December 6th, 2014
As you might remember, alternative history genre is modelling events based on real history but with something gone differently. Here’s what could’ve happened with H.265 but didn’t.
So, finally there’s a new standard released — ITU H.265. It promises twice as low bitrate for the same picture quality in H.264. Yet people do not care much about it since industry leaders offer their solutions:
China introduces their new standard for video coding — Hybrid Enhanced Video Standard or HEVS for short. It features quadtree representation of coding blocks, more than thirty spatial prediction modes, block transforms from 4×4 to 32×32 and has one unique feature — motion vectors that implicitly take mirror references from reference picture lists. This standard is nominated for main video coding standard on CUVRD (China ultraviolet ray disc) but gains little popularity outside China.
On2 makes a new codec named VP9 that has no open specifications. After tedious reverse engineering it turns out to employ coding scheme from VP5 times, spatial and motion prediction from H.265 with slightly altered coefficients and overall coding scheme from H.265 drafts.
Re… buffering… alNetworks releases NGV at last (fourcc
RV50). Again, after long studies of binary specification, it turns out to be based on H.265 drafts with some in-house improvements: using context-specific codebooks for elements coding, ⅕-pel motion compensation (which is implemented as motion vectors pretended to be ⅛-pel but in reality several different positions are handled by the same function). The codec goes very popular in China for some reason.
Sorenson releases SVQ7. It is based on old H.265 draft and employs ⅙- and ⅛-pel motion compensation. It has some additional features like watermarking and quickly becomes the codec of choice for QuickTime.
P.S. Good thing nothing like this has really happened.
November 23rd, 2014
So, finally there’s a post about some codec.
It is a specialised codec from Oxford Germanium Television (all names are changed just in case) that has 4:1 compression ratio and very niche use. It’s hard to find even a decoder for it so this analysis was done on ARM version of encoder (maybe I’ll be able to RE something more useful next time like VX).
The codec itself is rather simple: you take 4 samples from one channel, compress them, output the 16-bit result and repeat the same for the second channel. Encoding is rather simple too:
- feed input to 4-band QMF (with filter looking a lot like D4 wavelet to me);
- perform ADPCM on each band (this varies a bit for each band but it’s the same approach);
- generate output word (7 bits for band 0, 4 bits for band 1, 2 bits for band 2 and 3 plus a parity bit for them all).
Since I have no samples of it don’t expect a decoder from me any time soon (and I don’t have enough motivation to hook Android encoder directly to make it produce data). Not that anyone cares about it either.
November 21st, 2014
An excerpt from a book that I have to refer sometimes (here’s the source, it really tells a lot about proper relationship. Ask a nearby German for a translation if you need it.
P.S. Next post will be about a codec technical description, I promise.
November 21st, 2014
Italy is a good country (piecewise) — nice scenery, decent food (and pasta), nice architecture…
There’s but one thing that annoys me, I think you’ll be able to spot it on those two pictures.
Milan, a corner of via Vitruvio and via Benedetto Marcello.
Turin, largo Cassini.
I cannot say it for sure but I remember Ukrainian markets (right after closing time) being cleaner than that.
September 29th, 2014
There are enough general use standardised codecs, there’s even VPx family for those who want more. But there are not enough niche codecs with free/open specifications.
One of such niche codecs would be an intermediate codec. It’s suitable for capturing and quick editing of video material. Main requirements are modest compression rate and fast processing (scalable is a plus too). Maybe SMPTE VC-5 will be the answer, maybe Ogg Chloe, maybe something completely different. Let’s discuss it some other time.
Another niche codec that desperately needs an open standard is screen video codec. Such codec may be also used for recording webcasts, presentations and such. And here I’d like to discuss a whole family of such codecs based on the same coding principles.
It makes sense to make codec fast by employing multithreading where possible. That’s why frame should be divided into tiles that should be not so large and not so small, maybe 192×128 pixels or so.
Each tile should be coded independently, preferably its distinct features coded separately too. It makes sense to separate tile data into smooth features (like gradients and real life pictures) and sharp transitions (like text and UI elements). Let’s call the former a natural layer and the latter a synthetic layer. We’ll need a mask to tell which layer to use for the current pixel too. And using these main blocks and employing different coding methods we can make a whole family of codecs.
