The rapid development of multi/manycore technologies offers the opportunity for highly parallel architectures implemented on a single chip. While the first, low-parallelism multicore products have been based on simple interconnection structures (single bus, very simple crossbar), the emerging highly parallel architectures will require complex, limited-degree interconnection networks. This thesis studies this trend according to the general theory of interconnection structures for parallel machines, and investigates some solutions in terms of performance, cost, fault-tolerance, and run-time support to shared-memory and/or message passing programming mechanisms
The increased amount of data handled by current information systems, coupled with the ever growing n...
Electronic system design is being revolutionized by the widespread adoption of the multi- and many-c...
none9siThere is today consensus on the fact that optical interconnects can relieve bandwidth density...
Ever since industry has turned to parallelism instead of frequency scaling to improve processor perf...
We address the gap between structured parallel programming and parallel architectures by formalizing...
Shared memory architectures are widely taking place. Following the structured parallel programming a...
Data movement has become a limiting factor in terms of performance, power consumption, and scalabili...
In this doctoral research, we propose several novel protocols and topologies for the interconnection...
This paper examines the performance of distributed-shared-memory systems based on the Simultaneous O...
The incredible growth in processing power and switching capacity in high-performance computers and s...
Speedups due to technological advances in solid state electronic design are reaching theoretical lim...
Multi-channel optical networks, although common in telecommunication applications, have only recentl...
Communication between processors and memories has always been a limiting factor in making efficient ...
In this paper, we describe the design and analysis of a scalable architecture suitable for large-sca...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
The increased amount of data handled by current information systems, coupled with the ever growing n...
Electronic system design is being revolutionized by the widespread adoption of the multi- and many-c...
none9siThere is today consensus on the fact that optical interconnects can relieve bandwidth density...
Ever since industry has turned to parallelism instead of frequency scaling to improve processor perf...
We address the gap between structured parallel programming and parallel architectures by formalizing...
Shared memory architectures are widely taking place. Following the structured parallel programming a...
Data movement has become a limiting factor in terms of performance, power consumption, and scalabili...
In this doctoral research, we propose several novel protocols and topologies for the interconnection...
This paper examines the performance of distributed-shared-memory systems based on the Simultaneous O...
The incredible growth in processing power and switching capacity in high-performance computers and s...
Speedups due to technological advances in solid state electronic design are reaching theoretical lim...
Multi-channel optical networks, although common in telecommunication applications, have only recentl...
Communication between processors and memories has always been a limiting factor in making efficient ...
In this paper, we describe the design and analysis of a scalable architecture suitable for large-sca...
In highly parallel computer systems, reconfigurable interconnect network topologies can improve the....
The increased amount of data handled by current information systems, coupled with the ever growing n...
Electronic system design is being revolutionized by the widespread adoption of the multi- and many-c...
none9siThere is today consensus on the fact that optical interconnects can relieve bandwidth density...