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TMPGEnc: TMPGEnc Plus 2.524 (2.524.63.181) released
Heres the log
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Specification Changes |
Re: TMPGEnc Plus 2.524 (2.524.63.181) December 16 2004
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I hope than old templates can be used with new tmpgenc, else I can see all the newbies rushing here for help :-D Quote:
Tmpgenc was already the best encoder for MPEG1 KVCD. And they improved that ? :-D |
Re: TMPGEnc Plus 2.524 (2.524.63.181) December 16 2004
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What doesn't work is CQMatic :x I'll look into it later this afternoon. -kwag |
Fixed :!:
Grab it here: http://up1.fastuploads.info/CQMatic-1.3.10.exe.zip Couple of changes: 1) Forced X1 (standard. X3 disabled) prediction, until further optimized with new algorithms I'm studying. 2) Bumped version to 1.3.10, reflecting changes that it's now compatible with TMPGEnc Plus 2.524 (2.524.63.181) and should also be compatible with previous 2.5x versions. Let me know of any problems. -kwag |
i used the latest CQmatic and Calcumatic to find the cq... but when it activates Tmpgenc the latest free version.. tmpgenc only shows a sample of 240 frames.
Can someone help? |
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Did you let it run the complete prediction cycle :?: Also, the latest version of CQMatic is 1.4.03. Is that what you tried :?: -kwag |
its activating the tmpgenc screen where it shows scenes of the movie.. and I am using the version you mentioned in the post.. rite now there is 864 frames of movie being sampled.. but the frames it is showing seem to be out of order... if I let if keep going will the resulting mpg be out of order as well?
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Post your log :!:
Double click on the log window, and paste it here. -kwag |
CQMatic Version 1.4.03
http://www.kvcd.net Copyright KVCD.Net, 2004. All rights reserved. Time: 15:20:39 Date: 01/03/2005 Ready! Project: F:\project1.tpr Creating: CQMatic.tpr F:\project1.mpg Project resolution: 352x240 Project: F:\project1.tpr Creating: CQMatic.tpr F:\project1.mpg Project resolution: 352x240 Execute. Movie Time: 90:33 Average Bitrate: 1078.3 Full Encode mode Executing Prediction Phase... Process started at 15:21:42 On 01/03/2005 Preparing for calibration phase... Calibration phase started. Step 1 of 10. Step 2 of 10. Step 3 of 10. Step 4 of 10. Step 5 of 10. Step 6 of 10. Step 7 of 10. Step 8 of 10. Step 9 of 10. Step 10 of 10. Calibration phase complete. CQ set for prediction Setting up sampling. Phase 1 of 7, cycle 1 Encoder started... Process time: 1.78 minutes. Encoder end. File size difference = 2.246575 Low fence: 60.000000 High fence: 90.000000 Last CQ = 60.00 Current CQ = 75.00 CQ difference = 15.000000 Phase 1 of 7, cycle 2 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 1.463656 Low fence: 75.000000 High fence: 90.000000 Last CQ = 75.00 Current CQ = 82.50 CQ difference = 7.500000 Phase 1 of 7, cycle 3 Encoder started... Process time: 1.78 minutes. Encoder end. File size difference = 1.052403 Low fence: 82.500000 High fence: 90.000000 Last CQ = 82.50 Current CQ = 86.82 CQ difference = 4.323242 Phase 1 of 7, cycle 4 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 0.980166 Low fence: 82.500000 High fence: 86.823242 Last CQ = 86.82 Current CQ = 84.66 CQ difference = 2.161621 Phase 1 of 7, cycle 5 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 0.984389 Low fence: 82.500000 High fence: 84.661621 Last CQ = 84.66 Current CQ = 83.34 CQ difference = 1.321655 Phase 1 of 7, cycle 6 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 1.015452 Setting up sampling. Phase 2 of 7, cycle 1 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 1.004293 Setting up sampling. Phase 3 of 7, cycle 1 Encoder started... Process time: 1.82 minutes. Encoder end. File size difference = 1.031497 Low fence: 83.339966 High fence: 90.000000 Last CQ = 83.34 