Here’s the list of example codecs (with a random FOURCC assigned):
J-B0 — employ JPEG for natural layer and
GIFPNG for mask and synthetic layer coding;
J-B1 — employ Snow for natural layer coding and FFV1 for synthetic layer coding;
J-B2 — employ JPEG-2000 for natural layer coding, JBIG for mask coding and something like PPM modeller for synthetic layer;
J-BG — employ WebP for natural layer and WebP LL for synthetic layer.
As one can see, it’s rather easy to build such codec since all coding blocks are there and only natural/synthetic layer separation might need a bit of research. I see no reasons why, say, VLC can’t use it for recording and streaming desktop for e.g. virtual meeting.
September 21st, 2014
So what I’ve discovered today.
There’s a Schwarzwaldbahn going through Schwarzwald from Offenburg to Konstanz and there’s a station there — Villingen. That station bears a plaque that it had 10000th kilometre of electrification of DB network done in 1975 (DDR railways on the other hoof lost most of its electrification after the war because it was more important to electrify Soviet railways but that’s another story).
And there’s a branch connecting Villingen (Baden) with Rottweil (Württemberg) — unelectrified. And that branch has its own subbranch to Trossingen Stadt. That subbranch is also served by a diesel railbus. But unlike the branch it connects to it’s electrified! And that electrification is used only by museum vehicles from 1930s-1960s that are electric only (or in one case it’s a carriage with an electric locomotive).
On most such lines in Germany one usually has trains hauled by a steam locomotive or a diesel rail buses and the main traffic is electrified but in this case it’s the other way round. I have only one possible explanation — Württemberg.
P.S. Still it’s hard to find stupider situation with electrification than in Denmark. The only countries it has connections to had chosen 15 kV 16⅔ Hz system. Denmark settled on 25 kV 50 Hz. But looking at their other railway-related decision (i.e. IC4) it seems logical.
P.P.S. For Ukraine the situation is sadder — once I was in Uzhgorod-Kharkiv train and it had to change locomotive twice because there are two electrification systems there (which make three areas). They claim it was done to better account for relief, i.e. different electrification for the flatter and mountainy regions. Hopefully there will be more two-system trains in the future (and there will be the future too).
September 20th, 2014
I’ve finally bought a DVD with an anime I wanted to watch. And it was awesome. Here are some screenshots.
P.S. I should probably visit Småland next summer.
September 16th, 2014
I think most of you have read this piece of news about G**gle VPx plans already. After some thoughts I’ve decided to comment on it as well.
So, here’s a bit of history:
- Duck TrueMotion — an original codec;
- Duck TrueMotion 2 — a development of TrueMotion 1 (same coding principles but now Huffman coding is employed);
- On2 TrueMotion VP3 — something like TrueMotion 2 and MPEG-2(aka H.262) mixed together;
- On2 TrueMotion VP4 — most likely some improvements over VP3 (shame on Mike and/or Peter for not REing it yet!);
- On2 TrueMotion (or was it TrueCast?) VP5 — MPEG-4 ASP/H.263 ripoff with On2-specific stuff (no B-frames, different coder etc.);
- On2 TrueMotion VP6 — minor improvements over VP5;
- On2 TrueMotion VP7 — H.264 ripoff with On2-specific stuff (no B-frames, different coder etc.);
- On2 TrueMotion VP8 — minor improvements over VP7;
- G**gle VP9 — H.265 ripoff with some On2-specific stuff (almost the same as in VP7/VP8);
- G**gle VP10 — is not released yet but I can predict it will be just VP9 with some minor improvements and no real specification available (you have Chromium source, just look at the stable branch there).
It is easy to see that there’s a huge issue to deal with if they want to release a new VPx every 18 months — they should have a corresponding ITU H.26x standard (or at least some draft of it) available. The only alternatives are polishing VP9 and calling it a new version when some incompatible feature is added or start ripping off Daala, Dirac and Bink 3. Good luck.
August 10th, 2014
More than two years ago I’ve posted what I considered should be high priority Libav projects. Let’s see what has been finished, what’s left and what should probably be added.
Working — fixed in the clean way (by removing it completely);
Proper filter system. When I say “proper” I mean the one that allows dynamic reconfiguring, handles errors and works for arbitrary inputs and outputs — some claim it’s been fixed;
libswscale replacement. The one that doesn’t sap sanity when you look at its code. Maybe with a nicer API too. And better pixel format support.
