Difference between revisions of "HanProgressReportSep08"
From Immersive Visualization Lab Wiki
(New page: UP ==== TODO ==== * PRELOADING - preload data: load as much data as possible before starting playing, to fully utilize memory cache. - make sure to correctly...) |
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* PLUGIN | * PLUGIN | ||
- change plugin so that initialization step takes place when "load data" is selected. Now it loads everything when opencover starts | - change plugin so that initialization step takes place when "load data" is selected. Now it loads everything when opencover starts | ||
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* THINKABOUT | * THINKABOUT | ||
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o new rendering algorithm: need to manage multi bricks overlaps with several bricks! | o new rendering algorithm: need to manage multi bricks overlaps with several bricks! | ||
* time-series multivolume rendering - need to handle multi timesteps | * time-series multivolume rendering - need to handle multi timesteps | ||
| + | |||
| + | * WRITEUP | ||
| + | * contribution, introduction | ||
| + | * related work | ||
| + | - mipmap | ||
| + | - large scale data management | ||
| + | - ? | ||
| + | * system architecture | ||
| + | - | ||
| + | * result/performance | ||
| + | - introduction of CAVE | ||
| + | * future work | ||
| + | * conclusion | ||
| + | |||
| + | |||
| + | === DONE === | ||
| + | * synchronization | ||
| + | * sync with rendering and video frequency (24 fps) | ||
| + | * when rendering is slow, skip frames | ||
| + | * when rendering is fast, redraw frames | ||
| + | |||
| + | * performance optimization | ||
| + | * fixed memory management | ||
| + | * OpenGL PBO does not allocate data immediately and try to allocate data when write operations are issued. | ||
| + | * the result was, whenever new data is loaded, memory allocation process ran, which slowed the whole system significantly. | ||
| + | * minimized the memory foot print so that the memory block can be used over and over again. | ||
| + | * what we lose is the caching mechanism but it is not a big issue in video playing | ||
| + | |||
| + | * performance optimization II | ||
| + | * added prefetching | ||
| + | * the mesh geometry of the current frame passed to the next frame and load data for the next frame | ||
| + | * it is useful when the plane is not moving | ||
| + | * another big advantage is, thanks to PBO's asynchronous I/O mechanism, we can parallelize memory copy and rendering process. | ||
| + | |||
| + | * performance optimization III | ||
| + | * aggregate block I/O request | ||
| + | * found out random access reads across multiple files are slower than reading files one by one. | ||
| + | * we sort bricks by each brick's file name, so access to one file can take place all together. | ||
| + | |||
| + | * performance optimization IV | ||
| + | * RGB format without shader | ||
| + | * we used to use shader programs to combine channel data. | ||
| + | * we give up the control of each channel, however, we get more performance | ||
| + | * RGB format is usually an optimized format in OpenGL | ||
| + | |||
| + | * multiple players | ||
| + | * removed all the global variables so that multiple instances of rendering class can co-exist. | ||
| + | * created two Geode class and they run successfully in covise | ||
| + | * MultiVirvoNode.[cpp|h] | ||
| + | |||
| + | * plugin improvement | ||
| + | * added an menu item so the plugin can hold loading all the data when initializing and start loading when users request | ||
| + | * added pixelToVoxel ratio and brickLimit control | ||
Latest revision as of 14:48, 16 September 2008
TODO
- PRELOADING
- preload data: load as much data as possible before starting playing, to fully utilize memory cache. - make sure to correctly count the number of bricks that is being loaded at each frame - load up to level 2 from level 5 - make sure the eviction takes place on old frames
- PLUGIN
- change plugin so that initialization step takes place when "load data" is selected. Now it loads everything when opencover starts
- THINKABOUT
- revert to memory pool instead of pixel buffer object pool.. - * re-add prefetching thread - * implement budget based algorithm
- PERFORMANCE
* measuring performance for the following step
- LOADING, preload miss
- # bricks loaded
- # brick upper bound
- meshing generation
- rendering
- with preloaded data: 40~50 fps, 0.025 ~ 0.02 sec/frame
- without preloading: around 10 fps, 0.1 sec/frame....:(
* prefetching next frames
* point of interest (check paper again)
- multi-volume support
* mesh generation - generating a mesh for multivolumes under one constraint - memory size
* rendering - multi-volume rendering
o new rendering algorithm: need to manage multi bricks overlaps with several bricks!
* time-series multivolume rendering - need to handle multi timesteps
- WRITEUP
* contribution, introduction
* related work
- mipmap
- large scale data management
- ?
* system architecture
-
* result/performance
- introduction of CAVE
* future work
* conclusion
DONE
- synchronization
* sync with rendering and video frequency (24 fps) * when rendering is slow, skip frames * when rendering is fast, redraw frames
- performance optimization
* fixed memory management * OpenGL PBO does not allocate data immediately and try to allocate data when write operations are issued. * the result was, whenever new data is loaded, memory allocation process ran, which slowed the whole system significantly. * minimized the memory foot print so that the memory block can be used over and over again. * what we lose is the caching mechanism but it is not a big issue in video playing
- performance optimization II
* added prefetching * the mesh geometry of the current frame passed to the next frame and load data for the next frame * it is useful when the plane is not moving * another big advantage is, thanks to PBO's asynchronous I/O mechanism, we can parallelize memory copy and rendering process.
- performance optimization III
* aggregate block I/O request * found out random access reads across multiple files are slower than reading files one by one. * we sort bricks by each brick's file name, so access to one file can take place all together.
- performance optimization IV
* RGB format without shader * we used to use shader programs to combine channel data. * we give up the control of each channel, however, we get more performance * RGB format is usually an optimized format in OpenGL
- multiple players
* removed all the global variables so that multiple instances of rendering class can co-exist. * created two Geode class and they run successfully in covise * MultiVirvoNode.[cpp|h]
- plugin improvement
* added an menu item so the plugin can hold loading all the data when initializing and start loading when users request * added pixelToVoxel ratio and brickLimit control
