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QNAP TS-233 Plex Media Server NAS 4K & 1080p Tests – H.264 & HEVC

8 octobre 2022 à 18:00

How Well Does the QNAP TS-233 NAS Perform as a Plex Media Server?

Deciding on buying a NAS for use as your own private Plex Media Server is NOT an easy choice for many users. Although the building blocks of NAS servers are comparable to domestic PCs and Laptops, NAS systems are alot of focused/specific in their utility and for many, the price tag that many of these systems arrive with (despite having CPU+Memory combos that seem rather low-end) can be quite a barrier. Alot o NAS brands are aware of this and alongside more power/expensive systems, also have an area of their portfolio that includes a great many more affordable/value solutions for smaller scale buyers. QNAP is no exception to this and every couple of years will release a new generation affordable/value-series NAS solution that is designed to provide NAS to those of a more limited budget or task requirements. That is where the QNAP TS-233 comes in, a new ARM-powered NAS released in 2022 that promises to run the bulk of home user NAS applications without hurting your wallet too much. However, the modest specifications of these more affordable NAS drives tend to restrict Plex Media server use and many are concerned that the TS-233 NAS might not have the horsepower to get the job done. So, today I want to test the QNAP TS-233 NAS as a plex media server with 1080 and 4K media. But before we start, what is Plex? And How has it become so popular? The appeal of accessing all the movies, boxsets, music and home movies that you physically/digitally own in the style popularized by Netflix, Disney+ and Prime Video (flashy GUI, summary, all the box art, trailers, cast details, reviews and more) is undeniable. The rise in popularity of streaming platforms like Netflix has also been accompanied by rising monthly subscription costs and rising concerns about never truly owning the media that you want o watch. Even when you buy movies and TV boxsets in digital download forms from Amazon Video etc, you are still at the mercy of 1) needing somewhere to store it if you do choose to download it and 2) potentially losing access to it if the site/platform you purchased from has lost the license to host it (a common complain of the increasingly digital world of PC/Console gaming, as games are pulled from eStores). Hosting your media in a subscription-free form, whilst it still being presented in the universally accessible and premium GUI form of Plex is one of the most compelling reasons for many home/prosumer users deciding to make the jump towards buying their own plex media server. However, NAS drives have grown incredibly diverse in terms of hardware design and therefore one NAS might not play media in plex as well/efficiently as another – and the QNAP TS-233 NAS is no exception to this. Today I want to detail my tests of the TS-233 as a Plex Media Server and I hope this will help you decide whether a QNAP NAS deserves your Multimedia in 2022/2023.

What is the Hardware of the QNAP TS-233 NAS Drive?

The QNAP TS-233 NAS drive is quite similar in architecture to most PCs or Laptops (in that it features a CPU+Memory+Storage), but differs in that it’s components are designed to be more efficient (as they will be in operation 24×7) and have a larger degree of focus on storage-related applications (where as the hardware in a PC/Laptop is designed more for the applications you run with storage service concerns/provisions being far more rudimentary). The TS-233 is made up of a popular mid-range server CPU, DDR4 memory and supports Hard Drive and SSDs in SATA. although most of the specifications of QNAP NAS drives are unrelated to Plex, below I have picked up the hardware specifications of the TS-233 that are relevant to Plex:

  • CPU: Realtek ARM 64bit, Quad Core 1.4Ghz
  • Embedded Graphics: No
  • Memory (Quantity & Maximum): 2GB (Cannot be upgraded)
  • Number of Storage Bays: 2x SATA Bays
  • M.2 NVMe Caching Bays: No
  • Network Connectivity: 1x 1GbE

Next, let’s quickly touch on how we measure how good/bad the QNAP TS-233 NAS is for Plex Media Server.

Understanding the Plex Media Server Tests of the QNAP TS-233 NAS

Important Terms to Understand in Plex/NAS/Multimedia that will make the TS-233 NAS Plex Tests Easier to Understand.

