Difference between revisions of "Infrastructure"
(→Database Backend) |
(→The brain) |
||
(10 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
+ | [[File:OpenCellID server strukture.PNG|right|400px]] | ||
+ | {| width=998px | ||
+ | | | ||
==Servers== | ==Servers== | ||
− | + | ||
{| class="wikitable sortable" style="font-size: 85%; text-align: left;" | {| class="wikitable sortable" style="font-size: 85%; text-align: left;" | ||
|- | |- | ||
Line 55: | Line 58: | ||
===Frontend=== | ===Frontend=== | ||
− | * | + | *the web frontend uses Apache web server as a proxy for serving web requests to Tomcat |
+ | *the OpenCellID web application is running on Tomcat and is reading and writing cell measurement data to/from the MongoDB database backend | ||
+ | *jQuery Mobile is responsible for providing a cross-platform user interface | ||
+ | *the map is displayed using OpenStreetMap combined with Leaflet library | ||
− | + | ===Database Backend=== | |
+ | The OpenCellID backend uses Kafka queuing system in order to be able to handle periodic peaks. Kafka producers embedded into the web application send all incoming data to Kafka brokers. Kafka consumers pull data from brokers, process measurements and store them in MongoDB. | ||
− | + | The database backend, with a current 7 million cell towers and about 1.2 billion measurements (1.1.2015), is a MongoDB database cluster with six servers: | |
− | + | *three servers are serving as MongoDB configuration servers and Zookeeper instances | |
− | + | *the other three servers are serving as the database backend with one replication set spread across the three servers and Kafka brokers | |
− | + | ||
− | + | ||
− | The database backend, with a current | + | |
− | * | + | |
− | * | + | |
==Challenges and solutions== | ==Challenges and solutions== | ||
− | The OpenCellID community is very strong and | + | The OpenCellID community is very strong and continuously provides a high number of measurements.<br> |
This immediately poses a few challenges: | This immediately poses a few challenges: | ||
− | * High Volume<br>data arrives from many | + | *High Volume<br>data arrives from many different sources and is rapidly growing |
− | * Scale<br>growth of data should go along with predictable, incremental costs and no downtime should be needed when adding additional server resources | + | *Scale<br>growth of data should go along with predictable, incremental costs and no downtime should be needed when adding additional server resources |
− | * Data Processing<br> | + | *Data Processing<br>the analysis and process of the rapidly growing data must be constantly efficient |
− | The current solutions are based on | + | The current solutions are based on Kafka queuing system and MongoDB with its features:<br> |
* Native Analytics<br>using the integrated aggregation framework and Map/Reduce to calculate aggregates and analyses in place without the need of prior exporting data to other systems | * Native Analytics<br>using the integrated aggregation framework and Map/Reduce to calculate aggregates and analyses in place without the need of prior exporting data to other systems | ||
* Advanced Geo Queries<br>using geospatial MongoDB support to execute complex queries | * Advanced Geo Queries<br>using geospatial MongoDB support to execute complex queries | ||
* Horizontal Scaling<br>sharding makes it easy to scale applications horizontally on commodity hardware for accommodating constantly increased throughput | * Horizontal Scaling<br>sharding makes it easy to scale applications horizontally on commodity hardware for accommodating constantly increased throughput | ||
− | * Reduced Total Cost of Ownership (TCO)<br>as open-source storage MongoDB | + | * Reduced Total Cost of Ownership (TCO)<br>as open-source storage MongoDB and Kafka queuing system are a very cost-effective solution |
==The brain== | ==The brain== | ||
− | Krzysztof Ociepa (email: [email protected]) has designed the big-data infrastructure as well as the new OpenCellID server software based on Java and MongoDB, and has also implemented most of the current features after two other developers failed to do so. | + | Krzysztof Ociepa (email: [email protected]) has designed the big-data infrastructure as well as the new OpenCellID server software based on Java, Kafka queuing system and MongoDB, and has also implemented most of the current features after two other developers failed to do so. |
Details about the implemented software and infrastructure can be found above. | Details about the implemented software and infrastructure can be found above. | ||
− | There are plans to publish the entire server software as open source for stimulating the contribution of software features of other community members of the OpenCellID project. | + | There are plans to publish the entire server software as open source for stimulating the contribution of software features of other community members of the OpenCellID project. This will most likely happen before the end of 2015. |
− | + | |} |
Latest revision as of 19:02, 3 January 2015
ContentsServers
Software stackOperating SystemAll OpenCellID servers are running with Ubuntu Linux 12.04 LTS. Frontend
Database BackendThe OpenCellID backend uses Kafka queuing system in order to be able to handle periodic peaks. Kafka producers embedded into the web application send all incoming data to Kafka brokers. Kafka consumers pull data from brokers, process measurements and store them in MongoDB. The database backend, with a current 7 million cell towers and about 1.2 billion measurements (1.1.2015), is a MongoDB database cluster with six servers:
Challenges and solutionsThe OpenCellID community is very strong and continuously provides a high number of measurements.
The current solutions are based on Kafka queuing system and MongoDB with its features:
The brainKrzysztof Ociepa (email: [email protected]) has designed the big-data infrastructure as well as the new OpenCellID server software based on Java, Kafka queuing system and MongoDB, and has also implemented most of the current features after two other developers failed to do so. Details about the implemented software and infrastructure can be found above. There are plans to publish the entire server software as open source for stimulating the contribution of software features of other community members of the OpenCellID project. This will most likely happen before the end of 2015. |