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・ P24
・ P24 capsid protein
・ P25 ISSI
・ P250
・ P26
・ P264
・ P27
・ P27 cis-regulatory element
・ P28
・ P29
・ P2CS
・ P2i
・ P2likevirus
・ P2P
・ P2P asset management
P2P caching
・ P2P Foundation
・ P2P Global Investments
・ P2P Universal Computing Consortium
・ P2pnet
・ P2PRIV
・ P2PSP
・ P2PTV
・ P2RX1
・ P2RX2
・ P2RX3
・ P2RX4
・ P2RX5
・ P2RX6
・ P2RX7


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P2P caching : ウィキペディア英語版
Peer-to-peer caching (P2P caching) is a computer network traffic management technology used by Internet Service Providers (ISPs) to accelerate content delivered over peer-to-peer (P2P) networks while reducing related bandwidth costs.P2P caching is similar in principle to the content caching long used by ISPs to accelerate Web (HTTP) content. P2P caching temporarily stores popular content that is flowing into an ISP’s network. If the content requested by a subscriber is available from a cache, the cache satisfies the request from its temporary storage, eliminating data transfer through expensive transit links and reducing network congestion. This approach could make ISPs violate laws as P2P systems share files that infringe copyrights in significant portions.P2P content responds well to caching because it has high reuse patterns reflecting a Zipf's-like distribution. P2P communities have different Zipf's parameters which determine what fraction of files is requested multiple times. For example, one P2P community may request 75% of content multiple times while another may request only 10%.Some P2P caching devices can also accelerate HTTP video streaming traffic from YouTube, Facebook, RapidShare, MegaUpload, Google, AOL Video, MySpace and other web video-sharing sites.http://www.peerapp.com/Technology/VideoCaching.aspx== How P2P caching works ==P2P caching involves creating a cache or temporary storage space for P2P data, using specialized communications hardware, disk storage and associated software. This cache is placed in the ISP’s network, either co-located with the Internet transit links or placed at key aggregation points or at each cable head-end.Once a P2P cache is established, the network will transparently redirect P2P traffic to the cache, which either serves the file directly or passes the request on to a remote P2P user and simultaneously caches that data for the next user. To what extent the caching is beneficial depends on how similar the content interests of ISP's customers. Due to relatively small number of content shared in P2P systems (compared to Web) and semantic, geographic, and organization interests of users sharing ratio in P2P can be significantly higher than HTTP/Web caching.P2P caching typically works with a network traffic-mitigation technology called Deep Packet Inspection (DPI). DPI technology is used by service providers to understand what traffic is running across their networks and to separate it and treat it for the most efficient delivery. DPI products identify and pass P2P packets to the P2P caching system so it can cache the traffic and accelerate it.Peerapp Ltd. holds the first patent ( U.S Patent Number 7,203,741 B2 ) for P2P caching technology, which was filed in 2000.
Peer-to-peer caching (P2P caching) is a computer network traffic management technology used by Internet Service Providers (ISPs) to accelerate content delivered over peer-to-peer (P2P) networks while reducing related bandwidth costs.
P2P caching is similar in principle to the content caching long used by ISPs to accelerate Web (HTTP) content. P2P caching temporarily stores popular content that is flowing into an ISP’s network. If the content requested by a subscriber is available from a cache, the cache satisfies the request from its temporary storage, eliminating data transfer through expensive transit links and reducing network congestion. This approach could make ISPs violate laws as P2P systems share files that infringe copyrights in significant portions.
P2P content responds well to caching because it has high reuse patterns reflecting a Zipf's-like distribution. P2P communities have different Zipf's parameters〔 which determine what fraction of files is requested multiple times. For example, one P2P community may request 75% of content multiple times while another may request only 10%.
Some P2P caching devices can also accelerate HTTP video streaming traffic from YouTube, Facebook, RapidShare, MegaUpload, Google, AOL Video, MySpace and other web video-sharing sites.〔http://www.peerapp.com/Technology/VideoCaching.aspx〕
== How P2P caching works ==

P2P caching involves creating a cache or temporary storage space for P2P data, using specialized communications hardware, disk storage and associated software. This cache is placed in the ISP’s network, either co-located with the Internet transit links or placed at key aggregation points or at each cable head-end.
Once a P2P cache is established, the network will transparently redirect P2P traffic to the cache, which either serves the file directly or passes the request on to a remote P2P user and simultaneously caches that data for the next user. To what extent the caching is beneficial depends on how similar the content interests of ISP's customers. Due to relatively small number of content shared in P2P systems (compared to Web) and semantic, geographic, and organization interests of users〔 sharing ratio in P2P can be significantly higher than HTTP/Web caching.
P2P caching typically works with a network traffic-mitigation technology called Deep Packet Inspection (DPI). DPI technology is used by service providers to understand what traffic is running across their networks and to separate it and treat it for the most efficient delivery. DPI products identify and pass P2P packets to the P2P caching system so it can cache the traffic and accelerate it.
Peerapp Ltd. holds the first patent 〔( U.S Patent Number 7,203,741 B2 )〕 for P2P caching technology, which was filed in 2000.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアでPeer-to-peer caching (P2P caching) is a computer network traffic management technology used by Internet Service Providers (ISPs) to accelerate content delivered over peer-to-peer (P2P) networks while reducing related bandwidth costs.P2P caching is similar in principle to the content caching long used by ISPs to accelerate Web (HTTP) content. P2P caching temporarily stores popular content that is flowing into an ISP’s network. If the content requested by a subscriber is available from a cache, the cache satisfies the request from its temporary storage, eliminating data transfer through expensive transit links and reducing network congestion. This approach could make ISPs violate laws as P2P systems share files that infringe copyrights in significant portions.P2P content responds well to caching because it has high reuse patterns reflecting a Zipf's-like distribution. P2P communities have different Zipf's parameters which determine what fraction of files is requested multiple times. For example, one P2P community may request 75% of content multiple times while another may request only 10%.Some P2P caching devices can also accelerate HTTP video streaming traffic from YouTube, Facebook, RapidShare, MegaUpload, Google, AOL Video, MySpace and other web video-sharing sites.http://www.peerapp.com/Technology/VideoCaching.aspx== How P2P caching works ==P2P caching involves creating a cache or temporary storage space for P2P data, using specialized communications hardware, disk storage and associated software. This cache is placed in the ISP’s network, either co-located with the Internet transit links or placed at key aggregation points or at each cable head-end.Once a P2P cache is established, the network will transparently redirect P2P traffic to the cache, which either serves the file directly or passes the request on to a remote P2P user and simultaneously caches that data for the next user. To what extent the caching is beneficial depends on how similar the content interests of ISP's customers. Due to relatively small number of content shared in P2P systems (compared to Web) and semantic, geographic, and organization interests of users sharing ratio in P2P can be significantly higher than HTTP/Web caching.P2P caching typically works with a network traffic-mitigation technology called Deep Packet Inspection (DPI). DPI technology is used by service providers to understand what traffic is running across their networks and to separate it and treat it for the most efficient delivery. DPI products identify and pass P2P packets to the P2P caching system so it can cache the traffic and accelerate it.Peerapp Ltd. holds the first patent ( U.S Patent Number 7,203,741 B2 ) for P2P caching technology, which was filed in 2000.」の詳細全文を読む



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