  • SD, 160p, 240p, 480p, 720p, 1080p, 4K : This is the resolution that the media is being displayed at. The higher the resolution, the larger number of pixels that are available and depending on the original recording quality of the media in question. High resolutions, such as 1080p and 4K require more work to be done by the NAS hardware in order to playback the file. More often than not, a NAS with weak embedded graphics or no embedded graphics at all will be unable to play 4K very well or indeed at all. It is important to remember that just because a NAS brand like QNAP says that their latest NAS can natively play back 1080p or 4K media (natively = played using their own NAS software, software client tools and/or DLNA), that does not mean that the TS-233 will play to the same standard in Plex, as Plex is a 3rd party tool
  • Transcoding, Encoding, Decoding : These are all different techniques/names for when a file needs to be changed in order to be better suited to the connected client device connection, strength or hardware. If you are accessing all your media on the local area network (i.e only accessing your plex media at home), then transcoding will rarely be something you will use (unless your media is largely H.265/HEVC based, see earlier). However, perhaps you are accessing your plex library on the train to work or from a sun bed whilst on holiday. Perhaps you have a smaller data bandwidth/allowed MB/GB, maybe a weaker internet connection, perhaps you are using a smaller phone device and you might not need to watch your 4K 50GB Blu-ray rip of the latest Marvel Movie – in these situations, you might well want to access the media on your QNAP TS-233 Plex NAS at a lesser quality than the original version, so transcoding/re-encoding on the fly (as in, at the same time it is being played) is what you would want to do. Remember, transcoding is by far the most heavy-weight thing you will need to do on a NAS. It is also worth remembering that in order for Plex o be able to use the FULL resources of a NAS CPU (such as embedded graphics) that you will need to enable ‘Make My CPU Hurt’ in the Encoder Menu of the Plex NAS Settings menu – this also potentially requires a Plex Pass subscription, depending on the NAS in question

  • H.264, HEVC, H.265 :  These are compression techniques that are designed to allow large-scale media presentations that were made for a cinema to be viewable from your sofa (with H.265 being the more effective/powerful compression level). H.264 can largely be played by ALL devices, but many devices do not have permission or a license to play H.265/HEVC (they are the same thing). This is because, where H.264 is an easy license and comparatively free to use, H.265/HEVC licencing and patents are spread across multiple providers and allowing a device license to use this compression technique can be complex, expensive or simply impossible. Therefore HEVC/H.265 media will sometimes AUTOMATICALLY need to be converted/transcoded into H.264 etc in order to be played – therefore eating up more system resources. The TS-233, much like the rest of thte QNAP NAS range do not arrive with HEVC support by default
  • Bitrate : Bitrate is the amount of data encoded for a unit of time, and for streaming is usually referenced in megabits per second (Mbps) for video, and in kilobits per second (kbps) for audio. Higher quality and higher resolution media tends to be of a much higher bitrate

For more information on the most important terms to understand when discussing/researching a NAS as a Plex Media Server can be found in my video below:

Any further questions, you can use the free advice section at the bottom of the page and ask me and Eddie directly.

How was the QNAP TS-233 NAS Tested in Plex?

The setup for testing the TS-233 NAS for Plex was as follows:

  • The QNAP TS-233 NAS was accessed over a 1GbE network, however in order to test how the NAS would cope with transcoding/encoding, I would force the Plex Player client to transcode the file manually
  • The TS-233 NAS was used in the default CPU+Memory state that the base model arrives in (no upgraded memory or upgraded caching media)
  • Tests were performed one after the other with a short break between each test, so you might see the tail end of the previous test on a CPU graph, but I have pointed at the are of the % utilization that is important as per each test.

Regarding test results, CLEAR PASS means that the file successfully played and there were sufficient resources for the NAS to continue to do other things comfortably, PLAYED BUT HIGH CPU % means that the file played, but it utilized a significant amount of system resources in order to do so in a heavier use situation (i.e other NAS users connected) it might not play and FAIL AND-OR DID NOT PLAY means that the file either did not play or the time taken to play back the files was outpaced by the natural playback of the file – i.e. the file would stop-and-start constantly in order to try and catch up. If you want to watch the FULL video recording of all the Plex tests that I performed on the QNAP TS-233 NAS, you can watch the video below. Be warned, it is quite long! Alternatively, you can scroll past and see each of the test results, one-by-one, detailing which ones worked and which ones didn’t:

What % System Resources did the QNAP TS-233 NAS Use in Plex when Idle?

