Difference between revisions of "POWER9"

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* '''[[:Category:Documentation|POWER9 CPU and Platform Documentation]]'''
 
* '''[[:Category:Documentation|POWER9 CPU and Platform Documentation]]'''
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* [[POWER9 Hardware Compatibility List]]
 
* [[:File:POWER9-Features-and-Specifications.pdf|Basic POWER9 overview presentation]]
 
* [[:File:POWER9-Features-and-Specifications.pdf|Basic POWER9 overview presentation]]
 
* [[:File:PowerISA_public.v3.0B.pdf|Power ISA version 3.0B]] - implemented by POWER9
 
* [[:File:PowerISA_public.v3.0B.pdf|Power ISA version 3.0B]] - implemented by POWER9

Revision as of 14:19, 2 March 2019

Processor Information
POWER9
Power ISA 3.0B
Process node 14nm
Maximum slices 24
Maximum cores 12 SMT8 / 24 SMT4
L2 cache / slice 512kB
L3 cache / slice 10MB
Production availability January 2018
Production stepping(s) DD2.2
← POWER8E POWER10 →

POWER9 is IBM's most recent POWER compatible server and workstation CPU (POWER ISA v3.0B). Built on a 14nm process, each CPU package can contain up to 24 SMT4 cores or 12 SMT8 cores. Each pair of SMT4 cores, or singleton SMT8 core, comprises a slice; each slice in turn contains 512kB L2 cache and 10MB L3 cache. Raptor Computing Systems' 4- and 8-core processors provide unpaired cores, such that one SMT4 core per slice is fused off. This allows each of the SMT4 cores to utilize the full cache of the slice exclusively, increasing performance for these ST-focused processors.

Chips

POWER9 Chips
PowerNV PowerVM
Scale Out Nimbus unknown[note 1]
Scale Up Cumulus
  1. The presentation by Jeff Stuecheli makes it clear that these chips will exist, but the codename for them is currently unknown.

PowerNV chips use SMT4 cores exclusively, and are intended to run Linux on bare metal as an OpenPOWER system. PowerVM chips, in contrast, use SMT8 cores, and are intended to run Linux, AIX, or IBM i under IBM's PowerVM hypervisor.

Chips are planned to be made in both Scale Out (direct-attach RAM) and Scale Up (centaur-buffered RAM) configurations; where a Scale Out system can use normal RAM attached directly to the CPU, Scale Up chips require that access to RAM be through a Centaur memory buffer, which behaves like a L4 cache.[1]

Markings

Part numbers for different POWER9 Sforza SKUs can be found on page 58 of the datasheet. These part numbers are printed on the surface of the CPU module and can be used to determine the type of the CPU.

Modules

POWER9 Modules
Chip Module
Nimbus Sforza
Monza
LaGrange
(PowerVM
Scale Out)
unknown
Cumulus unknown

Nimbus

Nimbus chips are available in three different modules: Sforza, Monza, and LaGrange. Each module exposes different I/O functionality to the host platform, allowing purpose-built systems to be constructed in addition to more general-purpose computers.

Sforza

Sforza is the most flexible of these packages, providing PCIe 4.0 lanes as the main I/O resource, and is what Talos™ II uses for maximal similarity to existing desktop, workstation, and server systems.

Monza

Monza modules offer the most OpenCAPI/NVLink bandwidth and are used in IBM's AC922 (Witherspoon) systems, such as those used by the Sierra and Summit supercomputers.

LaGrange

LaGrange modules offer increased XBus bandwidth between processor sockets and are used by the Google/Rackspace Zaius motherboard used in the Barreleye G2 system.[2]

Cumulus

Little is known about Cumulus chips now; as Scale Up chips, they will trade some peripherals bandwidth for communication between more than 2 sockets.[3]

References

  1. Stuecheli, Jeff. POWER9. Presentation for AIX VUG. (video download, slides, timemarks)
  2. Gangidi, Adi Zaius/Barreleye G2 Server Development Update. 2017-11-13
  3. Morgan, Timothy Prickett. POWER9 to the People. 2017-12-05

Resources

External Links