The Intel Xeon E7 v2 Review: Quad Socket, Up to 60 Cores/120 Threads
by Johan De Gelas on February 21, 2014 6:00 AM EST- Posted in
- IT Computing
- Intel
- Xeon
- Ivy Bridge EX
- server
- Brickland
Our Benchmark Choices
To make the comparison more interesting, we decided to include both the Quad Xeon "Westmere-EX" as well as the "Nehalem-EX". Remember these heavy duty, high RAS servers continue to be used for much longer in the data center than their dual socket counterparts. Many people considering the newest Xeon E7-4800 v2 probably still own a Xeon X7500.
Of course, the comparison would not be complete without the latest dual Xeon 2600 v2 server and at least one Opteron based server. Due to the large number of platforms and the fact that we developed a brand new HPC test (see further), we quickly ran out of time. These time constrains and the fact that we have neglected our Linux testing in recent reviews in favor of Windows 2012 and ESXi led to the decision to limit ourself to testing on top of Ubuntu Linux 13.10 (kernel 3.11). You'll see our typical ESXi and Windows benchmarks in a later review.
Benchmark Configuration
There are some differences in the RAM and SSD configurations. The use of different SSDs was due to time constraints as we wanted to test the servers as much as possible in parallel. The RAM configuration differences are a result of the platforms: for example, the quad Intel CPUs only perform at their best when each CPU gets eight DIMMs. The Opteron and Dual Xeon E5-2680 v2 server perform best with one DIMM per channel (1 DPC).
None of these differences have a tangible influence on the results of our benchmarks, as none of them were bottlenecked by the storage system or the amount of RAM that was used. The minimum amount of 64GB of RAM was more than enough for all benchmarks in this review.
We also did not attempt to do power measurements. We will try to do an apples-to-apples power comparison at a later time.
Intel S4TR1SY3Q "Brickland" IVT-EX 4U-server
The latest and greatest from Intel consists of the following components:
| CPU |
4x Xeon E7-4890 v2 (D1 stepping) 2.8GHz 15 cores, 37.5MB L3, 155W TDP |
| RAM |
256GB, 32x8GB Samsung 8GB DDR3 M393B1K70DH0-YK0 at 1333MHz |
| Motherboard | Intel CRB Baseboard "Thunder Ridge" |
| Chipset | Intel C602J |
| PSU | 2x1200W (2+0) |
Total amount of DIMM slots is 96. When using 64GB LRDIMMs, this server can offer up to 6TB of RAM! In some cases, we have tested the E7-4890 v2 at a lower maximum clock in order to do clock-for-clock comparisons with the previous generation, and in a few cases we have also disabled three of the cores in order to simulate performance of some of the 12-core Ivy Bridge EX parts. For example, a E7-4890 v2 at 2.8 GHz with 3 cores disabled (12 cores total) gives you a good idea how the much less expensive E7- 8857 v2 at 3 GHz would perform: it would perform about 7% higher than the 12-core E7-4890 v2.
Intel Quanta QSCC-4R Benchmark Configuration
The previous quad Xeon E7 server, as reviewed here.
| CPU |
4x Xeon X7560 at 2.26GHz or 4x Xeon E7-4870 at 2.4GHz |
| RAM |
16x8GB Samsung 8GB DDR3 M393B1K70DH0-YK0 at 1066MHz |
| Motherboard | QCI QSSC-S4R 31S4RMB00B0 |
| Chipset | Intel 7500 |
| BIOS version | QSSC-S4R.QCI.01.00.S012,031420111618 |
| PSU | 4x850W Delta DPS-850FB A S3F E62433-004 850W |
The server can accept up to 64 32GB Load Reduced DIMMs (LR-DIMMs) or 2TB.