Running the Plex Media Server application, even when no multimedia is being played on the TS-233 is still going to require a % of system resources to be occupied, in order to ensure that PLEX can play media from the QNAP NAS as soon as it is requested remotely. Additionally, although Plex runs at its best with at least 2 Cores of CPU power and 2GB of Memory, many NAS also reserve areas of CPU/RAM for the system itself. So, therefore, knowing how much system resources are being consumed by the QNAP TS-233  NAS when Plex is idle is going to be useful to know how much system power is available when playback actually starts. Here is a screenshot of the TS-233 when Plex is running, but no media is being played/accessed:

Plex Test 1 – QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Original Playback File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 2 – QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Transcode to 480p 1.5Mbps

Here is how the QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Transcode to 480p 1.5Mbps File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 3 – QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Transcode to 160p 0.2Mbps

Here is how the QNAP TS-233 Plex NAS – Matrix 720p 0.7Mbps h.264 Transcode to 160p 0.2Mbps File Performed:

RESULT: PLAYED BUT HIGH CPU %

Extra Notes: None


 

Plex Test 4 – QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Original Playback File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 5 – QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Transcode to 480p 1.5Mbps

Here is how the QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Transcode to 480p 1.5Mbps File Performed:

RESULT: PLAYED BUT HIGH CPU %

Extra Notes: None


 

Plex Test 6 – QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Transcode to 160p 0.2Mbps

Here is how the QNAP TS-233 Plex NAS – LSOH 1080p 1.9Mbps h.264 Transcode to 160p 0.2Mbps File Performed:

RESULT: PLAYED BUT HIGH CPU %

Extra Notes: None


 

Plex Test 7 – QNAP TS-233 Plex NAS – Jellyfish 1080p 3Mbps H.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – Jellyfish 1080p 3Mbps H.264 Original Playback File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 8 – QNAP TS-233 Plex NAS – Jellyfish 1080p 10Mbps H.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – Jellyfish 1080p 10Mbps H.264 Original Playback File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 9 – QNAP TS-233 Plex NAS – Jellyfish 1080p 10Mbps H.265 – HEVC CONVERTED TO H.264

Here is how the QNAP TS-233 Plex NAS – Jellyfish 1080p 10Mbps H.265 – HEVC CONVERTED TO H.264 File Performed:

RESULT: PLAYED BUT HIGH CPU %

Extra Notes: None


 

Plex Test 10 – QNAP TS-233 Plex NAS – Jellyfish 1080p 30Mbps H.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – Jellyfish 1080p 30Mbps H.264 Original Playback File Performed:

RESULT: FAIL AND-OR DID NOT PLAY

Extra Notes: None


 

Plex Test 11 – QNAP TS-233 Plex NAS – Jellyfish 1080p 100Mbps H.264 Original Playback

Here is how the QNAP TS-233 Plex NAS – Jellyfish 1080p 100Mbps H.264 Original Playback File Performed:

RESULT: CLEAR PASS

Extra Notes: None


 

Plex Test 12 – QNAP TS-233 Plex NAS – Jellyfish 4K 120Mbps H.264 Original Playback – FAILED

Here is how the QNAP TS-233 Plex NAS – Jellyfish 4K 120Mbps H.264 Original Playback – FAILED File Performed:

RESULT: FAIL AND-OR DID NOT PLAY

Extra Notes: Realistically, I had zero expectations that the TS-233 would play a 4K file in plex. So this file not playing was not a huge surprise.


 

Is the QNAP TS-233 NAS Any Good outside of Plex and Where Can I buy It?

If you are interested in learning more about the QNAP TS-233 NAS Drive, I am pleased to confirm that the review here on NASCompares is already live and you can find out more about this device below.