Improve RM demuxer or maybe rewrite it from scratch — there’s a demuxer reimplementation from scratch is in the works, hopefully it will succeed;
- Add proper support for multirate RM streams — hopefully will be handled;
- Add IVR format demuxer — noone cares;
- Add ClearVideo decoder (that’s the last codec in RM that we don’t support, hopefully not for long) — noone cares and I lost interest too.
Other Intel codecs support
- Improve Indeo4 decoder (it still has some features lacking) — B-frames support was added, transparency support is still not there;
Improve Intel Audio Coder decoder — fixed too.
On2 codecs support
On2 VP7 decoder (we still can implement it faster than certain Baidu rival releases its source code) — nothing to say except “many thanks, Peter!” and “Baidu, I’ve not expected anything else from you”(and indeed we got what we expected, i.e. total lack of support);
- On2 VP4 decoder;
On2 AVC decoder (that stands for “Audio for Video Codec”) — done.
Micro$oft (screen) codecs support
Add M$ Screen Codec 1 decoder;
Add M$ Screen Codec 2 decoder;
Add M$ Expression Encoder Screen Codec decoder;
- Add beta Windows Media Video 9 interlaced decoding — maybe it’s better left unfixed.
- Fix beta Windows Media Video 9 P-frames decoding — again, it’s unlikely to ever happen because there are not so many people who can RE intended behaviour and even less people who can RE
libavcodec/vc1dec.c to put the fix there.
QuickTime codecs support
Add Rottenfruit Intermediate Codec decoder;
- Add any other codec decoder — noone cares about Pixlet, noone cares enough to add QDesign Music 1 etc..
- Add GoToMeeting 2-4 decoder — GoToWebinary aka
G2M4 is done, the rest is permanently stalled (and I’ve passed stalling duties to Diego);
Add more screen codec decoders — someone asked for FIC Video and got it;
- Add more game format decoders (especially Discworld Noir BMV) — I should return to it;
Add more audio (especially speech) codec decoders — Opus decoder is enough.
So, if the tast was moderately interesting it was done, fringe stuff was not taken, serious stuff was not taken either (most people I know agree that swscaler should be replaced yet noone wants to work on the replacement).
And what high priority projects for Libav do I see in the future? None really. Just none.
August 1st, 2014
I’ve not written anything about one of the crucial topics of this blog since ages, so here’s the long-awaited update.
Today I’d like to talk about probably the most interesting railway in Germany — Wutachtalbahn or Kursbuchstrecke 743 (Waldshut-Immendingen). It was build as a route to the South border of Germany that does not go on Swiss territory (the line along the Rhine it connects to goes through Basel and canton Schaffhausen).
Now, what makes it so interesting?
Despite being rather unimportant line nowadays and being about only 60km long (and there are no branches either!), it is operated by three different rail companies:
- northern part (Immendingen — Blumberg-Zollhaus) is operated by SWEG
- central part (Blumberg-Zollhaus — Weizen) is operated by WTB
- southern part (Weizen — Lauchringen — Waldshut) is operated by DB
(Image shamelessly stolen from Wickedpedia)
So you have three different companies running trains on approximately 20km tracks. Is it the same rolling stock? Of course not!
SWEG runs class 650 (aka Stadler RS1) diesel unit, Deutsche Bahn employs class 641 diesel unit and WTB runs a steam locomotive (Württembergische T.14 or class 52.80 or something similar) with bunch of outdated carriages from various places (like Switzerland).
And for unknown reason it’s nicknamed “Pig’s Tail Railway” (see the map above, I have no clue why) and the name somehow appeals to me.
I’ve visited it in three parts: one year I saw the middle part, next year I saw the north parth and later I saw the last part too. Curiously, while DB runs the most modern train the route itself seems the most outdated: the rails are uneven so you can get a bit seasick, the signal system is implemented by driver’s assistant with a red flag who stands on the crossing while the train passes it and it does not stand on the Weizen station for long because it has to give room to the WTB train (in result it comes to the station, waits a bit and cowardly retreats back to the track and waits there till the WTB train is gone).
In general I’d recommend visiting it if you happen to be there. If you want to see something better — go to Sweden and try Uppsala-Lenna railway, it’s the best (now I want to visit it again — oh wait, I wanted that before too).