We explore the opportunities offered by current and forthcoming VLSI technologies to on-chip multiprocessing for Quantum Chromo Dynamics (QCD), a computational grand challenge for which over half a dozen specialized machines have been developed over the last two decades. Based on a careful study of the information exchange requirements of QCD both across the network and within the memory system, we derive the optimal partition of die area between storage and functional units. We show that a scalable chip organization holds the promise to deliver from hundreds to thousands flop per cycle as VLSI feature size scales down from 90 nm to 20 nm, over the next dozen years
I am going to highlight recent progress in cluster computer technology and to assess status and pros...
The study of Quantum Chromodynamics (QCD) remains one of the most challenging topics in elementary p...
Abstract—Graphics Processing Units (GPUs) are having a transformational effect on numerical lattice ...
We explore the opportunities offered by current and forthcoming VLSI technologies to on-chip multipr...
We try to establish some elementary scaling laws of performance and price-performance ratio, in ord...
Numerical simulations of theories describing the interaction of elementary particles are a key appr...
17 pages. Plenary talk presented at Lattice 2017, the 35th International Symposium on Lattice Field ...
Quantum computing promises to speed up scientific and computationally intensive operations. However,...
With continuous breakthroughs in quantum science and technology in recent years, the development of ...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
The QCDSP and QCDOC computers are two generations of multithousand-node multidimensional mesh-based ...
Large-scale simulations of Quantum Chromodynamics (QCD) which were performed on different parallel h...
Quantum computing (QC) offers huge promise to accelerate a range of computationally intensive benchm...
International audienceComplementary metal-oxide semiconductor (CMOS) technology has radically reshap...
A status report is given of the QCDOC project, a massively parallel computer optimized for lattice Q...
I am going to highlight recent progress in cluster computer technology and to assess status and pros...
The study of Quantum Chromodynamics (QCD) remains one of the most challenging topics in elementary p...
Abstract—Graphics Processing Units (GPUs) are having a transformational effect on numerical lattice ...
We explore the opportunities offered by current and forthcoming VLSI technologies to on-chip multipr...
We try to establish some elementary scaling laws of performance and price-performance ratio, in ord...
Numerical simulations of theories describing the interaction of elementary particles are a key appr...
17 pages. Plenary talk presented at Lattice 2017, the 35th International Symposium on Lattice Field ...
Quantum computing promises to speed up scientific and computationally intensive operations. However,...
With continuous breakthroughs in quantum science and technology in recent years, the development of ...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
The QCDSP and QCDOC computers are two generations of multithousand-node multidimensional mesh-based ...
Large-scale simulations of Quantum Chromodynamics (QCD) which were performed on different parallel h...
Quantum computing (QC) offers huge promise to accelerate a range of computationally intensive benchm...
International audienceComplementary metal-oxide semiconductor (CMOS) technology has radically reshap...
A status report is given of the QCDOC project, a massively parallel computer optimized for lattice Q...
I am going to highlight recent progress in cluster computer technology and to assess status and pros...
The study of Quantum Chromodynamics (QCD) remains one of the most challenging topics in elementary p...
Abstract—Graphics Processing Units (GPUs) are having a transformational effect on numerical lattice ...