First Annual MSU MPEG-4 AVC/H.264 Video Codec Comparison
For professional users and codec authors
Return to first H.264/AVC comparison home page!
Part 1. Introduction
Contents
Thanks
We would like to thank Moonlight Cordless LTD, Fraunhofer Institute for Integrated Circuits IIS and Ateme for kindly providing us their codecs for this test.
Overview
Codecs
CODEC |
MANUFACTURER |
VERSION |
1. Mpegable AVC Codec |
dicas digital image coding GmbH |
0.10 |
2. Moonlight H.264 Video Codec |
Moonlight Cordless LTD |
0.1.2546 |
3. MainConcept H.264 Codec |
MainConcept AG |
1.04.02.00 |
4. MPEG-4 / AVC Codec |
Fraunhofer Institute for Integrated Circuits IIS |
Date 25.11.2004 |
5. Ateme MPEG-4 AVC / H.264 Codec |
Ateme |
1.0.3.2 |
6. Videosoft H.264 Codec main |
Videosoft, Inc |
2.1.0.2 |
7. DivX Pro™ 5.1.1 Codec |
DivXNetworks, Inc |
5.1.1 |
Video sequences
Sequence |
Number of frames |
Number of frames per second |
Resolution and color space |
1. bankomatdi |
376 |
30 |
704x352(RGB) |
2. battle |
1599 |
24 |
704x288(RGB) |
3. bbc3di |
374 |
25 |
704x576(RGB) |
4. foreman |
300 |
15 |
352x288(RGB) |
5. susidi |
374 |
25 |
704x576(RGB) |
Goal and testing rules
Goal of H.264 codecs comparison
The main goal of this work was the comparative assessment of codecs quality in terms of consumer video compression. The video sequences used to perform this assessment were processed with a simple prevalent deinterlacing filter. The codecs were used with their default options.
Testing rules
- PSNR was measured using luv_avi program.
- Frame size was calculated as the ratio of the sequence size to the number of frames.
- Y-axis values on the Delta diagram were calculated as the difference between PSNR of the tested codecs and PSNR of the DivX codec.
- To test the codecs that place their logo on the frames of the compressed sequence a black rectangle was placed in its position on the both source and compressed sequences before their comparison.
- Compression with VfW (Video for Windows) codecs was performed using VirtualDub 1.5.4 video processing tool.
- Compression with DirectShow codecs was performed using GraphEdit (build 011008) tool.
- Compression with the codecs that had been installed as the separate applications was performed using these applications.
- For those codecs that compress video into their own internal format instead of avi the resulting compressed sequences were transformed into avi using GraphEdit (build 011008) and decoder given with the codec.
- MainConcept codec inserted extra frames into decoded sequences. These frames were deleted using VirtualDub 1.5.4 to perform per frames comparison. If the last frame in the corrected sequence differed visually from the last frame in the source uncompressed sequence comparison was not performed for this sequence.
Sequences
Bankomatdi
Sequence title |
bankomatdi |
Resolution |
704x352 |
Number of frames |
376 |
Color space |
RGB |
Frames per second |
30 |
Source |
MPEG-2 (DVD), Smart Deinterlace |
Picture 1. Frame 168 from bankomatdi sequence
This sequence is a fragment of the “Terminator-2” movie, which represents the scene near the cash dispenser. The sequence is characterized by slow motion, very little change of background (in the second part of the sequence camera slowly goes to the right) and comparatively high resolution.
Battle
Sequence title |
battle |
Resolution |
704x288 |
Number of frames |
1599 |
Color space |
RGB |
Frames per second |
24 |
Source |
MPEG-2 (DVD), FlaskMPEG deinterlace |
Picture 2. Frame 839 from battle sequence
This sequence is also a fragment of the “Terminator-2” movie, which represents the very beginning of the film. In the terms of compression this sequence is the most difficult one among all other sequences that took part in the testing. It is caused by three main reasons: constant changing of brightness because of the explosions and laser flashes, very quick motion and frequent changes of the scene that make codecs often compress frames as I-frames.
Bbc3di
Sequence title |
bbc3di |
Resolution |
704x576 |
Number of frames |
374 |
Color space |
RGB |
Frames per second |
25 |
Source |
Original (standard sequence), Smart Deinterlace |
Picture 3. Frame 185 from bbc3di sequence |
Picture 4. Frame 258 from bbc3di sequence |
This sequence is characterized by pronounced rotary motion. It contains a rotating striped drum with different pictures and photos on it. Quality of the compressed sequence can be estimated by the details on these images.
