Assessing IBM's POWER8, Part 1: A Low Level Look at Little Endian
by Johan De Gelas on July 21, 2016 8:45 AM ESTSystem Specs
Lastly, let's take a look at some high level specs. It is interesting to note that the IBM POWER8 inside our S812LC server is a 10-core Single Chip Module. In other words it is a single 10-core die, unlike the 10-core chip in our S822L server which was made of two 5-core dies. That should improve performance for applications that use many cores and need to synchronize, as the latency of hopping from one chip to another is tangible.
The SKU inside the S812LC is available to third parties such Supermicro and Tyan. This cheaper SKU runs at "only" 2.92 GHz, but will easily turbo to 3.5 GHz.
Feature | IBM POWER8 (Available in LC servers) |
Intel Broadwell (Xeon E5 v4) |
Process tech. | 22nm SOI | 14nm FinFET |
Max clock | 2.92-3.5 GHz | 2.2-3.6 GHz |
Max. core count Max. thread count |
10@2.92 GHz (3.5 GHz Turbo) 80 SMT |
22@2.2 GHz (2.8 GHz turbo) 44 SMT |
TDP | 190W | 145W |
L1-I / L1-D Cache | 32 KB/64 KB | 32 KB/32 KB |
L2 Cache | 512 KB SRAM per core | 256 KB SRAM per core |
L3 Cache | 8 MB eDRAM per core | 2.5 MB SRAM per core |
L4 Cache | 16 MB eDRAM per MBC (64 MB total) |
None |
Memory | 1 TB per socket - 32 slots (32 GB per DIMM) |
0.768 TB per socket - 12 slots (64 GB per DIMM) |
Theoretical Memory Bandwidth | 76.8 GB/s Read 38.4 GB/s Write |
76.8 GB/s Read or Write |
PCIe 3.0 Lanes | 32 Lanes | 40 Lanes |
The Xeon and IBM POWER8 have totally different memory subsystems. The IBM POWER8 connects to 4 "Centaur" buffer cache chips, which have each a 19.2 GB/s read and 9.6 GB/s write link to the processor, or 28.8 GB/s in total. This is a more efficient connection than the Xeon which has a simpler half-duplex connection to the RAM: it can either write with 76.8 GB/s to the 4 channels or read from the 4 channels. Considering that reads happen twice as much as writes, the IBM architecture is - in theory - better balanced and has more aggregated bandwidth.
124 Comments
View All Comments
JohanAnandtech - Thursday, July 21, 2016 - link
I don't think so, we just expressed it in ns so you can compare with IBM's numbers more easily. Can you elaborate why you think they are wrong?Taracta - Thursday, July 21, 2016 - link
Sorry, mixed up cycles with ns especially after reading the part about transition for the Intel from L3 to MEM.Sahrin - Thursday, July 21, 2016 - link
Yikes. Pictures without captions. Anandtech is terrible about this. ALWAYS caption your pictures, guys.djayjp - Thursday, July 21, 2016 - link
Are bar graphs not a thing anymore...?Drumsticks - Thursday, July 21, 2016 - link
Afaik, Anandtech has always used the chart when presenting things like SPEC. I'd guess it'd be for clutter reasons, but the exact reason is up to the editors to mention.JohanAnandtech - Thursday, July 21, 2016 - link
The reason for me is simply to give you the exact numbers and allow people to do their own comparisons.Drumsticks - Thursday, July 21, 2016 - link
Just to be clear, the Xeon CPU used today is 3 times more expensive than the Power8 CPU benchmarked? That's really impressive, isn't it? The Power8 has a pretty significant power increase, but if it's 43% faster, that cuts into the perf/w gap.I know we've only looked at SPEC so far in round 2, but this looks like a good showing for IBM. How big is the efficiency gap between 22nm SOI and 14nm FinFet? Any estimates?
Michael Bay - Thursday, July 21, 2016 - link
Selling at a loss is hardly impressive, especially in IBM`s case. This thing is literally their last chance.tipoo - Friday, July 22, 2016 - link
Is it at a loss, or is it just not at crazy Intel margins?Michael Bay - Saturday, July 23, 2016 - link
They`d have to have a healthy margin to offset all the R&D, plus IBM as a whole is not in a good financial position. Consider they sold their fab capability not so long ago.