Online HEVC converter
Choose file to convert
With our free online converter, converting your videos to hevc format is easy and hassle-free. The resulting hevc file will be almost the same size as your input file. Simply upload your video and click the convert button to get started.
How to convert a hevc file?
Step 1
Upload file
You can select the file you want to convert from your computer, Google Drive, Dropbox or simply drag and drop it onto the page.
Step 2
Select «to hevc»
Choose hevc or any of the other 200+ supported formats you'd like to convert to.
Step 3
Download your hevc file
Please wait for the conversion to complete, then click on the download button to obtain your converted file in the hevc format.
Best hevc converter tool
Simply drag and drop your hevc files onto the webpage, and you'll be able to convert them to over 250 different file formats, all without having to register, provide an email address, or include a watermark.
As soon as you upload your hevc files, we instantly delete them. Converted files are then deleted after 24 hours. Furthermore, we ensure that all file transfers are secure through advanced SSL encryption.
You don't have to go through the hassle of installing any software. We handle all hevc conversions in the cloud, which means that none of your computer's resources will be used in the process.
hevc
Extension | .hevc |
Category | 🔵 video |
Description | 🔵 HEVC is a modern and improved codec, also known as h.265. This format has the lowest bit rate while maintaining the quality of the image. There are three main features that set this codec apart from others: larger maximum block size, random access to images within the video stream, and parallel decoding. Similar to AVC or h.265, HEVC provides the same level of video quality, but with better compression quality. When compressing a video file with this codec, the size is reduced by half. |
Technical details | 🔵 H.264 algorithm breaks an image down into pixel squares or macroblocks. Meanwhile, HEVC algorithm breaks images down into Coding Tree Units (CTUs), with a maximum size of 64x64 pixels. In the case of h.264, each macroblock can only be predicted as either intraframe or interframe. During interframe compression, pixels are borrowed from adjacent frames, while intraframe compression borrows pixels within the same frame. HEVC utilizes a combination of interframe and intraframe compression processes within CTUs. Various methods are used to preserve details in complex images.Important note: Translate the text as if it was written by a native English speaker, taking into consideration all linguistic and stylistic features in the final text. |