Edit Values | |
POWER9 µarch | |
General Info | |
Arch Type | CPU |
Designer | IBM |
Manufacturer | GlobalFoundries |
Introduction | August, 2017 |
Phase-out | August, 2018 |
Process | 14 nm |
Core Configs | 24 |
Pipeline | |
Type | Superscalar |
OoOE | Yes |
Speculative | Yes |
Reg Renaming | Yes |
Stages | 12-16 |
Instructions | |
ISA | Power ISA v3.0B |
Cache | |
L1I Cache | 32 KiB/core |
L1D Cache | 32 KiB/core |
L2 Cache | 512 KiB/core |
L3 Cache | 120 MiB/chip |
Succession | |
POWER9 is IBM's successor to POWER8, a 14 nm microarchitecture for Power-based server microprocessors first introduced in the 2nd half of 2017. POWER9-based processors are branded under the POWER family.
Contents
Process Technology
POWER9-based microprocessors are fabricated on GlobalFoundries's High-Performance 14 nm (14HP) FinFET Silicon-On-Insulator (SOI) process. The process was designed by IBM at what used to be their East Fishkill, New York fab which has since been sold to GlobalFoundries.
Compatibility
Initial support for POWER9 started with Linux Kernel 4.8.
Vendor | OS | Version | Notes |
---|---|---|---|
IBM | AIX | 7.? | Support |
IBM i | ? | Support | |
Linux | Linux | Kernel 4.8 | Initial Support |
Wind River | VxWorks | VxWorks 7.? | Support |
Compiler support
Compiler | CPU | Arch-Favorable |
---|---|---|
GCC | -mcpu=pwr9 |
-mtune=pwr9
|
LLVM | -mcpu=pwr9 |
-mtune=pwr9
|
XL C/C++ | -mcpu=pwr9 |
-mtune=pwr9
|
Architecture
Key changes from POWER8/+
- 14 nm process (from 22 nm)
- 17-layer metal stack
- 8,000,000,000 transistors
- Support for Power ISA v3.0
- Higher single-thread performance
- New highly modular architecture
- Pipeline
- Shorter pipeline
- 5 stages eliminated from fetch to compute vs POWER8
- Roughly 5 stages were also eliminated for fixed-point operations
- Up to 8 cycles were eliminated for floating-point operations
- Instruction grouping at dispatch has been removed
- Improved hazard avoidance / reduced hazard disruption
- Shorter pipeline
- Improved branch prediction
- Cache
- 120 MiB NUCA L3
- eDRAM
- 7 TB/s on-chip bandwidth
- 120 MiB NUCA L3
- Hardware Acceleration
- I/O Subsystem
- Virtualization
- QoS assistance
- New Interrupt architecture
- Workload-optimized frequency
- Hardware enforced trusted execution
Block Diagram
This section is empty; you can help add the missing info by editing this page. |
Memory Hierarchy
- Cache
Overview
POWER9 succeeds POWER8, introducing many core enhancements as well as large architectural changes. POWER9 has taken a highly modular design approach, with the same design supporting up to 12 cores with 96 threads (SMT8) or up to 24 cores with 96 threads (SMT4). IBM offers POWER9 as both scale up and scale out solutions. In total, there are four targeted chip implementations (24C/SO, 24C/SU, 12C/SO, and 12C/SU).
Variations
POWER9 comes in two flavors - scale out (SO) and scale up (SU). The scale out variations are designed for traditional datacenter clusters utilizing single-socket and dual-socket setups. The Scale-Up variations are designed for NUMA servers with four or more sockets, supporting large amounts of memory capacity and throughput.
Scale out
For the scale out there are two variations, a 12-core SMT8 model and a 24-core SMT4 model. The SMT4 is optimized for the Linux ecosystem whereas the SMT8 model is said to be optimized for the PowerVM ecosystem (AIX / IBM i customers). Those models support up to 8 channels of DDR4 memory for up to 4 TiB of DDR4-2667 memory (per socket). Those models offer up to 120 GiB/s of sustained bandwidth.
Scale out processors have 48 PowerAXON lines (x48) and come with two SMP links.
Scale up
The POWER9 scale up is designed for their enterprise servers and come with two variations, a 12-core SMT8 model and a 24-core SMT4 model. The SMT4 is optimized for Linux Ecosystem whereas the SMT8 is said to be optimized for the PowerVM Ecosystem community (AIX / IBM i customers). POWER9 inherits the same buffered memory architecture first introduced with POWER8. POWER9 has two memory controllers capable of driving four differential memory interface (DMI) channels, each with a maximum signaling rate of 9.6 GT/s for a sustained bandwidth of up to 28.8 GB/s. Each of the DMI channels connects to one dedicated Centaur memory buffer chip which, in turn, provides four DDR4 memory channels running at up to 3200 MT/s as well as 16 MiB of L4 cache. All in all, POWER9 scale-up can use eight buffered memory channels to access up to 32 channels of DDR memory and provides an additional 128 MiB of level 4 cache.
