Sustainability, performance and efficiency with the AMD EPYC™ 9004-series processors.
Discover the future of the data centre with AMD EPYC™ 9004-series processors. Our latest generation of server CPUs sets new sustainability, performance and energy efficiency.
Unbeatable performance.
The AMD EPYC™ 9004 series delivers the power needed for complex calculations and to carry out data analyses in record time—be that for AI and ML, databases or high-performance computing (HPC).
Drive exceptional time-to-results for your business-critical applications with AMD EPYC™ 9004 processors. Formerly codenamed “Genoa”, this flagship CPU series features leadership performance and is optimised for a wide range of workloads spanning from the enterprise to the cloud.
- Accelerate workloads with the world's highest-per-core-performance x86 CPUs
- Modernise data centre footprints and reduce energy consumption
- Minimise TCO while maximising results across a wide range of workloads
4th Gen AMD EPYC™ 97x4 processors, formerly codenamed “Bergamo”, offer the performance, density, and energy efficiency to provide no-compromise computing for growing cloud native environments.
- System-level thread density for the scalable performance needed by cloud-native workload growth and infrastructure consolidation
- Extensive x86 software compatibility
- A full ecosystem of services to support fast, seamless deployment
Reach new heights to help solve some of today’s most complex design and simulation challenges with AMD EPYC™ 9004 Series Processors with 3D V-Cache™ Technology, formerly codenamed “Genoa-X”.
- Deliver breakthrough performance with up to 96 “Zen 4” cores and 1152 MB of L3 cache per socket
- Accelerate product design and enable low CAPEX and OPEX
- Boost the productivity of your demanding design and simulation workloads with the world’s highest performance x86 server processors for technical computing.
AMD EPYC™ 8004 Processors, formerly codenamed “Siena” have been designed to be highly energy efficient CPUs for single-socket platforms. With up to 64 “Zen 4c” cores and 6 channels of DDR5 memory in a small footprint, these processors are ideal for space and power-constrained deployments.
- Excellent performance in a power envelope as low as 70 W
- NEBS-friendly and extended operating range for quieter operations and non-data centre deployments
- Optimises performance for the cloud, a telco network, a retail setting, or the intelligent edge
No-compromise efficiency.
AMD EPYC™ processors deliver impressive performance per watt which means lower operating costs and a smaller ecological footprint.
4th Gen EPYC™ CPU-powered servers can help IT organisations meet requirements to reduce cost, energy consumption, and save physical space. These AMD powered servers can meet performance demands with fewer physical servers. For example, running 2,000 VMs on 11 2P AMD EPYC 9654 processor-powered servers will use up to 36% less power annually than the 17 servers with similar processors required to deliver the same performance, while helping reduce CAPEX up to 47%.
Introducing AMD EPYC™ 5th generation processors.
Designed specifically to accelerate data center, cloud and AI workloads, the AMD EPYC™ 9005 processor series sets a new benchmark for enterprise computing performance.
Optimized performance.
AMD EPYC™ 9005 processors deliver exceptional performance while enabling leading energy efficiency and a low Total Cost of Ownership (TCO) to support key business requirements.
Optimized performance.
AMD EPYC™ 9005 processors deliver exceptional performance while enabling leading energy efficiency and a low Total Cost of Ownership (TCO) to support key business requirements.
AMD EPYC™ 9005 can achieve the same performance as older hardware with up to 86% fewer racks. This drastically reduces physical space requirements, power consumption and the number of software licences required—and frees up space for new or expanded AI workloads.
AMD EPYC 9005™ CPU-powered servers leverage the new “Zen 5” cores to deliver compelling mainstream performance metrics, including 2.7x the integer performance of leading competitive offerings.
Data centres need more power than ever before. AMD EPYC™ 9005 processors continue to offer the energy efficiency and TCO benefits of previous AMD EPYC™ generations.
AMD EPYC™ 9005 Series processors contain up to 192 “Zen 5” or “Zen 5c” cores with exceptional memory bandwidth and capacity. The innovative AMD chiplet architecture enables high-performance, energy-efficient solutions that are optimised for your different computing requirements.
Zen 5.
|
|
Zen 5c.
|
|
Every AMD EPYC™ processor includes AMD Infinity Guard, a comprehensive suite of security features that can keep your data safe.
In a world of complexity, you need to help your workloads be more secure, from processes to technologies. AMD Infinity Guard delivers an industry-leading set of modern security features that help decrease potential attack surfaces as software is booted, executed, and processes your critical data.
AMD is serious about security. With the modern “ZEN” architecture, AMD processors are designed with security in mind from the ground up to be highly resistant to today’s sophisticated attacks, helping protect your sensitive data, avoid downtime, and reduce resource drain. In addition, AMD Infinity Guard provides a unique and robust set of security features that help complement industry ecosystem partners at the software and system levels.
With Secure Encrypted Virtualization (SEV), AMD EPYC™ processors 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.
The new 3rd Gen. AMD EPYC™ processors feature the latest advancement in AMD SEV technologies called Secure Nested Paging (SEV-SNP). SEV-SNP adds strong memory integrity protection capabilities to help prevent malicious hypervisor based attacks like data replay, memory re-mapping, and more in order to create an isolated execution environment.
Today, many security threats come from inside an organisation’s walls. Secure Memory Encryption (SME) helps protect against attacks on the integrity of main memory (such as cold-boot attacks) because it encrypts the data. High-performance encryption engines integrated into the memory channels help speed performance. All of this is accomplished without modifications to your application software.
AMD Shadow Stack.
|
|
AMD Secure Boot.
|
|