Today, even the simplest laptop processor has at least four cores and a graphics card containing tens of cores. It is not hard to find more performance- oriented processors with hundreds of cores, and it is expected to see processors with thousands of cores in the not very far future. In these and future processors, the design of the interconnection network between the cores and the memory subsystem is a key design aspect. Simple topologies like buses or rings provide great e fficiency, but do not scale as good as meshes once the number of cores increases. We explore the use of hierarchical network designs as an alternative, where diff erent topologies are stacked in a single network. The lowest layers use rings or buses, taking ad...
We present a constructive deterministic simulation of a PRAM with n processors and m = n^alpha; shar...
In this paper, we propose a packet-based, off-chip, multi-processor/memory simulation framework to m...
Instruction-level simulation is necessary to evaluate new ar-chitectures. However, single-node simul...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
Simulators are very important in computer architecture research as they enable the exploration of ne...
Parallel computing has long been an area of research interest because exploiting parallelism in diff...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
speedup As the scale of parallel machine grows, communication network is playing more important role...
The continuous improvements offered by the silicon technology enables the integration of always incr...
As chip multiprocessors accommodate a growing number of cores, they demand interconnection networks ...
In this paper, we introduce a novel modeling tech- nique to reduce the time associated with cycle-ac...
This thesis, presents a multiprocessor topology, the hierarchical network of hyper-cubes, which has ...
As on-chip interconnection network scales to integrate more processing elements, physical limitation...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
© 2021 IEEE.A viable solution to cope with the ever-increasing computation complexity of deep learni...
We present a constructive deterministic simulation of a PRAM with n processors and m = n^alpha; shar...
In this paper, we propose a packet-based, off-chip, multi-processor/memory simulation framework to m...
Instruction-level simulation is necessary to evaluate new ar-chitectures. However, single-node simul...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
Simulators are very important in computer architecture research as they enable the exploration of ne...
Parallel computing has long been an area of research interest because exploiting parallelism in diff...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
speedup As the scale of parallel machine grows, communication network is playing more important role...
The continuous improvements offered by the silicon technology enables the integration of always incr...
As chip multiprocessors accommodate a growing number of cores, they demand interconnection networks ...
In this paper, we introduce a novel modeling tech- nique to reduce the time associated with cycle-ac...
This thesis, presents a multiprocessor topology, the hierarchical network of hyper-cubes, which has ...
As on-chip interconnection network scales to integrate more processing elements, physical limitation...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
© 2021 IEEE.A viable solution to cope with the ever-increasing computation complexity of deep learni...
We present a constructive deterministic simulation of a PRAM with n processors and m = n^alpha; shar...
In this paper, we propose a packet-based, off-chip, multi-processor/memory simulation framework to m...
Instruction-level simulation is necessary to evaluate new ar-chitectures. However, single-node simul...