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Computer Architecture in the Many-Core Era

2006 International Conference on Computer Design, 2006
We are rapidly moving into an era when microprocessors (and SoCs) will have 10s of processors on a single die. In this "many-core" era, we are less concerned with the architecture of individual processors and more concerned with how they are tied together.
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Shared Memory in the Many-Core Age

2014
With the evolution toward fast networks of many-core processors, the design assumptions at the basis of software-level distributed shared memory (DSM) systems change considerably. But efficient DSMs are needed because they can significantly simplify the implementation of complex distributed algorithms. This paper discusses implications of the many-core
Stefan Nürnberger   +4 more
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Logical Partitions on Many-Core Platforms

Proceedings of the 31st Annual Computer Security Applications Conference, 2015
Cloud platforms that use logical partitions to allocate dedicated resources to VMs can benefit from small and therefore secure hypervisors. Many-core platforms, with their abundant resources, are an attractive basis to create and deploy logical partitions on a large scale.
Ramya Jayaram Masti   +4 more
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Distributed Fair Scheduling for Many-Cores

Proceedings of the 2016 Design, Automation & Test in Europe Conference & Exhibition (DATE), 2016
Transition of embedded processors from multi-cores to many-cores continues unabated. Many-cores execute tens of tasks in parallel and in some contexts, it is crucial that the processing cores are distributed fairly amongst the tasks. Traditional queue-based centralized fair schedulers designed for multi-cores will have excessive overhead on many-cores ...
Pathania, A.   +4 more
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Challenges and Opportunities in Many-Core Computing

Proceedings of the IEEE, 2008
In this paper, we present some of the challenges and opportunities in software development based on the current hardware trends and the impact of massive parallelism on both the software and hardware industry. We indicate some of the approaches that can enable software development to effectively exploit the many-core architectures.
John L. Manferdelli   +2 more
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Benchmarking SW26010 Many-Core Processor

2017 IEEE International Parallel and Distributed Processing Symposium Workshops (IPDPSW), 2017
Equipped with the Chinese home-grown SW26010 many-core processor, TaihuLight claims the top place in the TOP500 list released in June 2016. Although some large-scale applications have been successfully running on the supercomputer, few studies have been conducted to analyze the performance impact caused by the extreme memory-bound architecture design ...
Zhigeng Xu   +2 more
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Skeletons for multi/many-core systems

2010
We discuss how algorithmic skeletons (and structured parallel programming models in general) can be used to efficiently and seamlessly program multicore as well as many-core systems. We introduce a new version of the muskel skeleton library that can be used to target multi/many-core systems and we present experimental results that demonstrate the ...
Marco Aldinucci   +2 more
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Reconfigurable many-cores with lean interconnect

2008 International Conference on Field Programmable Logic and Applications, 2008
Two key research problems for emerging many-core architectures are the development of energy-efficient interconnects and, a tightly coupled issue, useful parallel programming models. The vast majority of current proposals advocates packed-switched networks on chip with dynamic routing.
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Risks and chances of many-core processors

2009 International Conference on High Performance Computing & Simulation, 2009
The decreasing structure size of VLSI technology features a lot of chances to processor designers but it also brings many risks [1]. Most of these risks stem from the manufacturing process and lead to an increased number of chips with defects which are uniformly distributed over the wafer. Other problems arise during the uptime of the system because of
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Cashmere: Heterogeneous Many-Core Computing

2015 IEEE International Parallel and Distributed Processing Symposium, 2015
New generations of many-core hardware become available frequently and are typically attractive extensions for data-centers because of power-consumption and performance benefits. As a result, supercomputers and clusters are becoming heterogeneous and start to contain a variety of many-core devices.
Pieter Hijma   +3 more
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