I'm looking for an order of magnitude estimate for expected on-disk file size for 1 hour of H.264 encoded HD video transcoded from HDV (HD on a MiniDV tape). I want to archive approximately 100 hours of such content and want to figure out whether I'm looking at a big hard drive, a multi-drive unit like a Drobo, or an enterprise-level storage system.


To clarify from several good comments, I am developing the software that will use this archived video and will also manage the transcoding from HDV to compressed format (using QuickTime on OS X). This question is for gathering hardware requirements. The video is from HDV and the transcoding does not have to happen in real time. I will not be streaming the video, so I'm looking for compression that maintains as much information as possible form the HDV content. The original HDV video is interlaced, but I can deinterlace it if that would help either file size or quality of the H264 compressed output.

closed as off topic by stakx, Mark, MUG4N, john.k.doe, Mario Sannum May 19 '13 at 19:29

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  • Depends completely ont he bit rate. AVCHD, which is h.264, goes up to 24mbps. Find out the bitrate of the compression stream, and you have your answer. – Adam Davis Mar 31 '09 at 16:58

If you know the bitrate, it's simply bitrate (bits per second) multiplied by number of seconds. Given that HDV is 25 Mbit/s and one hour has 3,600 seconds, non-transcoded it would be:

25 Mbit/s * 3,600 s/hr  =  3.125 MB/s * 3,600 s/hr  =  11,250 MB/hr  ≈  11 GB/hr

Google's calculator can confirm

The same applies with H.264 footage, although the above might not be as accurate (being variable bitrate and such).

I want to archive approximately 100 hours of such content and want to figure out whether I'm looking at a big hard drive, a multi-drive unit like a Drobo, or an enterprise-level storage system.

First, do not buy an "enterprise-level" storage system (you almost certainly don't need things like hot-swap drives and the same level of support - given the costs)..

I would suggest buying two big drives: One would be your main drive, another in a USB enclosure, and would be connected daily and mirror the primary system (as a backup).

Drives are incredibly cheap, using the above calculation of ~11 GB/hour, that's only 1.1 TB of data (for 100 hours, uncompressed). and you can buy 2 TB drives now.

Drobo, or a machine with a few drives and software RAID is an option, but a single large drive plus backups would be simpler.

Storage is almost a non-issue now, but encode time can still be an issue. Encoding H.264 is very resource-intensive. On a quad-core ~2.5 GHz Xeon, I think I got around 60 fps encoding standard-def (DVD) to H.264 (compared to around 300 fps with MPEG 4). I suppose that's only about 50 hours, but it's something worth considering. Also, assuming the HDV is on tapes, it's a 1:1 capture time, so that's 150 hours of straight processing, never mind things like changing tapes, entering metadata, and general delays (sleep) and errors ("opps, wrong tape").

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    9000 megabits gives 1125 megabytes. – joelr Mar 31 '09 at 17:52
  • Opps, thanks joelr/Barry – dbr Mar 31 '09 at 18:05
  • thanks, the HDV information is where I should've started. – Barry Wark Mar 31 '09 at 18:06
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    Note: HDV is compressed, but it's compressed in a way that introduces only mild visual artifacts and allows for efficient and accurate seeking. 100h of uncompressed 1080p30 video would require 1920*1080*3channels*30fps*3600s/hr*100hr ~ 61TB. – Mr Fooz Mar 31 '09 at 22:40
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    Not 61TB but 6.1TB! – Roman Podlinov Oct 4 '12 at 20:51

It is whatever size you want it to be, the only thing that changes is quality. If you intend it to be played back on a non-PC device (or a slow PC), you may need to respect a certain profile (standardized set of compression settings that ensure a fixed device can play back the content).

You can see the main H.264 profiles at Wikipedia

While it is highly subjective (and highly dependent on the content being compressed), it is claimed that H.264 can achieve the same quality as DVD MPEG2 using half the bitrate.


It would be a couple of gigs per hour.

MPEG-4 (of which H.264 is a sub-part) define high quality as around 4Mbps. which would be 1.8GB per hour.

This can vary depending on the type of video and the type of compression used.


I'm a friend of keeping the original files, so that you can still use the archived original ones and do new encodes from these fresh ones when the old transcodes are out of date. eg. migrating them from previously transocded mpeg2-hd to mpeg4-hd (and perhaps from mpeg4-hd to its successor in sometime). but all of these should be done from the original. any compression step will followed by a loss of quality. it will need some time to redo this again, but in my opinion it's worth the effort.

so, if you want to keep the originals, you can use the running time in seconds of you tapes times the maximum datarate of hdv (constants 27mbit/s I think) to get your needed storage capacity


It really depends on many settings, on both the audio and video side of things. If you follow the compression-settings of this video, then it's approximately 3GB per hour. If you have a Mac, I would definitely recommend using 'Compressor' as it is fairly easy to use and works flawless.

As far as storage is concerned, if you're looking at 100hrs / 300GB, I would definitely go with an external hard drive. Video files are so huge, that they (even if they don't totally fill up your hard disk) really do confuse your computer. Make sure to make some time for compressing the whole thing because it takes hours and hours and hours.... for 100 hrs worth of footage, it'll take days.


Around 4gb/hr is quite common.


For a good quality x264 encoding of 1060i, done by a computer, not a mobile device, not in real time, you could use a bitrate at about 5 MBps. That means 2250 MB/hour of encoded material. Recommend you deinterlace the footage and compress as progressive.

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    If the footage is deinterlaced, would the filesize decrease or is deinterlacing just for quality of the image? – Barry Wark Mar 31 '09 at 17:48
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    Depends on the framerate. If the framerate is the same, interlaced footage displays half the info that progressive footage does. Interlacing works by refreshing odd and even lines alternatively, that's why most interlaced cameras that produce good quality have twice the fps of progressive ones. – evilpenguin Mar 31 '09 at 21:35
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    But interlacing is a result of the way old TV CRTs display information. On a computer display, be it LCD, plasma or modern CRT, interlaced footage looks really jagged and bad. Most media players like VLC deinterlace automatically at playback if they detect interlaced footage. – evilpenguin Mar 31 '09 at 21:39
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    Bottom line: If you want your videos not to look bad, deinterlace. If they take up to much space, change the quality, change the resolution (720p is sufficient, it well compressed), but stick to progressive footage no matter what. Interlaced footage is not worth it and is really just a relic. – evilpenguin Mar 31 '09 at 21:41
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    And another thing: most codecs behave better with progressive footage, because they evaluate shapes and how they change over time. These evaluations are made by comparing neighboring pixels in matrixes. Interlaced footage really screws the whole algorithm. – evilpenguin Mar 31 '09 at 21:48

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