There is no product that matches the search criteria.
Your cart is empty.
Improve Your Data Infrastructure with AMD EPYC
2nd Gen AMD EPYC CPUs are a new breed of server processors which sets a higher standard for datacenters. Groundbreaking design makes AMD EPYC #1 in performance across industry standard benchmarks. Performance you can count on to propel your modern datacenter workloads. Hardened at the Core protection helps defend against side-channel attacks and EPYC's secure encrypted virtualization features help keep your data safe. The processor’s agility helps you manage new deployments and changing workloads, with the system resources you need, simply and cost-effectively. AMD is the server processor company can count on for innovation and leadership today and into the future.
24
Cores
48
Threads
2.8 GHz
Base Clock
3.35 GHz
Boost Clock
The secret is under the hood
AMD EPYC Infinity Architecture is a hybrid multi-die architecture that is reaching new heights with AMD EPYC 7002 Series processors. AMD Infinity Architecture now decouples two streams: eight dies for the processor cores, and one I/O die that supports security and communication outside the processor. With the agility to deliver the leading-edge process technology for CPU cores while letting I/O circuitry develop at its own rate, new capabilities can be brought to market faster with EPYC because its die design is not monolithic. This has allowed EPYC to race to leadership in the market and continue to innovate in the future.
Forged from the finest silicon
AMD is first to market an x86 processor based on 7nm technology. With double the core density and optimizations that improve instructions per cycle, the result is 4x the Floating-Point performance of 1st Gen AMD EPYC. 7nm process technology also brings energy efficiency. 2nd Gen AMD EPYC can provide the same performance at half the power consumption.
EPYC by the numbers
AMD EPYC has been engineered for datacenters that rely on CPU performance. From oil and gas exploration, to in-memory databases, to big data analytics to production rendering to standard datacenter applications, highly parallel workloads have more cores to work with. AMD EPYC 7002 generation processors scale from 8 to 64 cores (16 to 128 threads per socket). No other x86 vendor today enables such a core density in the market.
Hardened at the Core Security
AMD EPYC is ‘Hardened at the Core’ with advanced security features. It is the first server CPU with an integrated and dedicated security processor providing the foundation for Secure Boot, Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV). So you can worry less about data risk and focus more on running your business.
Enabling software boots without corruption
AMD EPYC processor’s secure root of trust is designed to validate the initial BIOS software boots without corruption. In virtualized environments, you can cryptographically check that your entire software stack is booted without corruption on a cloud server or services you choose.
Restrict Internal Vulnerabilities
With encrypted memory, attacks on the integrity of main memory (such as cold-boot attacks) are inhibited because any data obtained is encrypted. High-performance encryption engines integrated into the memory channels help speed performance. All of this is accomplished without modifications to your application software.
Safeguarding Virtual and Cloud Infrastructure
2nd Gen EPYC helps safeguard privacy and integrity by encrypting each virtual machine with one of up to 509 unique encryption keys known only to the processor. This aids in protecting confidentiality of your data even if a malicious virtual machine finds a way into your virtual machine’s memory, or a compromised hypervisor reaches into a guest virtual machine.
First to market PCIe Gen 4 readiness
AMD EPYC is the first and only current x86-architecture server processor supporting PCIe Gen4. PCIe Gen 4 delivers double the I/O performance over PCIe3. You can use 128 lanes of I/O to double the network bandwidth that ties together HPC clusters and satisfies voracious needs for east-west bandwidth. For other application needs and in virtualized environments, you can connect with higher speed to GPU accelerators, NVMe drives, and you can even use integrated disk controllers to access spinning disks without the typical bottleneck of a PCIe RAID controller.