Benefits of Using a Streaming Dedicated Server

Dedicated servers usually have enough bandwidth to handle streaming of any project. To accommodate a large number of users, a dedicated server may be set up with a high-speed connection to the internet and dedicated traffic to ensure that no one else’s stream is interrupted. Without the expertise to intelligently reroute data, streams will fail or buffer. In the case of VSYS Host, the IPTV servers are monitored by staff 24/7, every day of the year. Every component of the dedicated streaming server is fine-tuned to withstand occasional traffic spikes and large data transfers, guaranteeing virtually uninterrupted service.

All in all, there are several benefits to streaming from a dedicated server. Only a few advantages are:

Cost savings: A dedicated streaming server can be less expensive than using shared hosting or renting a dedicated server from an internet service.

Stream from a server that is not shared with anyone else for added security.

The enhanced performance of a dedicated streaming server comes from its ability to operate independently of other users and the greater traffic it can support.

The capacity of a dedicated server can be expanded beyond that of a shared hosting or leased server.

Hosting & Streaming


If you’re considering streaming video, you might be debating whether it’s best to use a dedicated streaming server or host the video material on your own server. When making your choice, keep the following in mind:

Streaming video hosted on a dedicated server is much faster than hosting on your own. Accessing the video material is simple as it can be watched on the streaming server using any web browser.

Tailoring your audience’s streaming experience is easy with today’s streaming servers. If you need more fine-grained management of your video material, use a streaming server instead of a regular server.

Streaming Video Servers—Why Use One?

If you want to upload videos to a website and have people watch them, you’re going to need a streaming server. If you want to stream video online, whether live or on demand, you need a streaming server.

Streaming servers can be created in-house, purchased from a third party, or accessed through a video hosting platform.

Why does buffering happen?


As mentioned above, streaming servers are constantly sending small data packets at a high rate to keep the stream uninterrupted. Due to this data storage requirement, it takes a few seconds for the media player to start playing.

The player is constantly receiving packets and displaying them on the screen, even while playing previously recorded material. It’s called buffering and stores a few seconds of data for the player when the connection is lost.

If your internet connection is good enough, the live stream should go live for those few seconds. Latency is the time it takes for data to travel from one point to another on the network, and it can cause visual interruptions if your connection is slow or your streaming server is unreliable.

The following are examples of challenges that streaming servers often encounter:

Latency can be caused by the location of the data or the architecture of the network. It can lead to interruptions in streaming services and a poorer overall user experience.

Streaming server performance can be affected by factors such as insufficient network bandwidth, large data transfers, and outdated protocols. Some of these issues include slow load times and incorrect data access.

Difference between streaming server and GPU server


Now we know and understand the characteristics of a streaming server. They’re great for streaming, but newbies and even experienced people sometimes confuse these categories. However, this is partly true, as the two types use the graphics processor unit differently. Also, you can use the GPU server for other purposes, but not for streaming.

The first difference is architecture. We use certain types of GPUs with so-called streaming multiprocessors. They handle video and image formats more efficiently than other types of graphics architectures. This affects load and sometimes performance. Each SM requires at least 32 CUDA cores to properly handle the process. There are varying amounts of this type on modern GPUs. The manufacturer only publishes some of the characteristics. The card may have fewer CUDA bats, more tensor or ray tracing cores, more important in mining or realtime gaming, but not streaming.

Streaming servers support playback of different types of audiovisual content: videos, photos, music, etc. All of these tasks require unlimited bandwidth starting at 2 Gbps. Broadcast applications do not require SQL databases or management solutions. Respected vendors offer additional services such as additional storage options or the latest codec releases. They help to get the most out of your server opportunities and provide your customers with the quality of service they need.

In addition, there may be auxiliary machines that reflect the specifications. These are satellite or terrestrial receivers, cable head station units, etc. that capture and transmit channels.

GPU servers have even greater potential. Cards can render 3D graphics or perform statistical and scientific calculations. As such, they cover important roles in several domains where such tasks can overwhelm the CPU, including modelling, big data processing, or surveys. Additional devices are 3D printers, scanners, or employees’ computers where they can view the data in real-time mode.

Now you know the difference between a GPU and a streaming server. This helps you make the right choice based on your major. Choose your target or call and our support will help you configure the optimal workstation.

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