Scale up processors have a different set of I/O interfaces. The two memory controllers drive eight memory-agnostic interfaces, come with four times as many PowerAXON lines (x96), and 3 SMP links.
Slice Design
Execution Slice Microarchitecture is POWER9's entirely new refactored core modular design. The same modules were used to build both the SMT4 and SMT8 cores (and in theory scale further to higher thread count although that's not offered this iteration). These modules allow IBM to address the various processor models with support for the different configurations such as bandwidth/lines (from 128 to 64 byte sectors).
A Slice is the basic 64-bit computing block incorporating a single Vector and Scalar Unit (VSU) coupled with Load/Store Unit (LSU). VSU has a heterogeneous mix of computing capabilities including integer and floating point supporting scalar and vector operations. IBM claims this setup allows for higher utilization of resources while providing efficient exchanges of data between the individual slices. Two slices coupled together make up the Super-Slice, a 128-bit POWER9 physical design building block. Two super-slices together along with an Instruction Fetch Unit (IFU) and an Instruction Sequencing Unit (ISU) form a single POWER9 SMT4 core. The SMT8 variant is effectively two SMT4 units.
POWER8 | P9 SMT8 (4x Super-Slice) | P9 SMT4 (2x Super-Slice) | Super-Slice | Slice |
Acceleration Platform (POWERAccel)
POWERAccel is the collective name for all the interfaces and acceleration protocols provided by the POWER microarchitecture. POWER9 offers two sets of acceleration attachments: PCIe Gen4 which offers 48 lanes at 192 GiB/s duplex bandwidth and a new 25G link which offers an additional 48 lanes delivering up to 300 GiB/s of duplex bandwidth. On top of the two physical interfaces are a set of open standard protocols that integrated onto those signaling interfaces. The four prominent standards are:
- CAPI 2.0 - POWER9 introduces CAPI 2.0 over PCIe which quadruples the bandwidth offered by the original CAPI protocol offered in POWER8.
- New CAPI - A new interface that runs on top of the POWER9 25G link (300 GiB/s) interface, designed for CPU-Accelerators applications
- NVLink 2.0 - High bandwidth and integration between the GPU and CPU.
- On-Chip Acceleration - An array of accelerators offered by the POWER9 architecture itself
- 1x GZip
- 2x 842 Compression
- 2x AES/SHA
Pipeline
POWER9 modular design allowed IBM to reduce fetch-to-compute latency by 5 cycles. Similar number of cycles were also cut from fixed-point operations from fetch to retire. Additional 8 cycles were cut from fetch-to-retire for floating point instructions. POWER9 furthered increased fusion and reduced the number of instructions cracked (POWER handles complex instructions by 'cracking' them into two or three simple µOPs). Instruction grouping at dispatch that was done in POWER8 has also been entirely removed from POWER9.
B0 | B1 | RES | |||||||||||||
IF | IC | D1 | D2 | Crack/Fuse | PD0 | PD1 | XFER | MAP | VS0 | VS1 | F2 | F3 | F4 | F5 | |
LS0 | LS1 | AGEN | BRD | CA | FMT | CA |
SMT4 core
Fetch/Branch | Slices issue VSU & AGEN | VSU Pipe | LSU Slices |
---|---|---|---|
|
|
|
Performance Claims
IBM claims a range of performance improvements for a wide array of workloads. The graph below (provided by IBM) compares POWER9 performance using POWER8 as a baseline. The graph represents a scale-out model of similar specs at a constant frequency.
Die
Scale out
- GlobalFoundries 14 nm FinFET on SOI Process
- 17-layer metal stack
- 8,000,000,000 transistors
- 693.37 mm² die size
- 25.228 mm x 27.48416 mm
Scale up
- GlobalFoundries 14 nm FinFET on SOI Process
- 17-layer metal stack
- 8,000,000,000 transistors
- 693.37 mm² die size
- 25.228 mm x 27.48416 mm
Bibliography
See also
codename | POWER9 + |
core count | 24 + |
designer | IBM + |
first launched | August 2017 + |
full page name | ibm/microarchitectures/power9 + |
instance of | microarchitecture + |
instruction set architecture | Power ISA v3.0B + |
manufacturer | GlobalFoundries + |
microarchitecture type | CPU + |
name | POWER9 + |
phase-out | 2020 + |
pipeline stages (max) | 16 + |
pipeline stages (min) | 12 + |
process | 14 nm (0.014 μm, 1.4e-5 mm) + |