In this deck, Sumit Gupta from Nvidia describes the company's big win with IBM for two supercomputers for deployment in 2017. The two machines will feature IBM POWER processors coupled with Nvidia's future Volta GPU technology.
IBM today announced that the U.S. Department of Energy has awarded IBM contracts valued at over $300 million to develop and deliver the world’s most advanced “data centric” supercomputing systems at Lawrence Livermore and Oak Ridge National Laboratories to advance innovation and discovery in science, engineering and national security. IBM’s new systems using a “data centric” approach puts computing power everywhere data resides, minimizing data in motion and energy consumption.
Watch the video presentation: http://insidehpc.com/2014/11/slidecast-nvidiaibm-build-two-coral-100-petaflop-supercomputers-2017/
3. 3
US to Build Two Flagship Supercomputers
Major Step Forward on the Path to Exascale
150-300 PFLOPS Peak Performance
IBM POWER9 CPU + NVIDIA Volta GPU
NVLink High Speed Interconnect
40 TFLOPS per Node, >3,400 Nodes
2017
SUMMIT SIERRA
4. 4
Just 4 nodes in Summit
would make the Top500 list of
supercomputers today
Similar Power as Titan
5-10x Faster
1/5th the Size
150 PF = 3M Laptops
5. 5
Built for Grand Scientific Challenges
Fusion Energy
Role of material disorder,
statistics, and fluctuations
in nanoscale materials
and systems.
Combustion
Combustion simulations to
enable the next gen diesel/bio-
fuels to burn more efficiently
Climate Change
Study climate change adaptation
and mitigation scenarios;
realistically represent detailed
features
Nuclear Energy
Unprecedented high-fidelity
radiation transport calculations for
nuclear energy applications
Biofuels
Search for renewable and
more efficient energy sources
Astrophysics
Radiation transport – critical to
astrophysics, laser fusion, atmospheric
dynamics, and medical imaging
7. 7
IBM POWER CPU
Most Powerful Serial Processor
NVIDIA NVLink
Fastest CPU-GPU Interconnect
NVIDIA Volta GPU
Most Powerful Parallel Processor
Accelerated Computing
5x Higher Energy Efficiency
80-200
GB/s
8. 8
VOLTA GPU Featuring
NVLINK and Stacked Memory
NVLINK
GPU high speed interconnect
80-200 GB/s
3D Stacked Memory
4x Higher Bandwidth (~1 TB/s)
3x Larger Capacity
4x More Energy Efficient per bit
10. 10
0x
50x
100x
150x
200x
250x
300x
350x
400x
450x
2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022
Leading the Way to Exascale
Accelerated Systems on Path to Exascale
Peak Performance of Top Supercomputers, 2009-2018
PeakPerfComparedtoJaguarSupercomputer
* Projection based on the three supercomputers
JAGUAR TITAN
SUMMIT
EXASCALE SUPERCOMPUTER
11. 11
Exascale Supercomputers Required to
Address Future Scientific Challenges
Comprehensive Earth System
Model at 1 km scale, enabling
modeling of cloud convection and
ocean eddies.
Coupled simulation of entire cells
at molecular, genetic, chemical
and biological levels.
First-principles simulation of
combustion for new high-efficiency,
low-emission engines.
Predictive calculations for
thermonuclear and core-collapse
supernovae, allowing confirmation
of theoretical models.
12. 12
Summary
The U.S. is building the two flagship supercomputers, 3x
faster than today’s fastest system.
Higher performance supercomputers are necessary to enable
new waves of scientific innovation and discovery, such as
delivering safe fusion energy, combating climate change,
finding new alternative energy, and enabling better, safer
consumer products.
IBM & NVIDIA are inventing new technologies that will enable
exascale computing