It will vary dramatically depending on the content of the source videos. I'll get to that in a bit.
640x360 is not that large. 512kpbs is very reasonable and arguably standard. Maybe 768kpbs if you are really interested in quality.
How is this possible? A simplified answer: There are a couple of techniques and facts about video compression that make this possible:
- Not every video frame data structure in an common h.264 (or other CODECs for that matter) is a full image. Instead there are two types which are colloquially refereed to as
- Key Frames: a full redering of the entire video image
- Intra-frames: a description of changes to the previous frame. These frames generally make up the vast majority (80%-99%) of frames in a video.
- h.264 are "lossy", as are many other CODECs. They do not reproduce a pixel-by-pixel, frame-by-frame exact duplicate of the original source video. Example: Lossy blocks: If all but one pixel is the same color, the CODEC 'losses' the one pixel. So, instead of having to store information about ever single pixel in a fram, the CODEC just says "x1, y1 to x2, y2 are all color x". Very efficient.
It is all wildly more complex than that, with zillions of different approaches, techniques and algorithms within specific CODECs and between CODECs to make this happen.
So, back to the "It will vary dramatically depending on the content of the source videos" comment: The compression ratio you'll see, and the resulting quality, will depend significantly upon:
- the contents of the video
- your tolerance for artifacts (blocks, loss of color, loss of definition)
- the CODEC parameters you set, and how you set them
Example: A video of a door in a room (like a security camera) with one key frame every ten minutes is going to have an amazingly high compression ration. My back-of-the-napkin calculations put that scenario at 15,000:1 compression.
Since you are starting on a large video encoding project, I would recommend a couple of things to determine what your compression ration is going to be:
- take a sample of the source videos you are going to encoder. 100 or more being statistically relevant.
- encode them at various bit rates, with various parameters, to determine what resulting characteristics meets your needs
Changing the parameters of the encoder to make the videos smaller can have other impacts too:
- higher play back CPU requirements
- player CODEC expectations. Not all h264 encoded videos can be played by back by all players
- longer encoding times
- various degrading of quality
It's a big complicated subject. Good luck. My experienced "thumb-to-the-wind" test says you'll be more very happy with 512-768kbps for you project.