Super Video CD


Super Video CD is a digital format for storing video on standard compact discs. SVCD was intended as a successor to Video CD and an alternative to DVD-Video, and falls somewhere between both in terms of technical capability and picture quality.

Technical specifications

Structure

Similar to VCDs, SVCDs comply with the CD-i Bridge format, and are authored using the CD-ROM XA format. The first track is in CD-ROM XA Mode 2, Form 1, and contains metadata about the disc. The other tracks are in Mode 2, Form 2, and contain audio and video multiplexed in a MPEG program stream container. This allows roughly 800 megabytes of data to be stored on one 80 minute CD. One CD can hold up to 35 minutes of full quality SVCD-format video and audio.

Video

Because of its 480x480 resolution, SVCD picture quality is more than double that of VCD. On the downside, this increase in picture resolution sacrifices video length capacity by over 50%. Because of this, titles released on SVCD had to come on twice the number of discs.
Unlike other CD-based formats, such as China Video Disc and Video CD, Super Video CD video is incompatible with both the DVD-Video and Blu-ray standards due to a conflict in resolution. However, many DVD and Blu-ray players will play back SVCD resolution video from a DVD or Blu-ray disc anyway.
Interlaced video is supported for SVCD video, though not required. 23.976 frames per second video is supported by use of interlacing and 3:2 pulldown.
The combined audio and video bit rates should not exceed 2.7 Mbps. This data rate was chosen, in part, to ensure compatibility with slower and less expensive "2 × speed" CD drives.

Audio

As with most compact disc-based video formats, SVCD audio is incompatible with the DVD-Video standard due to the difference in frequency; DVDs require 48 kHz, whereas SVCDs use 44.1 kHz.
SVCDs may have two separate stereo, or four mono audio tracks.
Audio may have up to 6 channels using the MPEG Multichannel surround sound format, although space constraints and inconsistent hardware support make it impractical, and very uncommon.
Variable bit rate encoding, while not supported by the MPEG-1 Audio Layer II standard, is part of the SVCD specification. However, variable bit rate audio is not consistently supported by standalone players, and thus the format is rarely used.

Additional features

The SVCD standard supports several other features, including interactive menus, hyperlinks, karaoke lyric highlighting, four selectable overlay graphic subtitle streams, chapters, playlists, and DVD-quality still images/slide shows, along with audio, with a resolution of 704x480 or 704x576.

Playback issues

Play back of SVCD titles is impaired when played on most DVD players, causing dropped frames, choppy video playback or skipping of sound. This is due to the unfortunately chosen two-thirds video ratio in the SVCD format specifications, which doesn't align well with the other more common video formats VCD and DVD. Most DVD players support the video formats VCD, SVCD and DVD but the best resolution usually dictates the design of all the electronics components, most notably the low pass filter. With only one analog low pass filter optimised for one video format, the other two video format will suffer from aliasing. The SVCD format is especially prone to "foldover" because the 480p format doesn't fit well over a 720p output. The aliasing artifacts that result from this bad fit are usually buried in noise from other sources, such as camera, quantization, and MPEG artifacts.

Similar formats

CVD

China Video Disc is a CD-based video format which was created during the development of the SVCD standard and is almost identical to SVCD. The primary technical difference is a lower video resolution of 352×480 or 352×576.
Because 352×480/576 is a recognized DVD resolution, CVD video is fully compatible with the DVD-Video standard, and avoids the "foldover" problems encountered when playing SVCDs on DVD players. The lower resolution also allows the bitrate to be reduced while keeping compression artifacts to a minimum. CVD also supports all of the additional features which are supported by SVCD.
SVCD players are required to be fully compatible with the CVD standard. However, "SVCD compatible" DVD players sold in North America have no such requirement, and may not be able to play CVDs, or utilize the interactive menus and subtitles found on some CVDs and SVCDs.

XSVCD

XSVCD is the name generally given to any format that stores MPEG-2 video on a compact disc in mode 2/XA, at SVCD resolution, but does not strictly meet the SVCD standard.
To reduce the data rate without significantly reducing quality, the size of the GOP can be increased, the maximum data rate can be exceeded, and a different MPEG-2 quantization matrix can be used. These changes can be advantageous for those who want to either maximize video quality, or use fewer discs.

RSVCD

RSVCD uses the Robshot-Bach method for encoding MPEG-2 video using CCE
in creating SVCD-compliant discs. RSVCD was popularized on the Doom9 forum.

MVCD

MVCD is a XSVCD variant that can be created using the MVCD templates included with TMPGEnc. MVCD can encode either MPEG-1 or MPEG-2 video to VCD, SVCD, or DVD standard resolution. Many players accept MVCD encoded discs.

History of development

Super Video CD was developed as part of a late 1990s Chinese government-sponsored effort to create a next-generation CD-based video standard. The primary motivating factor was the need for an alternative to the DVD format that would not be restricted by technology royalties. The Chinese government was concerned that the DVD format was too tightly controlled by foreign companies, and that a significant opportunity existed for the development of a domestic format that could deliver comparable quality without the restrictions of DVD. It was also hoped that SVCD's development would help to drive down the cost of consumer DVD players and DVD licensing fees in China. Three independent efforts attempted to solve these problems: CVD, SVCD, and HQ-VCD.
China Video Disc, developed by C-Cube Microsystems, was the earliest entry, having completed its specification in 1997, before the other two had even reached a draft stage. Super Video CD was second, being developed by the government-backed China Recording Standards Committee, under direction from the Chinese Ministry of Information Industry, with technical support from ESS Technology. High-Quality Video CD, developed by the Video CD Consortium was a relatively late entry.
The Chinese Ministry of Information and the Video CD Consortium agreed to join forces, incorporating the features of HQ-VCD under a unified SVCD format. But by the time the SVCD specification was ready in July 1998, CVD had already been adopted by major manufacturers and had quickly established a significant installed base of about 600,000 players. This prompted the Chinese government to force a compromise between the competing standards in order to maintain compatibility.
The SVCD and CVD standards were combined into one composite standard known as Chaoji Video CD in November 1998, which was adopted by the Chinese government as the "official" next-generation video disc standard. Chaoji VCD is effectively synonymous with Super VCD. A Super VCD player must be able to play a variety of formats, including SVCD, CVD, VCD 2.0, VCD 1.1 and CD audio discs.
On July 15, 2000, the IEC certified SVCD an international standard CD format, as IEC 62107.
Philips has added an SVCD logo to its canon of official Compact Disc logos. SVCD titles are available commercially in China, Hong Kong, and several other Asian countries. In the Western world, the format is more commonly used to store home videos or movies copied from DVD and Laserdisc.