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education [2016/12/01 11:56] wang |
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- | * [[education/ca_2016|Concurrent Algorithms]] | + | * [[education/ca_2018|Concurrent Algorithms]] |
* [[education/da|Distributed Algorithms]] | * [[education/da|Distributed Algorithms]] | ||
* <html><a href="http://moodle.epfl.ch/course/view.php?id=14044">Information, Calcul et Communication</a></html> | * <html><a href="http://moodle.epfl.ch/course/view.php?id=14044">Information, Calcul et Communication</a></html> | ||
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===== Master Projects ===== | ===== Master Projects ===== | ||
- | LPD offers master projects in the following areas: | + | DCL offers master projects in the following areas: |
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+ | * **Probabilistic Byzantine Resilience**: Development of high-performance, Byzantine-resilient distributed systems with provable probabilistic guarantees. Two options are currently available, both building on previous work on probabilistic Byzantine broadcast: (i) a theoretical project, focused the correctness of probabilistic Byzantine-tolerant distributed algorithms; (ii) a practical project, focused on numerically evaluating of our theoretical results. Please contact [[mailto:matteo.monti@epfl.ch|Matteo Monti]] to get more information. | ||
* **Dynamically Distributed Spatial Indexing**: a project here would consist in studying existing spatial index data structures and algorithms, e.g., simple grids, Quadtrees, R-Trees etc., and how they may be dynamically distributed for indexing a large number of moving objects; please contact [[mailto:benoit.garbinato@unil.ch|Benoit Garbinato]] to get more information. | * **Dynamically Distributed Spatial Indexing**: a project here would consist in studying existing spatial index data structures and algorithms, e.g., simple grids, Quadtrees, R-Trees etc., and how they may be dynamically distributed for indexing a large number of moving objects; please contact [[mailto:benoit.garbinato@unil.ch|Benoit Garbinato]] to get more information. | ||
- | * **Multicore computing**: a project here would consist for instance in designing and implementing efficient lock-based or lock-free shared objects; please contact [[http://people.epfl.ch/vasileios.trigonakis|Vasileios Trigonakis]] or [[http://people.epfl.ch/tudor.david|Tudor David]] to get more information. | + | * **Multicore computing**: a project here would consist for instance in designing and implementing efficient lock-based or lock-free shared objects; please contact [[https://people.epfl.ch/igor.zablotchi|Igor Zablotchi]] to get more information. |
- | * **Dynamic distributed computing**: a project here would consist for instance in designing and implementing applications that would run in a simulation of a cloud with high churn, but possibly robust to arbitrary behavior of some of its components; please contact [[http://people.epfl.ch/matej.pavlovic|Matej Pavlovic]] to get more information. | + | * **Distributed computing using RDMA and/or NVRAM**: contact [[https://people.epfl.ch/igor.zablotchi|Igor Zablotchi]] for more information. |
- | * **Recommender systems**: Projects in context of recommender systems can be found here: __[[List of Projects]]__. If you are interested in any project, please contact [[http://people.epfl.ch/rhicheek.patra|Rhicheek Patra]]. | + | * **[[Distributed ML|Distributed Machine Learning]]** |
* **Distributed and Fault-tolerant algorithms**: projects here would consist in designing failure detection mechanisms suited for large-scale systems, real-time systems, and systems with unreliable communication or partial synchrony. This task also involves implementing, evaluating, and simulating the performance of the developed mechanisms to verify the achievable guarantees; please contact [[http://people.epfl.ch/david.kozhaya|David Kozhaya]] to get more information. | * **Distributed and Fault-tolerant algorithms**: projects here would consist in designing failure detection mechanisms suited for large-scale systems, real-time systems, and systems with unreliable communication or partial synchrony. This task also involves implementing, evaluating, and simulating the performance of the developed mechanisms to verify the achievable guarantees; please contact [[http://people.epfl.ch/david.kozhaya|David Kozhaya]] to get more information. | ||
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* **Distributed database algorithms**: a project here would consist in implementing and evaluating protocols that are running in today's database systems, e.g., [[https://en.wikipedia.org/wiki/Two-phase_commit_protocol|2PC]], and comparing them with those protocols that can potentially be used in future database systems; please contact [[http://people.epfl.ch/jingjing.wang|Jingjing Wang]] to get more information. | * **Distributed database algorithms**: a project here would consist in implementing and evaluating protocols that are running in today's database systems, e.g., [[https://en.wikipedia.org/wiki/Two-phase_commit_protocol|2PC]], and comparing them with those protocols that can potentially be used in future database systems; please contact [[http://people.epfl.ch/jingjing.wang|Jingjing Wang]] to get more information. | ||
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If the subject of a Master Project interests you as a Semester Project, please contact the supervisor of the Master Project to see if it can be considered for a Semester Project. | If the subject of a Master Project interests you as a Semester Project, please contact the supervisor of the Master Project to see if it can be considered for a Semester Project. | ||
- | EPFL I&C duration, credits and workload information are available [[http://ic.epfl.ch/page-17123.html|here]]. Don't hesitate to contact the project supervisor if you want to complete your Semester Project outside the regular semester period. | + | EPFL I&C duration, credits and workload information are available [[https://www.epfl.ch/schools/ic/education/|here]]. Don't hesitate to contact the project supervisor if you want to complete your Semester Project outside the regular semester period. |