Foreman
Sequence title |
foreman |
Resolution |
352x288 |
Number of frames |
300 |
Color space |
RGB |
Frames per second |
15 |
Source |
Original (standard sequence), progressive |
Picture 5. Frame 77 from foreman sequence |
Picture 6. Frame 258 from foreman sequence |
This is another standard sequence. It represents a face with very rich mimic. On the one hand motion here is not very intensive, but on the other it is disordered, not forward. Intricate character of motion creates problems for the motion compensation process. In addition camera is shaking which makes the image unsteady. In the end of the sequence camera suddenly turns to the building site and there follows an almost motionless scene. So this sequence also shows codec’s behavior on a static scene after intensive motion.
Susidi
Sequence title |
susidi |
Resolution |
704x576 |
Number of frames |
374 |
Color space |
RGB |
Frames per second |
25 |
Source |
MPEG-2 (40Mbit), Smart Deinterlace |
Picture 7. Frame 193 from susidi sequence
This sequence is characterized by high-level noise and slow motion. In its first part the scene is almost static (the girl only blinks), then there is some motion (she abruptly moves her head) and then the scene becomes almost static again. Noise is suppressed on every second frame due to the B-frames option in MPEG-2 codec.
Codecs
Mpegable AVC Codec
- This is a VfW (Video for Windows) codec.
- Compression was performed using VirtualDub 1.5.4 video processing tool.
- The codec is freeware.
Picture 8. Mpegable AVC
Remarks:
VirtualDub jobs support contains an error on different bit rates. When trying to create several jobs only the last one is performed. Possible source is that codec might not save its settings during job creation.
Moonlight H.264 Video Codec
- This is a DirectShow codec.
- Compression was performed using GraphEdit (build 011008) tool.
- The version of the codec used in the testing was kindly provided by Moonlight Cordless LTD company.
Picture 9. Moonlight
Remarks:
Codec was tested without problems.
MainConcept H.264 Codec
- This codec is provided a separate application for video compression.
- The codec installs its decoder to the system therefore the compressed video can be played with the standard player.
- The codec is freeware.
- GraphEdit (build 011008) tool was used for decoding.
Picture 10. MainConcept
Remarks:
- The codec compresses only sequences with 30fps(NTSC) and 25fps(PAL) frame rates.
- The codec doesn’t compress with bit rate lower than 200 (settings lower than that are simply replaced by 200 without informing a user about it).
- Extra frames were added to the sequence while decoding the compressed sequences. Generally the less the bit rate was the more often extra frames were inserted. At the same time we could not treat these frames as drop-frames, because the resulting sequence length was increased. They had to be removed manually in order to perform per frame comparison.
Fraunhofer IIS Codec
- This codec is provided as a two separate applications for video compression and playback.
- The version of the codec used in the testing was kindly provided by Fraunhofer IIS company. This version works in command line.
Picture 11. Fraunhofer
Picture 12. Fraunhofer command-line
Remarks:
- Only YUV format is acceptable as an input of console version, AVI format is acceptable for GUI version.
Ateme MPEG-4 AVC / H.264 Codec
- The version of the codec used in the testing was kindly provided by Ateme company
- This codec works with command line.
- The codec uses drop-frames to produce low bit rates.
- Input file should have YV12 format.
Picture 13. Ateme command-line
Remarks:
Codec was tested without problems.
Videosoft H.264 Codec
- This is a VfW (Video for Windows) codec.
- Compression was performed using VirtualDub 1.5.4 video processing tool.
- The codec is shareware with 5 days of trial use.
Picture 14. VSS
Remarks:
Codec was tested without problems.
DivX Pro™ 5.1.1 Codec
- This is a VfW (Video for Windows) codec.
- Compression was performed using VirtualDub 1.5.4 video processing tool.
Picture 15. DivX Pro™ 5.1.1
Remarks:
Codec was tested without problems.
-
MSU Benchmark Collection
- Super-Resolution for Video Compression Benchmark
- Video Colorization Benchmark
- Defenses for Image Quality Metrics Benchmark
- Learning-Based Image Compression Benchmark
- Super-Resolution Quality Metrics Benchmark
- Video Saliency Prediction Benchmark
- Metrics Robustness Benchmark
- Video Upscalers Benchmark
- Video Deblurring Benchmark
- Video Frame Interpolation Benchmark
- HDR Video Reconstruction Benchmark
- No-Reference Video Quality Metrics Benchmark
- Full-Reference Video Quality Metrics Benchmark
- Video Alignment and Retrieval Benchmark
- Mobile Video Codecs Benchmark
- Video Super-Resolution Benchmark
- Shot Boundary Detection Benchmark
- The VideoMatting Project
- Video Completion
- Codecs Comparisons & Optimization
- VQMT
- MSU Datasets Collection
- Metrics Research
- Video Quality Measurement Tool 3D
- Video Filters
- Other Projects