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{{Third-party|date=July 2012}} |
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[[Image:Cray CX1000-SM Server Node.jpg|thumb|right|Angled front view of the Cray CX1000-SM Server node]] |
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The '''Cray CX1000''' is a family of high-performance computers which is manufactured by [[Cray Inc.]],and consists of two individual groups of computer systems. The first group is intended for [[scale-up]] [[ |
The '''Cray CX1000''' is a family of high-performance computers which is manufactured by [[Cray Inc.]], and consists of two individual groups of computer systems. The first group is intended for [[Scalability|scale-up]] [[symmetric multiprocessing]] (SMP), and consists of the CX1000-SM and CX1000-SC nodes. The second group is meant for [[scale-out]] [[cluster computing]], and consists of the CX1000 [[Blade server|Blade Enclosure]], and the CX1000-HN, CX1000-C and CX1000-G nodes. |
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The CX1000 line |
The CX1000 line sits between Cray's entry-level CX-1 Personal Supercomputer range and Cray's high-end XT-series supercomputers.<ref>{{cite web|last=Morgan|first=Timothy Prickett|title=Cray's midrange line big on Xeons, GPUs|url=https://www.theregister.co.uk/2010/03/23/cray_midrange_super/print.html|work=[[The Register]]|accessdate=September 1, 2010|date=March 23, 2010}}</ref> |
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== CX1000 |
== CX1000 scale-up symmetric multiprocessing nodes == |
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[[Image:Cray CX1000-SC Server Node.JPG|thumb|right|Cray CX1000-SC Server Node, with the characteristic "building-block" L-shape clearly visible.]] |
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The CX1000-SM and CX1000-SC nodes can be used for cluster computing, but they are designed for scale-up Symmetric Multi-Processing (SMP). When used for cluster computing, the CX1000-SM node is intended to be the master (service) node, although it can instead be a compute node. Similarly, the CX1000-SC node, when used for cluster computing, is intended to be a compute node, but can instead act as the master (service) node. Either or both the CX1000-SC and/or CX1000-SM nodes can be deployed in a [[HPC]] cluster. |
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The CX1000-SM and CX1000-SC nodes, when used for SMP, are connected by a cache-coherency interconnect which is a built-in subassembly of the CX1000-SM and CX1000-SC nodes, rather than a standalone device, and is called the ''Drawer Interconnect Switch'' in Cray literature. The Drawer Interconnect Switch uses the [[Intel QuickPath Interconnect]] technology. |
The CX1000-SM and CX1000-SC nodes can be used for cluster computing, but they are designed for scale-up Symmetric Multi-Processing (SMP). When used for cluster computing, the CX1000-SM node is intended to be the ''master (service)'' node, although it can instead be a ''compute'' node. Similarly, the CX1000-SC node, when used for cluster computing, is intended to be a compute node, but can instead act as the master (service) node. Either or both the CX1000-SC and/or CX1000-SM nodes can be deployed in a [[High-performance computing|HPC]] cluster. The CX1000-SM and CX1000-SC nodes, when used for SMP, are connected by a cache-coherency interconnect which is a built-in subassembly of the CX1000-SM and CX1000-SC nodes, rather than a standalone device, and is called the ''Drawer Interconnect Switch'' in Cray literature. The Drawer Interconnect Switch uses the [[Intel QuickPath Interconnect]] technology. |
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== CX1000 |
== CX1000 scale-out cluster computing nodes == |
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[[Image:Cray CX1000-C Blade Enclosure.jpg|thumb|right|CX1000 Blade Enclosure populated with eighteen CX1000-C Compute Nodes. The Local Control Panel is the rectangular object with a blue screen and the Cray logo below the screen. The two shorter blades just below the Local Control Panel are the Fan Blades.]] |
[[Image:Cray CX1000-C Blade Enclosure.jpg|thumb|right|CX1000 Blade Enclosure populated with eighteen CX1000-C Compute Nodes. The Local Control Panel is the rectangular object with a blue screen and the Cray logo below the screen. The two shorter blades just below the Local Control Panel are the Fan Blades.]] |
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The CX1000 [[scale-out]] [[cluster computing]] group of systems consists of the CX1000 [[Blade server|Blade Enclosure]], CX1000-C compute Node, |
The CX1000 [[scale-out]] [[cluster computing]] group of systems consists of the CX1000 [[Blade server|Blade Enclosure]], CX1000-C compute Node, CX1000-G [[GPU cluster|GPU]] Node and CX1000-HN Management Node. Unlike the CX1000-SM and CX1000-SC nodes, these nodes cannot be used for scale-up SMP, as they were designed without a cache-coherency capability. The CX1000-C and CX1000-G nodes both have blade form factors, and the CX1000-HN node is a rackmount 2U [[Server (computing)|Server]]. The CX1000-HN is intended to act as the head (service) node in an HPC cluster, with CX1000-C and/or CX1000-G compute nodes. |
