This video and test are to see how Edius 8.2 compares to 8.3 with regard H.264 MP4 encoding/exporting. Specifically, how each version handles encode speeds after the latest automatic install of the Windows 10 drivers for Intel Quick Sync, as of 30/11/16The test is first done on an Intel i7 based machine (4790K) with Edius 8.2, then the same machine again with Edius 8.3 and finally the same test on a laptop with an Intel Celeron N3050 CPU (HP Stream 11) running Edius 8.3The main test parameters are: A project with a one minute 1080P 25FPS timeline with a 1080P 25FPS HQX source test file. Exporting using Edius' H.264 encoder set to high, CBR, 20Mbit, super fine, AAC 512Kb.These are the results.i7 4790KLatest Windows 10 Pro auto updates as of 30/11/16 running Edius 8.20.386Software export, 1 minute 40 seconds.Hardware export, 1 minute 40 seconds.Same system again running Edius 8.3Software export, 1 minute 43 seconds.Hardware export, 23 seconds.Celeron N3050 (HP Stream 11 laptop)Latest Windows 10 Home auto updates as of 30/11/16 running Edius 8.30.1233Software export, wayyyyy toooooo long.Hardware export, 1 minute 22 seconds.Conclusion.
Grass Valley make the best NLE in the universe and Edius 8.3 is better than Edius 8.2.
. Be respectful. Targeted harassment or abuse towards anyone will not be tolerated.
No racism, sexism, homophobia or other hate based speech. Calling out users in a negative way is not allowed.
Providing enough information to cause a witch-hunt of a user is not permitted. Unhelpful and/or unconstructive comments may be removed. Respect the rules. Do not encourage users to break any subreddit rules. Follow reddiquette.
Anyone found to be not doing so will be reported to Reddit admins. Follow the Twitch Terms of Service. Imran series by zaheer ahmad. Failure to do so may result in a report filed against your Twitch account. Anyone who submits anything illegal will be instantly banned.
By posting to, you accept these rules and accept that subreddit moderators reserve the right to remove posts at their discretion. Follow thread-specific rules given in distinguished posts or comments by subreddit moderators. No personal ads or unapproved third-party ads. Do not post Twitch channel links with the intention of promoting yourself or someone else.
This includes signing your name at the end of submissions. You should not create posts with the intention of looking for feedback or collaborations.
You should submit these to the designated monthly threads. Twitch experience threads should go in the monthly “Month-in-Review” threads. Promotions of services which the subreddit already offers (e.g. Twitch communities and Discord servers) will be removed.
You should not advertise your services as a post. You should instead submit a comment to the “Twitch Services Megathread”.
Referral links are not allowed in posts or comments. AMAs require express permission from a moderator via modmail.
Third-party advertisements require express permission from a moderator via modmail. Giveaways are prohibited except for those from corporations who have been given express permission via modmail. Submissions about official matters will be removed. Discussions about a Twitch suspension, whether it is your own or somebody else’s, will be removed.
Submissions which are reporting users will be removed. You should instead use the on-site tool. User-specific problems about Twitch Support responses will be removed.
I7 4790k Used
There is nothing we can do to help here, unfortunately. Appeals or complaints about chat bans will be removed. You should discuss this with the owner of the channel and their moderators. Enquiries on submitted Twitch Partnership and Affiliation applications or pending payments will be removed.
No spam. All content should be relevant to Twitch. will be removed.
You should use the search function before posting. Text posts must have a body which elaborates on the title. Link dumps in text posts will be removed. Do not repost the same topics numerous times. Only are allowed to be used in link posts.
Titles of submissions must summarise the contents effectively. Bots may be banned if they are inappropriate for the subreddit. Submissions should be made in English only. Twitch Clips must be appropriate for the subreddit.
I7 4790k Specs
Do not post clips from your own channel. These belong in the Bi-Weekly Clip Contests, which can be found on the sidebar. Clips submitted should be drama-free and non-toxic. A clip should not be posted more than once in a short space of time. You should not continually post clips from the same streamers.Thanks to and Conceptional for the art!Link flair icons made by on, licensed under Creative Commons 3.0.
Clip Contest: AMA. I have an Intel I7 4790-k processor with Quicksync that I read could be used instead of OBS's X264 for streaming.The past articles I read say it's great as far as freeing up your CPU, but the quality is not as good as OBS's X264 on the viewers end while streaming at the lower bitrates. These articles were all written in 2014.When unpartnered, using a lower bitrate 1,800-2,500 is recommended from what I understand.
What is a good bitrate while using Quicksync that will render a good quality picture on the viewers end during stream? Is my CPU good to go when using Quicksync or should I just stick with X264?I am new to this so forgive me if this is a confusing question.
Intel Quick Sync Video is 's brand for its dedicated hardware. Quick Sync was introduced with the CPU microarchitecture on 9 January 2011, and has been found on the of Intel products ever since.The name 'Quick Sync' refers to the use case of quickly ('converting') a video from, for example, a or to a format appropriate to, for example, a. This becomes critically important in the professional video workplace, in which source material may have been shot in any number of video formats, all of which must be brought into a common format (commonly ) for inter-cutting.Unlike video encoding on a CPU or a, Quick Sync is a dedicated hardware on the processor.
This allows for much more power efficient video processing. Contents.Availability Haswell-based Pentium-branded CPUs include Quick Sync Video, while Celeron-branded CPUs do not. Before Haswell, only Core i3/5/7 feature Quick Sync.Performance and quality Quick Sync has been praised for its speed.
