Kicking off a busy day of product announcements and updates for AMD’s data center business group, this morning AMD is finally announcing their long-awaited high density “Bergamo” server CPUs. Based on AMD’s density-optimized Zen 4c architecture, the new EPYC 97x4 chips offer up to 128 CPU cores, 32 more cores than AMD’s current-generation flagship EPYC 9004 “Genoa” chips. According to AMD, the new EPYC processors are shipping now, though we’re still awaiting further details about practical availability.
AMD first teased Bergamo and the Zen 4c architecture over 18 months ago, outlining their plans to deliver a higher density EPYC CPU designed particularly for the cloud computing market. The Zen 4c cores would use the same ISA as AMD’s regular Zen 4 architecture – making both sets of architectures fully ISA compatible – but it would offer that functionality in a denser design. Ultimately, whereas AMD’s mainline Zen 4 EPYC chips are designed to hit a balance between performance and density, these Zen 4c EPYC chips are purely about density, boosting the total number of CPU cores available for a market that is looking to maximize the number of vCPUs they can run on top of a single, physical CPU.
While we’re awaiting additional details on the Zen 4c architecture itself, at this point we do know that AMD has taken several steps to boost their CPU core density. This includes redesigning the architectural layout to favor density over clockspeeds – high clockspeed circuits are a trade-off with density, and vice versa – as well as cutting down the amount of cache per CPU core. AMD has also outright stuffed more CPU cores within an individual Core Complex Die (CCD); whereas Zen 4 is 8 cores per CCD, Zen 4c goes to 16 cores per CCD. Which, amusingly, means that the Zen 4c EPYC chips have fewer CCDs overall than their original Zen 4 counterparts.
Despite these density-focused improvements, Bergamo is still a hefty chip overall in regards to the total number of transistors in use. A fully kitted out chip is comprised of 82B transistors, down from roughly 90B transistors in a full Genoa chip. Which, accounting for the larger number of CPU cores available with Bergamo, works out to a single Zen 4c core being about 68% of the transistor count as a Zen 4 core, when amortized over the entire transistor count of the chip. In reality, the savings at the CPU core level alone are likely not as great, but it goes to show how many transistors AMD has been able to save by cutting down on everything that isn’t a CPU core.
Meanwhile, as these are a subset of the EPYC 9004 series, the 97x4 EPYC chips are socket compatible with the rest of the 9004 family, using the same SP5 socket. A BIOS update will be required to use the chips, of course, but server vendors will be able to pop them into existing designs.
As noted earlier, the primary market for the EPUC 97x4 family is the cloud computing market – the ‘c’ in Zen 4c even stands for “cloud”, according to AMD. The higher core counts and less aggressive clockspeeds make the resulting chips, on a core-for-core basis, more energy efficient than Genoa designs. Which for AMD’s target market is a huge consideration, given that power is one of their greatest ongoing costs. As part of today’s presentation, AMD is touting a 2.7x improvement in energy efficiency, though we’re unclear over what that figure is in comparison to.
With their higher core density and enhanced energy efficiency, AMD is especially looking to compete with Arm-based rivals in this space, with Ampere, Amazon, and others using Arm architecture cores to fit 128 (or more) cores into a single chip. AMD will also eventually be fending off Intel in this space, though not until Sierra Forest in 2024.
Pure compute users will also want to keep an eye on these new Bergamo chips, as the high core count changes the current performance calculus a bit. In regards to pure compute throughput, on paper the new chips offer even more performance than 96 core Genoa chips, as the extra 32 CPU cores more than offsets the clockspeed losses. With that said, the cache and other supporting hardware of a server CPU boost performance in other ways, so the performance calculus is rarely so simple for real-world workloads. Still, if you just need to let rip a lot of semi-independent threads, then Bergamo may offer some surprises.
We’ll have more on more on the EPYC 97x4 series chips in the coming days and weeks, including more on the Zen 4c core architecture, as AMD releases more information on that. So until then, stay tuned.
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