Difference between revisions of "Building Scalable Network Services"
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== Load Balancing ==
== Load Balancing ==
Revision as of 02:02, 28 October 2007
The human society has been entering a network-centered information era, in which users need access faster, more reliable and functional network services. The increasing popularity of the World Wide Web leads to an exponential growth in the Internet usage. More and more network sites have attracted traffic at an unprecedented scale, they often worry about how to scale up their systems over time to meet this increasing demand, and how their systems remain 24x7 available. Future applications will need higher throughput, interaction and security, which requires service platform provide more processing power and higher availability. Therefore, there is a need to provide a feasible framework and some design methodologies for constructing high-performance, highly scalable and highly available network services.
The general system architecture of scalable network service is illustrated in the following figure:
It includes multiple layers of components:
- Global load balancing is used to distribute traffic to the nearest and/or fastest response node at edge layer
- Edge layer can have geographically distributed cache clusters to speed up content delivery
- Application layer can web clusters to process different web logics
- Memory cache layer can be used to speed up access of persistent data from database
- Storage layer can have database cluster and file storage cluster to store different types of persistent data.
Persistent Data Layer
- LiveJournal's Backend: A history of scaling
- Wikimedia's (Cache) Network, http://www.nedworks.org/~mark/presentations/hd2006/
- Wikipedia network ideas, http://www.aulinx.de/oss/code/wikipedia/
- Scalable PHP with phpa, memcached and LVS (Part 1)
- Scalable PHP with APC, memcached and LVS (Part 2)
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