The eighth annual MPEG-4 AVC/H.264 video codecs comparison showed that Quick Sync is comparable to superfast preset in terms of speed, compression ratio and quality ; tests were performed on an Intel 3770 processor. A benchmark from showed in 2011 that Quick Sync could convert a 449 MB, four-minute 1080p file to 1024×768 in 22 seconds. The same encoding using only software took 172 seconds but it is not clear what software encoder was used and how it was configured. The same encoding took 83 or 86 seconds -assisted, using an Nvidia GTX 570 and an AMD 6870, respectively, both of which were at that time contemporary high-end GPUs. Quick Sync encoding can produce image quality which varies based on how well the software is written. A 2012 evaluation by showed that QuickSync on Intel's Ivy Bridge produced similar image quality compared to the NVENC encoder on Nvidia's GTX 680 while performing much better at resolutions lower than 1080p.
Development. Main article:Quick Sync was first unveiled at Intel Developer Forum 2010 (September 13) but, according to Tom's Hardware, Quick Sync had been conceptualized five years before that. The older microarchitecture had hardware video decoding support, but no hardware encoding support; it was known as.Version 1 (Sandy Bridge) Quick Sync was initially built into some CPUs, but not into Sandy Bridge Pentiums or Celerons. Version 2 (Ivy Bridge) The microarchitecture included a 'next-generation' implementation of Quick Sync.
Version 3 (Haswell) The microarchitecture implementation is focused on quality, with speed about the same as before (for any given clip length vs. Encoding length). This generation of Quick Sync supports the,. Version 4 (Broadwell) The microarchitecture adds hardware decoding support. Also, it has two independent (BSD) rings to process video commands on GT3 GPUs; this allows one BSD ring to process decoding and the other BSD ring to process encoding at the same time. Version 5 (Skylake) The microarchitecture adds a full fixed-function main/8-bit encoding and decoding acceleration, hybrid and partial HEVC main10/10-bit decoding acceleration, encoding acceleration for resolutions up to 16,000×16,000 pixels, and partial encoding and decoding acceleration.
Version 6 (Kaby Lake, Coffee Lake, Whiskey Lake) The and microarchitecture adds full fixed-function H.265/HEVC Main10/10-bit encoding and decoding acceleration and full fixed-function VP9 8-bit and 10-bit decoding acceleration and 8-bit encoding acceleration. Version 7 (Ice Lake) The adds VP9 4:4:4 decoding, VP9 encoding (up to 10-bit and 4:4:4), HEVC 4:2:2 and 4:4:4 decoding and encoding, HDR10 Tone Mapping and Open Source Media Shaders. Operating system support The Quick Sync Video needs to be supported by the. The device driver provides one or more, for example, (VA API) or for video decoding, and or VA API for video encoding. One of these interfaces is then used by end-user software, for example or, to access the Quick Sync Video hardware and make use of it.Linux Quick Sync support by Intel Media SDK on is available, and as of November 2013 it is supported by (formerly known as Wowza Media Server) for transcoding of media streams using their transcoder add-on.
Quick Sync is also supported by the VA API, for both encoding and decoding with ffmpeg as example. Microsoft Windows Microsoft offers support for Quick Sync in Windows (in Windows Vista and later) based on supporting driver software from Intel and support through both DirectShow/DirectX as well as WMF (Windows Media Foundation).
A wide range of applications are based upon this base support for the technology in Windows.macOS added Quick Sync support in for,. Third party software includes MacX Video Converter Pro, IINA, VLC and others.Hardware decoding and encoding Support for Quick Sync hardware accelerated decoding of H.264, MPEG-2, and VC-1 video is widely available. One common way to gain access to the technology on Microsoft Windows is by use of the free filter. Some other free software like (since version 2.1.0 'Rincewind') support Quick Sync as well.
Many commercial applications also benefit from the technology today, including CyberLink, CyberLink PowerDirector and MacroMotion Bogart 'gold' edition.According to the documentation, Quick Sync has very low CPU utilization while being about twice as fast as.Support for hardware-assisted media encoding tailored for Quick Sync is widely available. Tom's Hardware. Retrieved 2011-08-30. Retrieved 2014-04-05.
(PDF). Retrieved 2019-03-23. ^. Retrieved 2011-09-23.
I7 4790k Quick Sync Kit
MSU Graphics & Media Lab (Video Group). Pp. 135–137 (6.4 Speed/Quality Trade-Off). Tom's Hardware. American association of motor vehicle administrators. Retrieved 2011-08-30. Anand Lal Shimpi; Ryan Smith. Retrieved 26 March 2019. Retrieved 2011-08-30.
March 18, 2014. Retrieved June 10, 2015. Retrieved April 17, 2014. Cutress, Ian. Retrieved 2015-08-06.
Harsh Jain (2016-06-06). Retrieved 2016-07-27. (PDF). Retrieved 2016-07-27. Retrieved March 6, 2019. Plex Support. Retrieved 2018-10-11.
Archived from on 2014-03-14. Archived from on 2014-03-14. Retrieved 2014-11-22. Zak Killian (2017-12-05).
The Tech Report. Retrieved 2017-10-20. Retrieved 2017-10-20. Koen Crijns (2017-10-06). Retrieved 2017-10-20.
^. 25 January 2019.External links., intel.com.