Then "Connect to C66xx_DSP"\r
+12. Load the K2G_bf.out from C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\Debug\r
+13. Execute GEL function Scripts-->Microphone Load Functions-->BFMicLoadAll to load all 8 microphone input files \r
+ (C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\t8\y16L8g3m7090_x.pcm) into external memory buffers\r
+14. Run the program (loaded in step 16) by pressing F8\r
+15. The program will print out the statistics and "Simulation End" when the program completes the prosessing\r
+16. Execute GEL function Scripts-->Microphone Save Functions-->BFSaveOutput to save the processed auido output from external memory buffer to a file \r
+ (C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\t8\fileOutput.bin)\r
+17. By default 12 virtual microphones (30 degree apart) will be used\r
\r
index d45657e2b083888fed2c5344a4ffddf0f817fa0b..ae05ee2caf036a02ab8cab0e6a5e80c671420c49 100644 (file)
#
# This file was generated based on the configuration script:
-# C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\noise-reduction\file_demo_bios\k2g\app.cfg
+# C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\app.cfg
#
# This makefile may be included in other makefiles that need to build
# the libraries containing the compiled source files generated as
#
# The absolute path to the generated source directory (at the time the
# sources were generated) is:
-# C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\noise-reduction\file_demo_bios\k2g\src
+# C:\ti\processor_sdk_rtos_k2g_3_00_00_04\demos\audio-preprocessing-fw\file_demo_bios\k2g\src
#
GEN_SRC_DIR ?= ../src