NESL: A Nested Data-Parallel Language (Version 2.6)
NESL: A Nested Data-Parallel Language (Version 2.6)
Proceedings of the 2006 ACM/IEEE conference on Supercomputing
Future generation supercomputers I: a paradigm for node architecture
ACM SIGARCH Computer Architecture News - Special issue: ALPS '07---advanced low power systems
Capacity limits of MIMO channels
IEEE Journal on Selected Areas in Communications
Future generation supercomputers I: a paradigm for node architecture
ACM SIGARCH Computer Architecture News - Special issue: ALPS '07---advanced low power systems
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In part-I, a novel multi-core node architecture was proposed which when employed in a cluster environment would be capable of tackling computational complexity associated with wide class of applications. Furthermore, it was discussed that by appropriately scaling the architectural specifications, Teraops computing power could be achieved at the node level. In order to harness the computational power of such a node, we have developed an efficient application execution model with a competent cluster architectural backbone. In this paper we present the novel cluster paradigm, dealing with operating system design, parallel programming model and cluster interconnection network. Our approach in developing the competent cluster design revolves around an execution model to aid the execution of multiple applications simultaneously on all partitions of the cluster, leading to cost sharing across applications. This would be a major initiative towards achieving Cost-Effective Supercomputing.