Skip to Content
Home
Research Group
Members
Gerhard Klimeck
Alumni
Visitors
Pictures
Prospective Students
Member Access
Software
nanoHUB
Overview on NanoElectronic MOdeling
OMEN
NEMO 1-D
NEMO 3-D
NEMO5
Mars Image Processing
Applications
Ultra-scaled Transistors
Solid State Quantum Computing
Optoelectronics
Thermoelectricity and Thermal Transport
Quantum Dots
Methodologies
Electronic Structure
Lattice Structure
GENES
Parallel Scaling of NEMO/OMEN
Publications
Publication Summary
Student Theses
Journal
Books Chapters
Proceedings
Invited Conferences
Conferences
Technical Reports
Invited Seminars
Panel Discussions
Technical Reviews
Technical Briefings
Articles Citing NEMO
Contact
Daniel Lemus
Home
>
Research Group
>
Members
>
Daniel Lemus
>
High Performance Heterogeneous Computing
High Performance Heterogeneous Computing
Motivation:
Scaling of NEMO5 to hundreds of thousands of cores possible
Heterogeneous computer resources available at the largest supercomputing centers should be used
Approach:
Scattering code scaling tested on up to ~300k cores, work submitted for 2015 Gordon Bell Prize competition
Intel Xeon Phi and GPU infrastructure available for NEMO5
Powerpoint slide as
pdf
.
Daniel Lemus's Pages
Biography
Group Publications
Research Group
Members
Alumni
Visitors
Pictures
Prospective Students
Member Access
Recent News
NanoHub.org tops 100,000 users
OMEN scaling to 222,720 cores
Coates is up and running
Klimeck becomes director of NCN
