Engineers have high compute and graphics requirements, and not just any remote desktop will do. In this in-depth engineering.com research report, you will learn about many of the major remote desktop protocols for engineers and how to evaluate them for your needs.
When you boot up your workstation, where is it?
If it is right there next to you, you might be in trouble the next time it isn’t. But if your workstation is on the other end of the internet—a remote desktop—you’ll be better equipped for any, say, unprecedented global events that prove disruptive to your work.
Engineers have high compute and graphics requirements, and not just any remote desktop will do. One of the main factors of a high-performance remote solution is the choice of remote desktop protocol.
In this in-depth engineering.com research report, you will learn about many of the major remote desktop protocols for engineers and how to evaluate them for your needs. The reports explains:
- The purpose of remote desktop protocols
- The importance of coding formats and multi-codec support
- The difference between TCP and UDP, and why it matters
- How remote peripherals like 3D mice and Wacom tablets are handled
- The distinction between VDI and DaaS
- How different protocols respond to changing network quality
- Balancing the trade-offs of remote desktop protocols
The report encompasses major protocols including:
- Teradici PCoIP
- Citrix ICA
- HP ZCentral Remote Boost
- Mechdyne TGX
- And more
Download your free copy of this 24-page research report.