The continuous improvements offered by the silicon technology enables the integration of always increasing number of cores on a single chip. Following this trend, it is expected to approach microprocessor architectures composed of thousands of cores (i.e., kilo-core architectures) in the next future. To cope with the increasing demand for high performance systems, many-core designs rely on integrated network-on-chips to deliver the correct bandwidth and latency for the inter-core communications. In this context, simulation tools represent a crucial factor for designing architectures at such scale of integration. The efficient simulation of the interconnection network along with the overall architecture (i.e., cores, cache memories, accelera...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
Abstract—Emerging massively parallel architectures such as a general-purpose processor plus many-cor...
The continuous improvements offered by the silicon technology enables the integration of always incr...
The continuos improvements offered by the silicon technology make possible the integration of always...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
Computer architects extensively use simulation to steer future processor research and development. S...
Architectural simulation is time-consuming, and the trend towards hundreds of cores is making sequen...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
Simulators are very important in computer architecture research as they enable the exploration of ne...
In this paper we present MCoreSim, an open-source simulation framework for massively parallel and ma...
......The current industrial trend to-ward large multicore processors with multi-ple tens or hundred...
—Emerging massively parallel architectures such as a general-purpose processor plus many-core progra...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
Abstract—Emerging massively parallel architectures such as a general-purpose processor plus many-cor...
The continuous improvements offered by the silicon technology enables the integration of always incr...
The continuos improvements offered by the silicon technology make possible the integration of always...
As deep sub-micron technologies advance, architectures of microprocessors have evolved from traditio...
Computer architects extensively use simulation to steer future processor research and development. S...
Architectural simulation is time-consuming, and the trend towards hundreds of cores is making sequen...
Industry trends indicate that many-core heterogeneous processors will be the next-generation answer ...
Simulators are very important in computer architecture research as they enable the exploration of ne...
In this paper we present MCoreSim, an open-source simulation framework for massively parallel and ma...
......The current industrial trend to-ward large multicore processors with multi-ple tens or hundred...
—Emerging massively parallel architectures such as a general-purpose processor plus many-core progra...
Today, even the simplest laptop processor has at least four cores and a graphics card containing ten...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
Abstract—Emerging massively parallel architectures such as a general-purpose processor plus many-cor...