Title :
Peta-scale Lattice Quantum Chromodynamics on a Blue Gene/Q supercomputer
Author_Institution :
IBM Res. - Tokyo, Tokyo, Japan
Abstract :
Lattice Quantum Chromodynamics (QCD) is one of the most challenging applications running on massively parallel supercomputers. To reproduce these physical phenomena on a supercomputer, a precise simulation is demanded requiring well optimized and scalable code. We have optimized lattice QCD programs on Blue Gene family supercomputers and shown the strength in lattice QCD simulation. Here we optimized on the third generation Blue Gene/Q supercomputer; i) by changing the data layout, ii) by exploiting new SIMD instruction sets, and iii) by pipelining boundary data exchange to overlap communication and calculation. The optimized lattice QCD program shows excellent weak scalability on the large scale Blue Gene/Q system, and with 16 racks we sustained 1.08 Pflop/s, 32.1% of the theoretical peak performance, including the conjugate gradient solver routines.
Keywords :
electronic data interchange; instruction sets; mainframes; parallel processing; quantum computing; Blue Gene family supercomputer; Q supercomputer; SIMD instruction set; boundary data exchange; conjugate gradient solver routine; data layout; lattice QCD program; lattice QCD simulation; massively parallel supercomputer; peta-scale lattice quantum chromodynamics; single instruction multiple data; Blue Gene; Lattice QCD; SIMD;
Conference_Titel :
High Performance Computing, Networking, Storage and Analysis (SC), 2012 International Conference for
Conference_Location :
Salt Lake City, UT
Print_ISBN :
978-1-4673-0805-2
