ABSTRACT. BlueGene/P (BG/P) is the second generation BlueGene architecture from IBM, succeeding BlueGene/L (BG/L). BG/P is a system-on-a-chip (SoC) design that uses four PowerPC 450 cores operating at 850 MHz with a double precision, dual pipe floating point unit per core. These chips are connected with multiple interconnection networks including a 3-D torus, a global collective network, and a global barrier network. The design is intended to provide a highly scalable, physically dense system with relatively low power requirements per flop. In this paper, we report on our examination of BG/P, presented in the context of a set of important scientific applications, and as compared to other major large scale supercomputers in use today. Our in...
Abstract. The Blue Gene/Q (BG/Q) system is the third generation in the IBM Blue Gene line of massive...
In this paper, we present a light-weight, micro–kernel-based virtual machine monitor (VMM) for the B...
Abstract. The BlueGene/L supercoputer, with 65,536 dual-processor compute nodes, was designed from t...
ABSTRACT. BlueGene/P (BG/P) is the second generation BlueGene architecture from IBM, succeeding Blue...
supercomputer As 1999 ended, IBM announced its intention to construct a onepetaflop supercomputer. T...
A scientific background on proteins and molecular dynamics precedes a technical description of the D...
Document briefly describes the project and the Blue Gene supercomputers, Blue Gene/L, Blue Gene/P an...
Operating Systems have been considered as a cor-nerstone of the modern computer system, and the con-...
Abstract—In addition to pushing what is possible computa-tionally, state-of-the-art supercomputers a...
The BlueGene/L supercomputer will use system-on-a-chip integration and a highly scalable cellular ar...
Abstract. The Blue Gene/L supercomputer will use system-on-a-chip integration and a highly scalable ...
In earlier work, we showed that the one-sided communication model found in PGAS languages (such as U...
BlueGene/L (BG/L), developed through a partnership between IBM and Lawrence Livermore National Labor...
Abstract: This paper gives an overview of the BlueGene/L Supercomputer. This is a jointly funded res...
Traditionaly, the primary role of supercomputers was to create data, primarily for simulation appl...
Abstract. The Blue Gene/Q (BG/Q) system is the third generation in the IBM Blue Gene line of massive...
In this paper, we present a light-weight, micro–kernel-based virtual machine monitor (VMM) for the B...
Abstract. The BlueGene/L supercoputer, with 65,536 dual-processor compute nodes, was designed from t...
ABSTRACT. BlueGene/P (BG/P) is the second generation BlueGene architecture from IBM, succeeding Blue...
supercomputer As 1999 ended, IBM announced its intention to construct a onepetaflop supercomputer. T...
A scientific background on proteins and molecular dynamics precedes a technical description of the D...
Document briefly describes the project and the Blue Gene supercomputers, Blue Gene/L, Blue Gene/P an...
Operating Systems have been considered as a cor-nerstone of the modern computer system, and the con-...
Abstract—In addition to pushing what is possible computa-tionally, state-of-the-art supercomputers a...
The BlueGene/L supercomputer will use system-on-a-chip integration and a highly scalable cellular ar...
Abstract. The Blue Gene/L supercomputer will use system-on-a-chip integration and a highly scalable ...
In earlier work, we showed that the one-sided communication model found in PGAS languages (such as U...
BlueGene/L (BG/L), developed through a partnership between IBM and Lawrence Livermore National Labor...
Abstract: This paper gives an overview of the BlueGene/L Supercomputer. This is a jointly funded res...
Traditionaly, the primary role of supercomputers was to create data, primarily for simulation appl...
Abstract. The Blue Gene/Q (BG/Q) system is the third generation in the IBM Blue Gene line of massive...
In this paper, we present a light-weight, micro–kernel-based virtual machine monitor (VMM) for the B...
Abstract. The BlueGene/L supercoputer, with 65,536 dual-processor compute nodes, was designed from t...