Team Slytherin: Difference between revisions
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gprof -b -z a.out >result.txt | gprof -b -z a.out >result.txt | ||
The output of gprof: | The output of gprof: | ||
The link [http://www.cs.utah.edu/dept/old/texinfo/as/gprof.html#SEC5] explains on how to understand a Flat Profile. | |||
====Flat profile==== | ====Flat profile==== | ||
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====Call graph==== | ====Call graph==== | ||
The link [http://www.cs.utah.edu/dept/old/texinfo/as/gprof.html#SEC6] explains on how to read the call graph. | |||
granularity: each sample hit covers 2 byte(s) for 33.23% of 0.03 seconds | granularity: each sample hit covers 2 byte(s) for 33.23% of 0.03 seconds | ||
index % time self children called name | index % time self children called name | ||
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[18] 0.0 0.00 0.00 _start [18] | [18] 0.0 0.00 0.00 _start [18] | ||
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=== Software emulation of HW === | |||
Application file : [[Team Slytherin - Software emulation source code]] |
Latest revision as of 21:26, 22 February 2012
Team Members
- Kevin Townsend
- Bhavani Satyanarayana Rao
- Chidvila Gaddam
Assignment1
Running the sample application with script files
- The runcp script located in the SampleAppVadd can be used to run the application in HW which sets the appropriate environment variables and runs the UserApp.exe export CNY_PDK_PROJ = ~/pdk_sample/cae_pers_vadd ./runcp
- The run script located in the SampleAppVadd can be used to run the application in SW
- The scripts above can be used to run the application on Simulator using the "-vsim" option which sets the environment variable CNY_CAE_EMULATOR to ./run_simulation ./runcp -vsim or ./run -vsim
Environment Variables | Software | ModelSim | Hardware |
---|---|---|---|
CNY_SIM_THREAD | libcpSimLib2.so | libcpSimLib2.so | unset |
CNY_CAE_EMULATOR | <location for CaeSimPers> | ./run_simulation | unset |
Changes made to run the application on ModelSim
- Setup as explained in here [[1]]
- Set the CNY_PDK_PROJ environment variable to the location of cae_pers_vadd export CNY_PDK_PROJ = ~/pdk_sample/cae_pers_vadd
- Copied Jones' my_makefile from the temp dir and replaced the makefile in CY_PDK_PROJ/testbench
- Add line to the makefile in testbench dir CNY_PDK_MODELSIM_USER_SIM_OPTIONS= -i -do "run -all"
- Modify the values of LIB_DIR and LDFLAGS from 32-bit to 64-bit as given below LIB_DIR = lib64 LDFLAGS = -m64
Error creating thumbnail: File missing
Extra Credit: Exploring gdb
- We invoked gdb using the gdb <programname> command or by using the run/runcp script files in with "-gdb" option gdb UserApp.exe or ./run -gdb Error creating thumbnail: File missing
- One can find different command classes on gdb by typing help.To get details on a particular command class/command, type help on gdb followed by the name of the command class/command Error creating thumbnail: File missing
- We explored some commands like run, start (to begin execution), stepi (for single instruction stepping into a file), kill (kill a running program) and quit on gdb Error creating thumbnail: File missing
Assignment2
About Sobel Algorithm
Sobel Algorithm is used for edge detection in image processing.The link[2] explains
- Why edge detection is important?
- How sobel algorithm uses the gradient method (jump in the pixel values along edges in the images compared to the pixels around it) to detect edges in images?
The Algorithm
- Use Sobel masks to find the gradient of a pixel w.r.t its 8 immediate neighboring pixel values. The Sobel masks are GX={(-1,0,+1),(-2,0,+2),(-1,0,+1)) which gives the gradient in the x direction and Gy={(+1,+2,+1),(0,0,0),(-1,-2,-1)} which gives the gradient in the x direction.
- Find the approximate magnitude of the gradient using the formula |G|=|Gx|+|Gy|
- Compare |G| against the threshold values (0 and 255 in our case). If (|G| > 255) then the pixel value is 0 in the output image. If (|G| < 0) then the pixel value is 255 in the output image.