Quick Verdict of the QNAP TS-233 NAS – What We Said in the TS-233 Review:

Overall – I would say that the QNAP TS-233 NAS Drive IS good value, although maybe not as good a value as we have seen in previous releases from the brand. On the plus side, this is by far the most modern CPU that we have seen from a NAS brand in the ‘value’ tier. After a few years of fatigue from everyone using the Realtek RTD1966, this newer and more powerful/capable Cortex A55 is a breath of fresh air and allows a larger range of QNAP services and simultaneous services to be used at once. Equally, QTS 5 seems to have taken a lot of the criticism that people have had towards QNAP in 2021, its ‘default heavy’ security, over-flexibility in its design that gave some users too much rope to hang themselves and presets – then tightened many of them up, changed how users are informed of issues, bolstered the default security tools and increased its recommendations on backup tiers. QTS still has a steeper learning curve than other NAS brands, but now thing seems a lot tighter on day 1 and changing some options that users might use carelessly has been a big part of that. The 2GB of DDR4 memory in the system is a welcome day 1 inclusion too, when many affordable systems from competitors have 512GB or 1GB (which in 2022 is rather mind-boggling), however, the lack of scalability in that memory to go higher, the default 1GbE and those USB 2.0 ports are a touch surprising from a brand that generally tends to push the envelope in the hardware department more than many others. Overall, a solid release, if a little tame and safe at times. If you are looking at entering the QNAP NAS ecosystem and are on a tight budget, the TS-233 is a solid release and excellent value.

Read the Rest of the Review HERE. Alternatively, you can find out the Pros and Cons below, as a few retailers that sell the QNAP TS-233 NAS. Thanks for reading and if you need any further help choosing the right NAS for your Plex Media Server, use the free advice section linked below. Have a great week.

SOFTWARE - 8/10
HARDWARE - 7/10
PERFORMANCE - 8/10
PRICE - 9/10
VALUE - 9/10


8.2
PROS
👍🏻Good value hardware and software at this pricepoint
👍🏻2GB of DDR4 Memory at the affordable tier is very welcome
👍🏻
👍🏻Runs the latest version of QTS 5
👍🏻
👍🏻First Value Tier NAS in the market to use the Cortex A55 Processor
👍🏻
👍🏻Quad-Core Processor is a nice bonus
👍🏻
👍🏻Inclusive AI-powered component built into the hardware
👍🏻
👍🏻USB 3.2 Gen 1 Port and Copy Button always good at the value tier
👍🏻
👍🏻Support for NAS-to-NAS/USB/Cloud backups and also supported Hybrid Storage and mounting
CONS
👎🏻1GbE in 2022 event at the value tier is underwhelming
👎🏻2x USB 2.0 Ports is equally underwhelming


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How to Test Your Plex Media Server NAS – 4K, 1080p, HDR, HEVC and UHD Files to Download

26 août 2022 à 01:06

Recommended Files to Test Your Plex Media Server NAS

If you are considering buying/building your own Plex Media server (or even want to test the capabilities of your existing Plex server), then you may have discovered that it is actually a lot harder to bench-test your multimedia system than it should be. Notwithstanding the fact that very, VERY few people are running the exact same server setup (even two people buying the same NAS drive might have different HDDs, SSDs, memory, caching, directories, network traffic and more), but then you need to factor in that the depth, frequency and volume of everyone’s media collection will differ wildly. One user might have a simple Nvidia Shield + external USB drive setup and mostly 1080P, another running a Synology DS920+ NAS and a tonne of 4K, meanwhile, user number 3 is a highly audio-focused user that wants to use pristine, flawless raw audio to their smart home speakers from their Plex library – These are just three setups and each is INCREDIBLY different in it’s hardware requirements! So, when you are in the market for a new server for your Plex system, or simply want to check your current setup does the job), it is recommended to run a benchmark by playing some ranged media that will stress test different areas of multimedia playback on your Plex server. I have been running Plex Media Server tests on NAS drives for a  number of years (a FULL PLEX TEST PLAYLIST can be found HERE on the NASCompares YouTube) and although I include fairly standard multimedia testing using familiar movies and TV shows, I have also used a tremendously thorough range of files known as the ‘JellyFish Files‘. This is an incredible range of files that cover everything from a 2MB sized 480p, low bitrate, H.264, all the way upto an insanely high end 1.4 GIGABYTE 400Mbps 4K UHD HEVC HDR file – ALL of which are the same 30 second media file. These files can be added to your Plex Media Server and playing them, whilst monitoring your system’s hardware and resource utilization will help you understand the limitations of your system and what the system can/cannot play natively, as well as what impact files that need on-the-fly conversion (known predominantly as ‘transcoding’ and we will cover that later). The original source website and author location of the JellyFish files has become vague over the years (with the original repository that I originally found them and credit, being a dead website now in 2022), however, I am often asked if I still have access to the Jellyfish archive and if I can share them. The answer to that first question is YES, but the 2nd question takes a little longer to answer. I tried to backlink/direct users to the repository for a long time, as well as locate the original author (feeling that it is not my work to feely distribute) but hit something of a wall and after my bazillion’th requests, I have decided to create a shared drive for ALL these files. Below are the links to the FULL range of JellyFish files for testing your Plex NAS, but before you proceed, there are a few things you need t keep in mind before you proceed:

