Benchmarking Performance: CPU Encoding Tests

One of the interesting elements on modern processors is encoding performance. This includes encryption/decryption, as well as video transcoding from one video format to another. In the encrypt/decrypt scenario, this remains pertinent to on-the-fly encryption of sensitive data - a process by which more modern devices are leaning to for software security. Video transcoding as a tool to adjust the quality, file size and resolution of a video file has boomed in recent years, such as providing the optimum video for devices before consumption, or for game streamers who are wanting to upload the output from their video camera in real-time. As we move into live 3D video, this task will only get more strenuous, and it turns out that the performance of certain algorithms is a function of the input/output of the content.

7-Zip 

One of the freeware compression tools that offers good scaling performance between processors is 7-Zip. It runs under an open-source licence, is fast, and easy to use tool for power users. We run the benchmark mode via the command line for four loops and take the output score.

Encoding: 7-Zip

WinRAR 5.40

For the 2017 test suite, we move to the latest version of WinRAR in our compression test. WinRAR in some quarters is more user friendly that 7-Zip, hence its inclusion. Rather than use a benchmark mode as we did with 7-Zip, here we take a set of files representative of a generic stack (33 video files in 1.37 GB, 2834 smaller website files in 370 folders in 150 MB) of compressible and incompressible formats. The results shown are the time taken to encode the file. Due to DRAM caching, we run the test 10 times and take the average of the last five runs when the benchmark is in a steady state.

Encoding: WinRAR 5.40

AES Encoding

Algorithms using AES coding have spread far and wide as a ubiquitous tool for encryption. Again, this is another CPU limited test, and modern CPUs have special AES pathways to accelerate their performance. We often see scaling in both frequency and cores with this benchmark. We use the latest version of TrueCrypt and run its benchmark mode over 1GB of in-DRAM data. Results shown are the GB/s average of encryption and decryption.

Encoding: AES

HandBrake H264 and HEVC

As mentioned above, video transcoding (both encode and decode) is a hot topic in performance metrics as more and more content is being created. First consideration is the standard in which the video is encoded, which can be lossless or lossy, trade performance for file-size, trade quality for file-size, or all of the above can increase encoding rates to help accelerate decoding rates. Alongside Google's favorite codec, VP9, there are two others that are taking hold: H264, the older codec, is practically everywhere and is designed to be optimized for 1080p video, and HEVC (or H265) that is aimed to provide the same quality as H264 but at a lower file-size (or better quality for the same size). HEVC is important as 4K is streamed over the air, meaning less bits need to be transferred for the same quality content.

Handbrake is a favored tool for transcoding, and so our test regime takes care of three areas.

Low Quality/Resolution H264: He we transcode a 640x266 H264 rip of a 2 hour film, and change the encoding from Main profile to High profile, using the very-fast preset.

Encoding: Handbrake H264 (LQ)

High Quality/Resolution H264: A similar test, but this time we take a ten-minute double 4K (3840x4320) file running at 60 Hz and transcode from Main to High, using the very-fast preset.

Encoding: Handbrake H264 (HQ)

HEVC Test: Using the same video in HQ, we change the resolution and codec of the original video from 4K60 in H264 into 4Kp30 HEVC. This causes a dramatic reduction in filesize (this is a different test to the Ryzen 7 review).

Encoding: Handbrake HEVC (4K)

Benchmarking Performance: CPU Web Tests Benchmarking Performance: CPU Office Tests
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  • Dr. Swag - Tuesday, April 11, 2017 - link

    Is it just me that sees "[table]" in the test bed and setup part? :P
  • Ian Cutress - Tuesday, April 11, 2017 - link

    As always, still writing as the embargo passes :D Always down to the wire, then over the wire, and a hop skip and a jump into a fast typing frenzy of fastidious fire.
  • Dr. Swag - Tuesday, April 11, 2017 - link

    No worries :). I can only imagine how much testing you've been doing ever since the Ryzen 7 launch :D

    You guys are still my favorite review site. Keep up the good work!
  • AndrewJacksonZA - Tuesday, April 11, 2017 - link

    Thanks Doc! I pretty much always prefer your in-depth analysis to other authors on other review sites. I really enjoy the way you do and word things - I put it down to a combination of your academic and pro-OC background. :-)

    Cheers,
    Andrew
  • ianmills - Tuesday, April 11, 2017 - link

    Ian it would be great if there was some easy way to only see only the parts of the review that are updated. Perhaps a diff can be done somehow ;)
  • EasyListening - Tuesday, April 11, 2017 - link

    Hey you rhymed!
  • leexgx - Thursday, April 13, 2017 - link

    EEC compatibility (not support at the moment) you can use ECC ram but the ECC functionality is disabled (don't know when or if AMD will enable it on none workstation CPUs)
  • MajGenRelativity - Tuesday, April 11, 2017 - link

    You mention a Ryzen 1400X in the conclusion, but I only see a 1500X and a 1400 at the beginning of the review. I do see a 1500X in the chart, so maybe you mean that?

    Paragraph just before "On the Benchmark Results"
  • Ian Cutress - Tuesday, April 11, 2017 - link

    I did indeed. :) Updated.
  • MajGenRelativity - Tuesday, April 11, 2017 - link

    I figured as much, unless you had access to a secret CPU I'd never seen before :P

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