The AMD EPYC 7004 ‘Genoa’ processor has been photographed and has twelve Zen 4 chiplets. The next generation of the EPYC processor series is expected to launch later this year, and it seems that many third-party manufacturers are already testing some models in their labs.
AMD EPYC 7004 is a server-class processor line designed for high-performance computing, cloud computing, and data center applications.
From previous revelations, AMD EPYC Genoa is fully configured with 96 cores and 192 threads, but AMD will also release some models with partially shielded cores, so even if the processor pictured above has 12 small chips it doesn’t mean it will have all 96 cores enabled.
AMD EPYC 7004 is pictured for the first time and has 12 chiplets
The EPYC 7004 series is getting a new socket, the SP5 (LGA6096), which we already saw the first pictures of yesterday. Now there is the first image of an EPYC “Genoa” processor without IHS, where the 12-chiplet design can be clearly seen.
The image of an alleged EPYC ‘Genoa’ processor comes from TF AMD (Top Talent) in Malaysia. This would be the first image of this chip without IHS where we see a 12-chiplet design, so this series could contain a maximum of 96 cores and 192 processing threads.
As we know, AMD usually disables chiplets to sell a processor with different core counts, so it is very difficult to determine whether it is a 96-core model or a model with a lower core count.
Each Zen 4 CCD chip has an area of 72 mm², which is 8 mm² smaller than the Zen 3 that AMD uses on its EPYC Milan series. The I/O die is 397 mm² in size. This would be smaller than the 416 mm² of previous EPYCs with Zen 3 cores.
With AMD adding 12 chiplets with the EPYC 7004 series, it’s understandable that they were forced to use a new socket, the SP5, which is 37% larger than the SP3 socket.
One of the big news with AMD’s new generation of server processors is the support for up to 12-channel DDR5 memory, as well as the introduction of the PCIe 5.0 interface.
Much is expected from this series, in addition to the new Ryzen 7000 with Zen 4 architecture later this year.
One of the key features of the EPYC 7004 series is its high core count, which can range from 8 to 64 cores per processor. This allows the processors to handle multiple tasks simultaneously, making them ideal for multi-threaded workloads such as databases, big data analytics, and virtualization.
Another standout feature of the EPYC 7004 series is its support for the latest DDR5 memory technology. DDR5 memory is faster and more power-efficient than previous generations, which means that EPYC 7004-powered servers can perform tasks faster and use less energy in the process.
The 7004 series also includes a number of security features to protect against potential attacks. For example, the processors have built-in hardware-level security features such as secure boot and memory encryption, which help to prevent unauthorized access to sensitive data.
In terms of scalability, the EPYC 7004 series supports up to 4-socket servers, which means that users can add additional processors as their computing needs grow. This makes the 7004 series an ideal choice for data centers and cloud computing environments that need to scale up quickly to meet changing demands.
Finally, the EPYC 7004 series is designed for efficiency, with a focus on reducing power consumption and reducing costs for data centers. The processors are manufactured using the 7nm process technology, which results in a smaller, more power-efficient design. Additionally, the 7004 series supports AMD’s Infinity Fabric technology, which enables high-speed communication between processors and other components in a server, further improving performance and efficiency.
In conclusion, the AMD EPYC 7004 series is a powerful, flexible, and secure processor line that is well-suited for high-performance computing, cloud computing, and data center applications. With its high core count, support for the latest DDR5 memory technology, security features, scalability, and efficiency, the 7004 series is a top choice for organizations looking to build reliable, high-performance servers.
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