Available in LEADTOOLS Multimedia toolkits. |
LEAD H264 Transcoder
The LEAD H264 Transcoder Transcoder: A file format convertion
process that is executed by data re-packetizing. Transcoding avoids decoding
and re-compression thus providing speed gains over decoding-encoding methods
used in traditional filters. Additionally, LEADTOOLS transcoders preserve
data quality by avoiding re-compression of already compressed data.
is a DirectShow A multimedia framework and API produced by Microsoft for software developers
to perform various operations with media files. Most Windows video-related
applications on Windows, such as Microsoft's Windows Media Player, use
DirectShow to manage
multimedia content.
filter. It is used to transcode h.264 video stream in NAL Unit (mpeg2)
format to h.264 in ISO (mpeg4) format or vice versa. Hence, conversion
can be done in either direction, from ISO format to MPEG2 format or MPEG2
format to ISO format. This filter changes h.264 packets format without
performing re-compression of the video stream or the data packets. Converting
with this filter is fast while the quality of the original stream is preserved.
To convert an h.264 stream, inside an AVI, OGG or MPEG2 transport file
to ISO format or vice versa without re-compression, LEAD H264 Transcoder
filter should be inserted between (AVI, OGG or mpeg2) demux
and ISO multiplexer.
LEAD Multimedia toolkit automatically inserts the filter in this manner.
Filter Interface(s) |
N/A |
Interface ID |
N/A |
Input Media Types |
Type: |
Output Media Types |
Type: |
Filter CLSID |
CLSID_LMH264Transcoder |
Filter category |
CLSID_VideoCompressorCategory |
Executable |
LTranscoderH264.dll, DSKernel2.dll |
Win32, x64
To illustrate the advantage of using transcoders, two setups are provided below for comparison. Observe (Figure 1) how the transcoders are positioned between LEAD MPEG Transport Demultiplexer and LEAD ISO Multiplexer. Now observe the next image (Figure 2) and how in between the same LEAD MPEG2 Transport Demultiplexer and LEAD ISO Multiplexer there is a need to use encoders and decoders. As a result of using decoding-encoding filters, the processing of data is slower than the speeds attained with data re-packetizing - a key feature of transcoders.
Figure 1. Re-packetizing of data using transcoders.
Figure 2. Decoding and encoding of data using filters.