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==References== |
==References== |
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==External links== |
==External links== |
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* [http://www.cray.com/Products/CX1000/Chassis.aspx Cray CX1000 product |
* [https://web.archive.org/web/20100804061441/http://www.cray.com/Products/CX1000/Chassis.aspx Cray CX1000 product-homepage] |
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* [https://web.archive.org/web/20100924022458/http://cray.com/Assets/PDF/products/cx1000/CrayCX1000.pdf Cray CX1000 Family Brochure] |
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** [https://web.archive.org/web/20101006204319/http://cray.com/Assets/PDF/products/cx1000/CX1000-C.pdf Cray CX1000-C Enclosure Datasheet] |
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** [https://web.archive.org/web/20101006134729/http://cray.com/Assets/PDF/products/cx1000/CX1000-G.pdf Cray CX1000-G Enclosure Datasheet] |
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** [https://web.archive.org/web/20101006202427/http://cray.com/Assets/PDF/products/cx1000/CX1000-HN.pdf Cray CX1000-HN Server Datasheet] |
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** [https://web.archive.org/web/20101006194152/http://cray.com/Assets/PDF/products/cx1000/CX1000-SM.pdf Cray CX1000-SM Server Datasheet] |
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** [https://web.archive.org/web/20101006193744/http://cray.com/Assets/PDF/products/cx1000/CX1000-SC.pdf Cray CX1000-SC Server Datasheet] |
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** [https://web.archive.org/web/20101006091111/http://cray.com/Assets/PDF/products/CX1/CrayClusterManager.pdf Cray Cluster Manager Software Brochure] |
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** [https://web.archive.org/web/20100831094351/http://www.cray.com/Assets/Videos/CX1000-intro/ Cray CX1000 System Introduction Video] |
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{{Cray computers}} |
{{Cray computers}} |
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[[Category:Cray products|Cx1000]] |
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{{Uncategorized|date=September 2010}} |
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[[Category:Supercomputers]] |
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Latest revision as of 05:03, 4 December 2020
 | This article may rely excessively on sources too closely associated with the subject, potentially preventing the article from being verifiable and neutral. (July 2012) |
The Cray CX1000 is a family of high-performance computers which is manufactured by Cray Inc., and consists of two individual groups of computer systems. The first group is intended for scale-up symmetric multiprocessing (SMP), and consists of the CX1000-SM and CX1000-SC nodes. The second group is meant for scale-out cluster computing, and consists of the CX1000 Blade Enclosure, and the CX1000-HN, CX1000-C and CX1000-G nodes.
The CX1000 line sits between Cray's entry-level CX-1 Personal Supercomputer range and Cray's high-end XT-series supercomputers.[1]
CX1000 scale-up symmetric multiprocessing nodes[edit]
The CX1000-SM and CX1000-SC nodes can be used for cluster computing, but they are designed for scale-up Symmetric Multi-Processing (SMP). When used for cluster computing, the CX1000-SM node is intended to be the master (service) node, although it can instead be a compute node. Similarly, the CX1000-SC node, when used for cluster computing, is intended to be a compute node, but can instead act as the master (service) node. Either or both the CX1000-SC and/or CX1000-SM nodes can be deployed in a HPC cluster. The CX1000-SM and CX1000-SC nodes, when used for SMP, are connected by a cache-coherency interconnect which is a built-in subassembly of the CX1000-SM and CX1000-SC nodes, rather than a standalone device, and is called the Drawer Interconnect Switch in Cray literature. The Drawer Interconnect Switch uses the Intel QuickPath Interconnect technology.
CX1000 scale-out cluster computing nodes[edit]
The CX1000 scale-out cluster computing group of systems consists of the CX1000 Blade Enclosure, CX1000-C compute Node, CX1000-G GPU Node and CX1000-HN Management Node. Unlike the CX1000-SM and CX1000-SC nodes, these nodes cannot be used for scale-up SMP, as they were designed without a cache-coherency capability. The CX1000-C and CX1000-G nodes both have blade form factors, and the CX1000-HN node is a rackmount 2U Server. The CX1000-HN is intended to act as the head (service) node in an HPC cluster, with CX1000-C and/or CX1000-G compute nodes.
References[edit]
- ^ Morgan, Timothy Prickett (March 23, 2010). "Cray's midrange line big on Xeons, GPUs". The Register. Retrieved September 1, 2010.
External links[edit]
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