Current CQ = 85.96 CQ difference = 2.624992 Phase 3 of 7, cycle 2 Encoder started... Process time: 1.78 minutes. Encoder end. File size difference = 0.998587 Low fence: 83.339966 High fence: 85.964958 Last CQ = 85.96 Current CQ = 84.65 CQ difference = 1.312492 Phase 3 of 7, cycle 3 Encoder started... Process time: 1.80 minutes. Encoder end. File size difference = 1.001651 Setting up sampling. Phase 4 of 7, cycle 1 Encoder started... Process time: 1.68 minutes. Encoder end. File size difference = 1.037116 Low fence: 84.652466 High fence: 90.000000 Last CQ = 84.65 Current CQ = 87.79 CQ difference = 3.141968 Phase 4 of 7, cycle 2 Encoder started... Process time: 1.65 minutes. Encoder end. File size difference = 1.031497 Low fence: 87.794434 High fence: 90.000000 Last CQ = 87.79 Current CQ = 88.90 CQ difference = 1.102783 Phase 4 of 7, cycle 3 Encoder started... Process time: 1.70 minutes. Encoder end. File size difference = 1.029174 Low fence: 88.897217 High fence: 90.000000 Last CQ = 88.90 Current CQ = 89.45 CQ difference = 0.551392 Setting up sampling. Phase 5 of 7, cycle 1 Encoder started... Process time: 1.70 minutes. Encoder end. File size difference = 0.949218 Low fence: 2.000000 High fence: 89.448608 Last CQ = 89.45 Current CQ = 84.91 CQ difference = 4.542412 Phase 5 of 7, cycle 2 Encoder started... Process time: 1.70 minutes. Encoder end. File size difference = 0.956770 Low fence: 2.000000 High fence: 84.906197 Last CQ = 84.91 Current CQ = 81.24 CQ difference = 3.670494 Phase 5 of 7, cycle 3 Encoder started... Process time: 1.68 minutes. Encoder end. File size difference = 1.084885 Low fence: 81.235703 High fence: 84.906197 Last CQ = 81.24 Current CQ = 83.07 CQ difference = 1.835251 Phase 5 of 7, cycle 4 Encoder started... Process time: 1.72 minutes. Encoder end. File size difference = 0.993809 Low fence: 81.235703 High fence: 83.070953 Last CQ = 83.07 Current CQ = 82.15 CQ difference = 0.917625 Phase 5 of 7, cycle 5 Encoder started... Process time: 1.72 minutes. Encoder end. File size difference = 1.032896 Low fence: 82.153328 High fence: 83.070953 Last CQ = 82.15 Current CQ = 82.61 CQ difference = 0.458809 Setting up sampling. Phase 6 of 7, cycle 1 Encoder started... Process time: 1.78 minutes. Encoder end. File size difference = 1.095811 Low fence: 82.612137 High fence: 90.000000 Last CQ = 82.61 Current CQ = 86.31 CQ difference = 3.693932 Phase 6 of 7, cycle 2 Encoder started... Process time: 1.77 minutes. Encoder end. File size difference = 1.026861 Low fence: 86.306068 High fence: 90.000000 Last CQ = 86.31 Current CQ = 88.62 CQ difference = 2.318306 Phase 6 of 7, cycle 3 Encoder started... Process time: 2.13 minutes. Encoder end. File size difference = 1.022267 Low fence: 88.624374 High fence: 90.000000 Last CQ = 88.62 Current CQ = 89.31 CQ difference = 0.687813 Setting up sampling. Phase 7 of 7, cycle 1 Encoder started... Process time: 2.43 minutes. Encoder end. File size difference = 0.979746 Low fence: 2.000000 High fence: 89.312187 Last CQ = 89.31 Current CQ = 87.50 CQ difference = 1.808960 Phase 7 of 7, cycle 2 Encoder started... Process time: 2.40 minutes. Encoder end. File size difference = 0.982695 Low fence: 2.000000 High fence: 87.503227 Last CQ = 87.50 Current CQ = 85.99 CQ difference = 1.514206 Phase 7 of 7, cycle 3 Encoder started... Process time: 2.38 minutes. Encoder end. File size difference = 0.985238 Low fence: 2.000000 High fence: 85.989021 Last CQ = 85.99 Current CQ = 84.72 CQ difference = 1.269371 Phase 7 of 7, cycle 4 Encoder started... Process time: 2.48 minutes. Encoder end. File size difference = 0.986940 Low fence: 2.000000 High fence: 84.719650 Last CQ = 84.72 Current CQ = 83.61 CQ difference = 1.106415 Phase 7 of 7, cycle 5 Encoder started... Process time: 2.42 minutes. Encoder end. File size difference = 1.004735 Final CQ value is 84.95 Encoding set to Full encode. Full encode start... CQMatic complete! Total minutes of process: 58.12 Process ended at 16:19:49 On 01/03/2005 |
What do you mean by "out of order" ?
