User:Zxiao2/sandbox

This is the user sandbox of Zxiao2. A user sandbox is a subpage of the user's user page. It serves as a testing spot and page development space for the user and is not an encyclopedia article. Create or edit your own sandbox here. Other sandboxes: Main sandbox | Template sandbox Finished writing a draft article? Are you ready to request review of it by an experienced editor for possible inclusion in Wikipedia? Submit your draft for review!

Diagram of a 3-dimensional torus interconnect. It is not limited to 8 nodes but can consist of any number of nodes in a similar rectilinear array.

A torus interconnect is a network topology for connecting processing nodes in a parallel computer system. It can be visualized as a mesh interconnect with nodes arranged in a rectilinear array of N = 2, 3, or more dimensions, with processors connected to their nearest neighbors, and corresponding processors on opposite edges of the array connected.^[1] The lattice has the topology of an N-dimensional torus and each node has 2N connections.

A number of supercomputers on the TOP500 list use three-dimensional torus networks, e.g. IBM's Blue Gene/L and Blue Gene/P, and the Cray XT3.^[2] IBM's Blue Gene/Q uses a five-dimensional torus network. Fujitsu's K computer and the PRIMEHPC FX10 use a proprietary six-dimensional torus interconnect called Tofu.^[3]

Visualization

• In a two-dimensional torus interconnect, the nodes are imagined laid out in a two-dimensional rectangular lattice of rows and columns, with each node connected to its 4 nearest neighbors, and corresponding nodes on opposite edges connected. The connection of opposite edges can be visualized by rolling the rectangular array into a "tube" to connect two opposite edges and then bending the "tube" into a torus to connect the other two.
• In a three-dimensional torus interconnect the nodes are imagined in a three-dimensional lattice in the shape of a rectangular prism, with each node connected with its 6 neighbors, with corresponding nodes on opposing faces of the array connected.

Higher-dimensional arrays can't be directly visualized, but each higher dimension adds another pair of nearest neighbor connections to each node.

While long wrap-around links may be the easiest way to visualize the connection topology, in practice, restrictions on cable lengths often make long wrap-around links impractical. Instead, directly connected nodes -- including nodes that the above visualization places on opposite edges of a grid, connected by a long wrap-around link -- are physically placed nearly adjacent to each other in a folded torus network.^[4][5][6] Every link in the folded torus network is very short -- almost as short as the nearest-neighbor links in a simple grid interconnect -- and therefore low-latency.^[7]

See also

• Computer cluster
• Heartbeat private network
• Switched fabric

References

1. Industrial Strength Parallel Computing by Alice E. Koniges 1999 ISBN 1-55860-540-1 page 16
2. N. R. Agida et al. 2005 Blue Gene/L Torus Interconnection Network, IBM Journal of Research and Development, Vol 45, No 2/3 March–May 2005 page 265 [1]
3. Fujitsu Unveils Post-K Supercomputer HPC Wire Nov 7 2011
4. Cray Inc. "The Gemini Network". 2010. p. 13.
5. "Small-World Torus Topology".
6. Pavel Tvrdik. "Topics in parallel computing: Embeddings and simulations of INs: Optimal embedding of tori into meshes".
7. "The 3D Torus architecture and the Eurotech approach".

Category:Supercomputers

Algolia

Company type	Private
Industry	Software Information Technology Search Engines
Genre	Search and index
Founders	Nicolas Dessaigne, Julien Lemoine
Headquarters	San Francisco, California , U.S.
Area served	Worldwide
Key people	Nicolas Dessaigne (CEO), Julien Lemoine (CTO)
Services	real-time search
Number of employees	53
Website	Algolia.com
Footnotes / references Crunchbase Official Website

Algolia is a U.S. startup company offering a web search product through a SaaS (software as a service) model.

Company

Algolia was founded in 2012 by Nicholas Dessainge and Julien Lemoine, whom are originally from Paris, France. cite It was originally a company focused on offline search on mobile phones. Later it was selected to be part of Y Combinator's^[1] Winter 2014 class.

