Faster Than Light: Layerstack’s High Frequency CPU Plan

1. Why a CPU Is Important?

If you have to select a good server plan, that can get tricky. Many providers highlight such niceties, like 24/7 customer support, servers located in Europe, discounts, etc. The question is, shouldn’t you look at the computing power in the first place? Indeed, what makes a good cloud server plan are CPU characteristics: whether the cloud can process your data in a timely manner. To spare you a few unnecessary doubts, we’ve prepared a straightforward comparison checklist for you.

2. How a CPU Is Evaluated?

Since most of the modern software works in numerous threads, the number of cores lands on top of your checklist. An application can use multiple cores simultaneously, thus, finishing a computation faster. Moreover, some cloud cores can process more than one thread at once. That’s the second parameter to check.

Furthermore, clock speed or frequency belongs to the list. Some applications, especially involving mathematical algorithms, need more cycles per second but fewer threads. Thus, if a CPU gets heavily loaded with processing requests, it should speed up for a while, entering a turbo mode—another thing to keep an eye on.

Yet, having so many different needs, you’d prefer a flexible processor that can switch between configurations and provide scalability. Consequently, pay enough attention to CPU architecture. Indeed, the server has to stand the workload and not go down. That’s where the thermal design point — the TDP — comes into play.

3. Layerstack’s High Frequency CPU Plan

LayerStack’s  High Frequency CPU Server Plan will shake your expectations.

No alternative has ever come close enough to this offer: 64 cores with 128 threads and a base clock speed of 2.25 GHz. It can fly up to 3.4GHz thanks to the 2nd Generation AMD EPYC™ 7742 processors. The former ones are known for their outstanding performance, secure encrypted virtualization features, and many more. In addition, the Zen 2 architecture behind it allows using one computational cycle more effectively. The 7-nm-small transistors make this CPU consume less energy. Besides that, your server is secured against overheating and demonstrates the TDP — thermal design point — of 225 W. The High Frequency CPU Servers become a must for companies that need high-performance computing.  

4. Use Cases of High Frequency CPU Plan

With their impressive bandwidth, LayerStack’s High Frequency CPU Servers seem to be tailored to process enormous amounts of incoming and outgoing data. The CPUs consume data quickly, digest it even faster, and let it go back to the end-users in the smallest portion of the moment. As a result, LayerStack’s High Frequency CPU Servers are made for high workloads and real-time data processing. Just to mention a few industries:

  • 3D printing
  • sophisticated weather applications, like storm tracking
  • financial and trading calculations
  • terrestrial data
  • real-time stock data
  • live-event streaming

High Frequency CPU Server Plan will find its customers among research labs, financial institutions, manufacturers of autonomous vehicles, etc. Everything involving machine learning and artificial intelligence can rely on LayerStack’s servers.

5. Comparison Against Digital Ocean and Linode

LayerStack has knocked down its competitors not only by offering higher clock speeds, both base and turbo, but also by the number of cores. It left Digital Ocean and Linode far behind. The first has only 18 cores, the latter provides 32, but it’s nothing against 64 cores that LayerStack has prepared.

Even though both Digital Ocean and Linode manage the double numbers of threads, they cannot keep pace with 128 threads LayerStack can. Despite the fact that the frequencies are nearly comparable for all three provides, LayerStack convinces with a TDP of 225 W against those of only 140 W for DO and 180 W for Linode. 

Eventually, the AMD EPYC™ 7742 CPU got a high positive score by PassMark Software, which is used to test CPUs’ robustness and overall performance. The PassMark runs complex algorithms on a CPU and measures its speed. DO uses Intel Xeon Gold 6140 that received only a third of the AMD EPYC™ 7742 speed, and Linode has Intel Xeon E5-2680 v3 that managed to achieve less than 1/5 of the winner’s performance score. – Learn More About LayerStack