Understanding the Jellyfish Files and the File Formats, Quality and Density on a Plex NAS Benchmark Test

Before you start testing your Plex Media Sever and its multimedia capabilities, it is worth taking a moment to understand the terminology and variations of media files. You could have two copies of ‘Marvel’s Avengers Endgame’, both in 4K, but due to variations in their bitrate, their compression technique and their file format/codec and one will play much, MUCH better than another on your system. Although there are many kinds of ways you can clarify your multimedia files, the FOUR most important variables/standards to check are Bitrate, Resolution, Codec and Video Compression Standard. Take a moment to learn about what these are and their impact using the glossary below:

  • Bitrate – Bitrate is the number of bits per second. The symbol is bit/s. It generally determines the size and quality of video and audio files: the higher the bitrate, the better the quality, and the larger the file size because of File size = bitrate (kilobits per second) x duration. In most cases, 1 byte per second (1 B/s) corresponds to 8 bit/s. Video bitrate affects video quality in several ways. First, it is the key measure of any video file size. Secondly, high video bitrate results in high video quality and low bitrates result in poor video quality. However, using an extremely high bitrate is just a waste of bandwidth. In general, a higher bitrate will accommodate higher image quality in the video output, only when comparing the same video with the same resolution. Bitrates should be expected to go up whenever the resolution goes up, as more data is being processed. Therefore, high video bitrate may provide excellent quality, but it can also place a major strain on your hardware which can result in stutters.
  • Resolution – Video resolution determines the amount of detail in your video or how realistic and clear the video appears. It’s measured by the number of pixels contained in the standard aspect ratio of 16:9, the most common aspect ratio for television and computer monitors. A higher number of pixels indicates a higher resolution and a lower number of pixels makes for a low-resolution video. For the common resolutions of 720 and 1080, the naming convention is based on the total number of pixels running in a vertical line down the display area. For 2K, 4K or 8K video, the resolution is named for the number of pixels running in a horizontal line across the frame. Previously, the resolution has been divided between standard definition (SD video) and high definition (HD video). Anything below 720 is considered standard definition. However, as screen resolutions on computer monitors and televisions continue to improve, it’s less likely for anything to be shot in SD.
  • The difference between video resolution and frame rate – Digital videos are made up of thousands of still images played in sequence. While resolution refers to the amount of data in the frame, frame rate refers to how quickly those frames are cycled through, or how many stills are packed into each second. As with video resolution, choose your video’s frame rate based on the type of motion you’re trying to capture and the type of video formats you expect to release to your audience.
  • Codec – Codecs are the oxygen of the streaming media market; no codecs, no streaming media. From shooting video to editing to encoding our streaming media files for delivery, codecs are involved every step of the way. Many video producers also touch the DVD-ROM and Blu-ray markets, as well as broadcast, and codecs play a role there as well. Codecs are compression technologies and have two components, an encoder to compress the files, and a decoder to decompress. There are codecs for data (PKZIP), still images (JPEG, GIF, PNG), audio (MP3, AAC) and video (Cinepak, MPEG-2, H.264, VP8). It’s important to distinguish codecs from container formats, though sometimes they share the same name. Briefly, container formats, or wrappers, are file formats that can contain specific types of data, including audio, video, closed captioning text, and associated metadata. Though there are some general-purpose container formats, like QuickTime, most container formats target one aspect of the production and distribution pipeline, like MXF for file-based capture on a camcorder, and FLV and WebM for streaming Flash and WebM content.
  • HEVC, H.264 and H.265 – H.264 (AVC) and H.265 (HEVC) are both standards for video compression used in recording and distributing digital video. Why would you choose one over the other? The main difference between H.264 and H.265 is how each processes information and the resulting video file size and bandwidth consumption used with each standard. H.264 processes frames of video using macroblocks, while H.265 processes information using coding tree units (CTUs). CTUs process information more efficiently, which results in a smaller file size and less bandwidth used for your streaming video. H.264 (also called AVC, or Advanced Video Coding) is an industry-standard for video compression that allows for the recording, compression, and distribution of digital video content. H.265 is newer and more advanced than H.264 in several ways. H.265 (also called HEVC, or High-Efficiency Video Coding) allows for further reduced file size, and therefore reduced required bandwidth, of your live video streams.

