We offer a variety of storage solutions, scalable resources, and high performance AMD Ryzen and EPYC dedicated servers.
Get started Speak to SalesBusinesses access dedicated, high-performance server hardware and network connections with unmetered dedicated servers, which are unaffected by overage fees and bandwidth limitations.
In order to guarantee data availability, security, and integrity in the event of hardware malfunctions, cyberattacks, or inadvertent deletions, backup data on AMD dedicated servers is crucial. Protecting sensitive data and ensuring smooth corporate operations depend on the implementation of efficient backup strategies. Different backup techniques—like differential, full, incremental, and hybrid backups—offer unique benefits suited to particular workloads and requirements. The many backup methods for AMD dedicated servers are examined in this overview, together with their advantages and ideal applications, to assist companies in creating strong data security plans.
Entry-level consumers
4 cores and 8 threads
Ranges from 3.6 GHz to 4.0 GHz
Up to 4.2 GHz
Around 6MB (combined L2 and L3)
65W
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Top-tier performance enthusiasts
12 to 16 cores and 24 to 32 threads
Ranges from 3.7 GHz to 3.8 GHz
Up to 4.9 GHz
Around 70MB (combined L2 and L3)
105W
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Professionals in content creation
24 to 64 cores and 48 to 128 threads
Ranges from 2.9 GHz to 3.5 GHz
Up to 4.5 GHz
Up to 288MB (combined L2 and L3)
280W
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AMD Ryzen CPUs serve a wide spectrum of customers, including high-end professionals and consumers on a tight budget. In the CPU market, Ryzen CPUs continue to be an appealing option due to their reasonable pricing.
The basic design of Ryzen CPUs, including Zen, Zen+, Zen 2, Zen 3, and Zen 4 iterations. Instructions per clock (IPC), power efficiency, and overall performance are all improved with each iteration.
This extra bandwidth makes it perfect for high-demand applications like gaming and data-intensive computer jobs since it enables better data transfer rates, and greater performance.
These integrated graphics options are a great option for budget-conscious consumers because they provide decent performance without requiring a discrete GPU.
128 lanes of PCIe 3.0
Up to 32 cores and 64 threadS
Ranges from 2.0 GHz to 2.9 GHz.
Up to 3.2 GHz
Up to 64MB (L3)
120W to 180W
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128 lanes of PCIe 4.0
Up to 64 cores and 128 threads
Ranges from 2.0 GHz to 3.0 GHz
Up to 3.7 GHz
Up to 256MB (L3)
120W to 280W
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128 lanes of PCIe 5.0
Up to 96 cores and 192 threads
Ranges from 2.0 GHz to 3.1 GHz
Expected up to 3.8 GHz
up to 768MB (L3)
120W to 400W
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AMD EPYC processors offer exceptional performance, scalability, and efficiency in data centers and enterprise applications, with high core counts, sophisticated memory support, and numerous PCIe lanes.
With the use of AMD's Zen architecture, EPYC processors offer notable generation-to-generation gains in instructions per clock (IPC), power efficiency, and overall performance.
With compatibility for PCIe 3.0, 4.0, and 5.0 across many generations, EPYC CPUs provide a large number of PCIe lanes that enable quicker connectivity for expansion cards and storage.
High core and thread counts provided by EPYC CPUs, which are optimized for multi-threaded workloads, allow for effective parallel processing and enhanced server performance.