Starting with two data centres in Europe and the US, Algolia opened a third centre in Singapore in March 2014.^[2] and has now expanded to 47 locations across 15 worldwide regions.^[3] And it serves over 1,600 customers, handling 12 billion user queries per month. ^[2] Those customers are among ecommerce, meduim and other fields, including DC Shoes, Medium and vevo. ^[4]In May 2015, Algolia received 18.3 million dollars in a series A investment from a finantial froup led by Accel Partners^[5]. Since June 2016, the usage of Algolia by small websites is increasing profoundly. ^[6]

Products and Services

The Algolia model provides search as a service, offering web search across a client's website using an externally hosted search engine.http://stackshare.io/posts/how-algolia-built-their-realtime-search-as-a-service-product^[7][8]Although in-site search has long been available from general web search providers such as Google, this is typically done as a subset of general web searching. The search engine crawls or spiders the web at large, including the client site, and then offers search features restricted to only that target site. This is a large and complex task, available only to large organisations at the scale of Google or Microsoft.

Algolia's product only indexes their clients' sites and so the search task is far simpler. Data for the client site is pushed from the client to Algolia via a RESTful JSON API,^[9] then the search box is added simply to the client's web pages.^[10] This search model is intended to give the performance and sophistication advantages of a full in-house search engine operating on the native web site back-end database, but with the simplicity of setup of using a site-restricted Google search.

Products

Algolia claim a number of advantages for their approach,^[11] including speed of response from searching a single site rather than the entire web^[12]. Moreover, as Algolia's search can be tailored to the client site, its known structure and its metadata facets, the search offered can be smarter and more site-specific than a generalised web text search. This improves the relevance of search results as searching may take the semantics of site content into account. A web site selling both puppies and dog clutches could avoid the search confusions and homonymy that bedevil the simple text-based search approaches.

Algolia emphasize on their ability to provide instantaneous, multi-platform and typo-tolerant features. Though Algolia's software is closed source, they engage in open source community to an extend. Some new and interesting products emerge from their community port ^[13]. Two examples are Algolia Place and Algolia Document.^[14] and in document search^[15].

API

Algolia provide their search service via various APIs^[16], the Rest API provides basic features of search, analysis and monitoring. There are 10 supported languages and platforms for client usage. Supported languages include Python, Ruby, PHP, JavaScript, Java, Go, C#, Scala. And 2 mobile platforms iOS, Android are also supported. For better web usage, Algolia can be also intergrated with 4 frameworks, Rails, Symphony, Django and Laravel. For user interface, Algolia has a few UI libraries options to choose from.

Besides these products, Algolia also has integration with various other open source and thrid party software, including wordpress, Magento and Woo Com. ^[17]

Infrastructure

Algolia documented an attempt to remove any single point of failure in the architecture and proposed a worldwide infrastructure called Distributed Search Network to efficiently reply to a search query from any location.^[18]

The DSN feature allows to set the locations in Algolia's network where the data should be duplicated. The API and queries are routed from the end-user’s browser or mobile application to the closest location in the network. This set up reduces latency for end users and improves availability for searches.

Competitors

• Swiftype^[1]
• Amazon AWS Cloud Search
• Solr
• Azure Search
• Elasticsearch
• Searchify
• Qbox

References

1. Romain Dillet (21 January 2014). "Algolia Provides 'Spotlight' For The Web With Its Turbocharged Real-Time Search API". techcrunch.com.
2. Romain Dillet (21 March 2014). "Algolia Adds Asian Data Center While Taking Over Search On The Web". techcrunch.com. Cite error: The named reference "Techcrunch, Mar 2014" was defined multiple times with different content (see the help page).
3. "Algolia's website". algolia.com. 11 September 2016.
4. "About Algolia". algolia.com. 11 September 2016.
5. "Algolia Raises $18.3M Series A Investment Led by Accel Partners". builtwith.com. 11 September 2016.
6. "Algolia Usage Statistics". builtwith.com. 11 September 2016.
7. Leanstack (March 23, 2014). "How Algolia Built Their Realtime Search as a Service Product". thenewstack.io.
8. Josiah Motley (July 29, 2016). "Interview with the CEO of search powerhouse, Algolia". vator.tv.
9. "REST API". algolia.com.
10. "How it works". algolia.com.
11. "How Algolia Built Their Realtime Search as a Service Product". leanstack.io. 23 March 2014.
12. "High Performance". algolia.com.
13. "Algolia Geo-Search". algolia.com. 11 September 2015.
14. Susan Hall (1 Jul 2016). "Algolia Takes In-App Search to New Places". thenewstack.io.
15. "Algolia DocSearch". github.com. 11 September 2015.
16. "Github". builtwith.com. 11 September 2016.
17. "Algolia API". algolia.com. 11 September 2015.
18. Julien Lemoine (13 August 2015). "Algolia's Fury Road To A Worldwide API". medium.com.

External links

Official website

Category:Internet search engines Category:Semantic Web Category:Y Combinator companies Category:Online companies