There are several other terms that are more appropriate to Plex that it might be worth getting school’d up on, but these are optional and you can learn about them below in my video on Plex NAS servers for Dummies:

Where to Download the Files to Test Your Plex Media Server NAS

As mentioned, the Jellyfish files comprise a wide range of files that, although all the same 30 secs of jellyfish playing around in the sea, comprise around 56 files of varying degrees of quality and size. You can use the links below to head over to google drive for each specific file (each link opens in a new tab). Then you can use the download option at the top right corner to  download the file to your local machine:

For those looking to bulk-download, I am afraid that due to reasons of bandwidth hogging (when I shared these files with people in the past) and the sheer weight of these files, I have opted to keep these on a Google Drive shared drive. You should be able to add these files and bulk download them from inside your own Google Drive account, or you can message me directly for the full download link by contacting me directly using the contact section at the bottom of the page. Otherwise, here is the full range of Jellyfish files to download and test your Plex Media server NAS server or DIY/ByO system:

Filename
(Click to Download)
Bitrate
(Overall)
Resolution Codec File
Size
jellyfish-3-mbps-hd-h264.mkv Mbps 1920×1080 H.264 11 MB
jellyfish-3-mbps-hd-hevc.mkv Mbps 1920×1080 HEVC 11 MB
jellyfish-3-mbps-hd-hevc-10bit.mkv Mbps 1920×1080 HEVC 11 MB
jellyfish-5-mbps-hd-h264.mkv Mbps 1920×1080 H.264 18 MB
jellyfish-5-mbps-hd-hevc.mkv Mbps 1920×1080 HEVC 18 MB
jellyfish-10-mbps-hd-h264.mkv 10 Mbps 1920×1080 H.264 36 MB
jellyfish-10-mbps-hd-hevc.mkv 10 Mbps 1920×1080 HEVC 36 MB
jellyfish-10-mbps-hd-hevc-10bit.mkv 10 Mbps 1920×1080 HEVC 36 MB
jellyfish-15-mbps-hd-h264.mkv 15 Mbps 1920×1080 H.264 53 MB
jellyfish-15-mbps-hd-hevc.mkv 15 Mbps 1920×1080 HEVC 53 MB
jellyfish-20-mbps-hd-h264.mkv 20 Mbps 1920×1080 H.264 71 MB
jellyfish-20-mbps-hd-hevc.mkv 20 Mbps 1920×1080 HEVC 75 MB
jellyfish-20-mbps-hd-hevc-10bit.mkv 20 Mbps 1920×1080 HEVC 75 MB
jellyfish-25-mbps-hd-h264.mkv 25 Mbps 1920×1080 H.264 89 MB
jellyfish-25-mbps-hd-hevc.mkv 25 Mbps 1920×1080 HEVC 93 MB
jellyfish-30-mbps-hd-h264.mkv 30 Mbps 1920×1080 H.264 106 MB
jellyfish-30-mbps-hd-hevc.mkv 30 Mbps 1920×1080 HEVC 110 MB
jellyfish-35-mbps-hd-h264.mkv 35 Mbps 1920×1080 H.264 126 MB
jellyfish-35-mbps-hd-hevc.mkv 35 Mbps 1920×1080 HEVC 129 MB
jellyfish-40-mbps-hd-h264.mkv 40 Mbps 1920×1080 H.264 142 MB
jellyfish-40-mbps-hd-hevc.mkv 40 Mbps 1920×1080 HEVC 146 MB