- Repeat the above steps for all the pixels in the image
C code for Sobel Algorithm
Source: Edge Detection Tutorial-Author: Bill Green (2002)[3]
for(Y=0; Y<=(originalImage.rows-1); Y++) { for(X=0; X<=(originalImage.cols-1); X++) { sumX = 0; sumY = 0; /* image boundaries */ if(Y==0 || Y==originalImage.rows-1) SUM = 0; else if(X==0 || X==originalImage.cols-1) SUM = 0; /* Convolution starts here */ else { /*-------X GRADIENT APPROXIMATION------*/ for(I=-1; I<=1; I++) { for(J=-1; J<=1; J++) { sumX = sumX + (int)( (*(originalImage.data + X + I + (Y + J)*originalImage.cols)) * GX[I+1][J+1]); } } if(sumX>255) sumX=255; if(sumX<0) sumX=0; /*-------Y GRADIENT APPROXIMATION-------*/ for(I=-1; I<=1; I++) { for(J=-1; J<=1; J++) { sumY = sumY + (int)( (*(originalImage.data + X + I + (Y + J)*originalImage.cols)) * GY[I+1][J+1]); } } if(sumY>255) sumY=255; if(sumY<0) sumY=0; SUM = abs(sumX) + abs(sumY); /*---GRADIENT MAGNITUDE APPROXIMATION (Myler p.218)----*/ } *(edgeImage.data + X + Y*originalImage.cols) = 255 - (unsigned char)(SUM); /* make edges black and background white */ fwrite( (edgeImage.data + X + Y*originalImage.cols), sizeof(char), 1, bmpOutput);
Profiling C code Using gprof
Compile the c code with -pg option
gcc -pg -lm edgesob.c
Run the a.out file
./a.out lena.bmp
Execute the gprof command, provide it with the executable file name and pipe the output to a text file. Note the use of -z option.Unless the `-z' option is given, functions with no apparent time spent in them, and no apparent calls to them, are not mentioned. source:The GNU Profiler-Jay Fenlason and Richard Stallman[4]
gprof -b -z a.out >result.txt
The output of gprof: The link [5] explains on how to understand a Flat Profile.
Flat profile
Each sample counts as 0.01 seconds. % cumulative self self total time seconds seconds calls Ts/call Ts/call name 100.31 0.03 0.03 main 0.00 0.03 0.00 4 0.00 0.00 getImageInfo 0.00 0.03 0.00 1 0.00 0.00 copyColorTable 0.00 0.03 0.00 1 0.00 0.00 copyImageInfo 0.00 0.03 0.00 __do_global_ctors_aux 0.00 0.03 0.00 __do_global_dtors_aux 0.00 0.03 0.00 __gmon_start__ 0.00 0.03 0.00 __libc_csu_fini 0.00 0.03 0.00 __libc_csu_init 0.00 0.03 0.00 _fini 0.00 0.03 0.00 _init 0.00 0.03 0.00 _start 0.00 0.03 0.00 atexit 0.00 0.03 0.00 call_gmon_start 0.00 0.03 0.00 data_start 0.00 0.03 0.00 frame_dummy
Call graph
The link [6] explains on how to read the call graph.
granularity: each sample hit covers 2 byte(s) for 33.23% of 0.03 seconds index % time self children called name <spontaneous> [1] 100.0 0.03 0.00 main [1] 0.00 0.00 4/4 getImageInfo [2] 0.00 0.00 1/1 copyImageInfo [4] 0.00 0.00 1/1 copyColorTable [3] ----------------------------------------------- 0.00 0.00 4/4 main [1] [2] 0.0 0.00 0.00 4 getImageInfo [2] ----------------------------------------------- 0.00 0.00 1/1 main [1] [3] 0.0 0.00 0.00 1 copyColorTable [3] ----------------------------------------------- 0.00 0.00 1/1 main [1] [4] 0.0 0.00 0.00 1 copyImageInfo [4] ----------------------------------------------- <spontaneous> [7] 0.0 0.00 0.00 atexit [7] ----------------------------------------------- <spontaneous> [8] 0.0 0.00 0.00 call_gmon_start [8] ----------------------------------------------- <spontaneous> [9] 0.0 0.00 0.00 data_start [9] ----------------------------------------------- <spontaneous> [10] 0.0 0.00 0.00 frame_dummy [10] ----------------------------------------------- <spontaneous> [11] 0.0 0.00 0.00 __do_global_ctors_aux [11] ----------------------------------------------- <spontaneous> [12] 0.0 0.00 0.00 __do_global_dtors_aux [12] ----------------------------------------------- <spontaneous> [13] 0.0 0.00 0.00 __gmon_start__ [13] ----------------------------------------------- <spontaneous> [14] 0.0 0.00 0.00 __libc_csu_fini [14] ----------------------------------------------- <spontaneous> [15] 0.0 0.00 0.00 __libc_csu_init [15] ----------------------------------------------- <spontaneous> [16] 0.0 0.00 0.00 _fini [16] ----------------------------------------------- <spontaneous> [17] 0.0 0.00 0.00 _init [17] ----------------------------------------------- <spontaneous> [18] 0.0 0.00 0.00 _start [18] -----------------------------------------------
Software emulation of HW
Application file : Team Slytherin - Software emulation source code