Intel's Xeon E5 server R2208GZ4GSSPP (2U Chassis)
This is the server we used in our Xeon "Ivy bridge EP" review.
| CPU | 2x Xeon processor E5-2680 (2.8GHz, 10c, 25MB L3, 115W) |
| RAM |
128GB (8 x 16GB) Micron MT36JSF2G72PZ – BDDR3-1866 |
| Internal Disks | 2 x Intel MLC SSD710 200GB |
| Motherboard | Intel Server Board S2600GZ "Grizzly Pass" |
| Chipset | Intel C600 |
| BIOS version | SE5C600.86B (August the 6th, 2013) |
| PSU | Intel 750W DPS-750XB A (80+ Platinum) |
The Xeon E5 CPUs have four memory channels per CPU and support up to DDR3-1866, and thus our dual CPU configuration gets eight DIMMs for maximum bandwidth.
Supermicro A+ Opteron server 1022G-URG (1U Chassis)
This Opteron server is not comparable in any way with the featured Intel systems as it is not targeted at the same market and costs a fraction of the other machines. Nevertheless, here's our test configuration.
| CPU | 2x Opteron "Abu Dhabi" 6376 at 2.3GHz |
| RAM | 64GB (8x8GB) DDR3-1600 Samsung M393B1K70DH0-CK0 |
| Motherboard | SuperMicro H8DGU-F |
| Internal Disks | 2 x Intel MLC SSD710 200GB |
| Chipset | AMD Chipset SR5670 + SP5100 |
| BIOS version | R3.5 |
| PSU | SuperMicro PWS-704P-1R 750Watt |
The Opteron server in this review is only here to satisfy curiosity. We want to see how well the Opteron fares in our new Linux benchmarks.
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JohanAnandtech - Friday, February 21, 2014 - link
I don't see the error. "Beckton" (Nehalem-EX, X7560) is at 2.4 GHzmslasm - Sunday, February 23, 2014 - link
> I don't see the error.The article says "The Opteron core is also better than most people think: at 2.4GHz it would deliver about 2481 MIPs." - but, according to the graph, Opteron already delivers 2723 @ 2.3Ghz. So it is puzzling to see that it "would" deliver less MIPS (2481 vs 2723) at higher frequency (2.4 vs 2.3 Ghz) (regardless of any Intel results/frequencies)
silverblue - Saturday, February 22, 2014 - link
It's entirely possible that the score is down to the 6376's 3.2GHz turbo mode.plext0r - Friday, February 21, 2014 - link
Would be nice to run benchmarks against a Quad E5-4650 system for comparison.blaktron - Friday, February 21, 2014 - link
... you know you can't, right?blaktron - Friday, February 21, 2014 - link
Nevermind, read v2 there where you didn't write it. Too much coffee....usernametaken76 - Friday, February 21, 2014 - link
For the more typo-sensitive reader (perhaps both technically astute and typo-senstive):"A question like "Does the SPARC T5 also support both single-threaded and multi-threaded applications?" must sound particularly hilarious to the our technically astute readers."
...to the our...
JohanAnandtech - Friday, February 21, 2014 - link
Fixed. Thx!TiGr1982 - Friday, February 21, 2014 - link
From the conclusion:"The Xeon E7 v2 chips are slated to remain in data centers for the next several years as the most robust—and most expensive—offerings from Intel."
I don't think it will be really "several" years - maybe 1-2 years later this Ivy Bridge-EX-based E7 v2 will probably be superseded by Haswell-EX-based E7 v3 with Haswell cores with AVX2/FMA, which should make a difference in pro floating point calculations and data processing, and working with DDR4.
Kevin G - Friday, February 21, 2014 - link
The Ivy Bridge-EX -> Haswell-EX transition will mimic the Nehalem-EX -> Westere-EX transition in that the core systems provided by the big OEM will stay the same. The OEM's offer Haswell-EX as a drop in replacement to their existing socket 2011v1 systems. Haswell-EX -> Broadwell-EX will again be using the same socket and follow a similarly quick transition. SkyLake-EX will bring a new socket design (perhaps with some optical interconnects?).At some point Intel will offer new memory buffer chips to support DDR4. This will likely require a system to swap out all the memory daughter cards but the motherboard from big OEM's shouldn't change. There may also be a period where these large systems can be initially configured with either DDR3 or DDR4 based upon customer requests.