jellyfish-40-mbps-hd-hevc-10bit.mkv 40 Mbps 1920×1080 HEVC 146 MB
jellyfish-45-mbps-hd-h264.mkv 45 Mbps 1920×1080 H.264 160 MB
jellyfish-45-mbps-hd-hevc.mkv 45 Mbps 1920×1080 HEVC 166 MB
jellyfish-50-mbps-hd-h264.mkv 50 Mbps 1920×1080 H.264 180 MB
jellyfish-50-mbps-hd-hevc.mkv 50 Mbps 1920×1080 HEVC 182 MB
jellyfish-55-mbps-hd-h264.mkv 55 Mbps 1920×1080 H.264 208 MB
jellyfish-55-mbps-hd-hevc.mkv 55 Mbps 1920×1080 HEVC 199 MB
jellyfish-60-mbps-hd-h264.mkv 60 Mbps 1920×1080 H.264 213 MB
jellyfish-60-mbps-hd-hevc.mkv 60 Mbps 1920×1080 HEVC 220 MB
jellyfish-60-mbps-hd-hevc-10bit.mkv 60 Mbps 1920×1080 HEVC 218 MB
jellyfish-70-mbps-hd-h264.mkv 70 Mbps 1920×1080 H.264 251 MB
jellyfish-70-mbps-hd-hevc.mkv 70 Mbps 1920×1080 HEVC 256 MB
jellyfish-80-mbps-hd-h264.mkv 80 Mbps 1920×1080 H.264 286 MB
jellyfish-80-mbps-hd-hevc.mkv 80 Mbps 1920×1080 HEVC 290 MB
jellyfish-90-mbps-hd-h264.mkv 90 Mbps 1920×1080 H.264 322 MB
jellyfish-90-mbps-hd-hevc.mkv 90 Mbps 1920×1080 HEVC 329 MB
jellyfish-90-mbps-hd-hevc-10bit.mkv 90 Mbps 1920×1080 HEVC 330 MB
jellyfish-100-mbps-hd-h264.mkv 100 Mbps 1920×1080 H.264 358 MB
jellyfish-100-mbps-hd-hevc.mkv 100 Mbps 1920×1080 HEVC 365 MB
jellyfish-110-mbps-hd-h264.mkv 110 Mbps 1920×1080 H.264 394 MB
jellyfish-110-mbps-hd-hevc.mkv 110 Mbps 1920×1080 HEVC 401 MB
jellyfish-120-mbps-4k-uhd-h264.mkv 120 Mbps 3840×2160 H.264 431 MB
jellyfish-120-mbps-4k-uhd-hevc-10bit.mkv 120 Mbps 3840×2160 HEVC 438 MB
jellyfish-140-mbps-4k-uhd-h264.mkv 140 Mbps 3840×2160 H.264 502 MB
jellyfish-140-mbps-4k-uhd-hevc-10bit.mkv  140 Mbps 3840×2160 HEVC 525 MB
jellyfish-160-mbps-4k-uhd-h264.mkv 160 Mbps 3840×2160 H.264 573 MB
jellyfish-160-mbps-4k-uhd-hevc-10bit.mkv 160 Mbps 3840×2160 HEVC 586 MB
jellyfish-180-mbps-4k-uhd-h264.mkv 180 Mbps 3840×2160 H.264 647 MB
jellyfish-180-mbps-4k-uhd-hevc-10bit.mkv 180 Mbps 3840×2160 HEVC 658 MB
jellyfish-200-mbps-4k-uhd-h264.mkv 200 Mbps 3840×2160 H.264 718 MB
jellyfish-200-mbps-4k-uhd-hevc-10bit.mkv 200 Mbps 3840×2160 HEVC 731 MB
jellyfish-250-mbps-4k-uhd-h264.mkv 250 Mbps 3840×2160 H.264 897 MB
jellyfish-250-mbps-4k-uhd-hevc-10bit.mkv 250 Mbps 3840×2160 HEVC 914 MB
jellyfish-300-mbps-4k-uhd-hevc-10bit.mkv 300 Mbps 3840×2160 HEVC 1.0 GB
jellyfish-400-mbps-4k-uhd-hevc-10bit.mkv 400 Mbps 3840×2160 HEVC 1.4 GB

There you have it, those are the Jellyfish files for testing your Plex server. If you are still on the fence about the best plex media server NAS drive you should consider buying, you can use my article below that highlights the drives I would personally recommend and why:

(Click Below to view this article)

 

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