Key stats for the AMD EPYC 7502P: 32 cores / 64 threads with a 2.5GHz base clock and 3.35GHz turbo boost. There is 128MB of onboard L3 cache. The CPU features a 180W TDP. These are $2300 list price parts.
Here is what the lscpu output looks like for an AMD EPYC 7502P:
Before we get too far in this review, the AMD EPYC 7502P has 128x PCIe Gen4 lanes. That is an absolutely enormous amount of connectivity. A great example of how that can be used, and where this EPYC 7502P excels, is found in our Gigabyte R272-Z32 review. Many accelerator applications and newer hyper-converged infrastructure can utilize the 32 cores. Key to AMD’s value proposition is being able to deliver this platform all with a single package. The “P” in the SKU means that this is a single-socket only platform priced at a discount to the standard AMD EPYC 7502 which is the dual-socket capable version of this chip.
In a reversal from the previous generation, the NUMA node structure for single-socket EPYC 7002 has changed. We now, by default, have a single NUMA node for these 32 cores. Intel Xeon requires two NUMA nodes to reach 32 cores since the largest single CPU up to $10000 is the Intel Xeon Platinum 8280. With the previous generation, AMD needed four while Intel still needed two. If you read older articles discussing the Intel Xeon advantage for using fewer NUMA nodes, that is now reversed with the current generation.
A Word on Power Consumption
We tested these in a number of configurations. The lowest spec configuration we used is a Supermicro AS-1014S-WTRT. This had two 1.2TB Intel DC S3710 SSDs along with 8x 32GB DDR4-3200 RAM. One can get a bit lower in power consumption since this was using a Broadcom BCM57416 based onboard 10Gbase-T connection, but there were no add-in cards.
Even with that here are a few data points using the AMD EPYC 7502P in this configuration when we pushed the sliders all the way to performance mode and a 180W cTDP:
- Idle Power (Performance Mode): 101W
- STH 70% Load: 204W
- STH 100% Load: 223W
- Maximum Observed Power (Performance Mode): 257W
As a 1U server, this does not have the most efficient cooling, still, we are seeing absolutely great power figures here. The impact is simple. If one can consolidate smaller nodes onto an AMD EPYC 7502P system, there are power efficiency gains to be attained as well.
Next, let us look at our performance benchmarks before getting to market positioning and our final words.