Note: I'm warning you, if this is again a stupid question you just ask to spoil people time, I'll have strong discussion in PM about you with Karl. |
Watch out Wowie,
You're watching Tmpgenc's preview window of a sliced video: sometimes it can seem "out of order"... Cheers |
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Preview is always the image of what is encoded. And is always correct if you had tested your script before to start wasting your and others time in using it in CQMatic |
Calm down Phil.
I meant to say that it looks funny when you are looking at the preview of a sliced movie while it is encoding. Just that. And I told Wowie to watch out and not doing the same mistake as in the wmp thread. By no means I meant to say that just because a movie is sliced it looks out of order. "Out of order" could mean a "universe" of problems. Like pink spots all over the movie: it would be out of order too, right? No reason to sweat. I was just backing up your theory. Cheers |
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First thing that popped into my mind :lol:. Cheers |
I'll remove the left over test sample on the next update.
It's really unnecesary to leave it, because it was the last test strip encoded on the last phase and really not encoded at the final CQ that the movie will be encoded. So I'll delete it to avoid any future confusions. -kwag |
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This file is absolutly needed if you do "predicton" only. Else how can we check the quality and decide to keep the result or not ? |
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I'll look into making a small sample after the prediction phases, just prior to the full encode :) Then the sample left will be done at the CQ that the movie will be encoded. Expect CQMatic 1.4.04 that later tonight ;) -kwag |
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The sample file is really helpful when you change to prediction mode only, right? I mean, if you leave cqmatic set for full encode, I don't see any point in having a sample file. That is, unless you left it set for full encode by mistake and you want to stop it when it starts encoding, right? Then I think that it would be cool if you could leave a sample file with the predicted CQ figure, only when cqmatic is set for prediction mode. Otherwise you could do something magnificent :lightbulb: . You could rewrite cqmatic for something different. 1st we would choose the tmpgenc.exe path, and a countdown clock box with 05:00 minutes already set but with the ability to change such value. 2nd we would write the length of the movie and point cqmatic to tmpg's project file. 3rd we'dd have a start button on it, as simple as that. 4th cdqmatic would do the prediction modules and would stop with a big noise coming from the built-in PC speaker. Also there would be an on screen message box stating the predicted CQ figure and it would leave a sample file for us to inspect the quality. 5th cqmatic would still be running with a countdown clock of 5 minutes (or the chosen time from step 1) and with a "start encode" and "cancel encode" buttons that would override the countdown clock. If the clock reaches 0:00 then the full encode would start. At that point the sample is erased. If you don't care for checking the quality and you trust your "feeling" that the achieved CQ is ok, you could override the clock by pressing "start full encode". At that point the sample is erased. If you check the sample quality on your favorite media player and you think it's not good enough you can press the "cancel encode". Maybe you leave the sample for more investigation... How about that? I know, I know: I'm nuts :lol:. But maybe something that I just wrote can give someone else a good idea ;-). BTW, can someone split this thread and put the cqmatic related posts on the cqmatic part of the forum? Cheers guys. |
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I often launch a prediction on my PC before to go to sleep (prediction take one hour on my PC). In the morning, the encoding is at 30% (I need 7h to encode a movie). If I see that the sample is too bad, then I switch off the PC while I go to work, else I let the encoding go till its end. |
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