Odjel za komunikacije

Odjel za komunikacije obuhvaća znanost, tehnologiju i aplikacije koje podržavaju prijenos i organizaciju informacija različitih vrsta medija i formata kroz komunikacijske mreže i kanale. Navedeno može uključivati:

  • Arhitekturu, kontrolu, upravljanje, učinkovitost i primjene elektroničkih, optičkih i bežičnih komunikacijskih mreža;
  • Tehnologije i servisi za postojeće mreže i mreže u nastajanju te Internet;
  • Teorije i metode modulacije, detekcije, kodiranja i sigalizacije kroz kanale, oblikovanje i vođenje mreža s komutacijom paketa i mreža s komutacijom kanala;
  • Sustave za komutiranje i usmjeravanje;
  • Komunikacijske protokole, programsku podršku i programe koji djeluju između aplikacije i mreže;
  • Metode za postizanje kvalitete i pouzdanosti usluge;
  • Komunikacijske sposobnosti terminala, uređaja i informacijskih sustava;
  • Komunikacijske standarde i specifikacije;
  • Utjecaj komunikacijskih tehnologija na društvo i pojedinca.

Web sjedište matičnog društva IEEE Communications Society je www.comsoc.org.

 

Odjel za komunikacije
Mandat do 31. 12. 2020.
Lea Skorin-Kapov
predsjednica
Petar Šolić
dopredsjednik

 

Studentski ogranak odjela
Mandat do 30. 9. 2019.
Irena Oršolić
predsjednica studentskog ogranka odjela
Dario Pevec
dopredsjednik studentskog ogranka odjela

Poziv na predavanje: Very high speed...

Odjel za komunikacije Hrvatske sekcije IEEE i Zavod za telekomunikacije FER-a kao organizatori te udruga HrOpen vas pozivaju na predavanje

 

Very high speed networking in VMs and bare metal

 

Predavanje će održati Prof. Luigi Rizzo, Università di Pisa, Italija, u ponedjeljak 3. lipnja 2013. godine s početkom u 15:15 sati u Sivoj vijećnici FER-a. Jezik predavanja je engleski, a predvidio trajanje 60 min.

Sažetak predavanja i životopis predavača nalazi se u nastavku obavijesti.

Talk summary:

In this talk I will give a survey of solutions and tools that we have developed in recent years to achieve extremely high packet processing rates in commodity operating systems, running on bare metal and on virtual machines.

Our NETMAP framework supports processing of minimum-size frames from user space at 10 Gbit/s (14.88 Mpps) with very small CPU usage. Netmap is hardware-independent, supports multiple NIC types, and it does not require IOMMU or expose critical resources (e.g. device registers) to userspace.  A libpcap library running on top of netmap gives instant acceleration to pcap clients without even the need to recompile applications.

VALE is a software switch using the netmap API, which delivers over 20~Mpps per port, or 70 Gbit/s with 1500-byte packets.  Originally designed to interconnect virtual machines, VALE is actually very convenient also as a testing tool and as a high speed IPC mechanism.

More recently we have extended QEMU, and with a few small changes (using VALE as a switch, paravirtualizing the e1000 emulator, and with small device driver enhancements), we reached guest-to-guest communication speeds of over 1 Mpps (with socket-based clients) and 5 Mpps (with netmap-based clients).

Netmap and VALE are small kernel modules, part of standard FreeBSD and also available as add-on for Linux. QEMU extensions are also available from the author and are being submitted to the qemu-devel list for inclusion in the standard distributions.

 

LINKS:

http://info.iet.unipi.it/~luigi/netmap/

http://info.iet.unipi.it/~luigi/vale/

 

Biography:

Luigi Rizzo is an Associate Professor of Computer Engineering at the Universita` di Pisa, Italy. His research focuses on computer networks and operating systems. In particular, he has done some highly cited work on multicast congestion control, FEC-based reliable multicast, network emulation, and more recently on packet scheduling, fast network I/O, virtualization.

Much of his work has been implemented and deployed in popular operating systems and applications, and widely used by the research community. His contributions include the popular dummynet network emulator (a standard component of FreeBSD and OSX, and now also available for linux and windows); one of the first publicly available erasure code for reliable multicast; the qfq packet scheduler; and the netmap framework for fast packet I/O.

Luigi has been a visiting researcher at several industrial and research institutions, including ICSI (UC Berkeley), Intel Research Cambridge (UK), Intel Research Berkeley, and recently Google Mountain View.  Luigi has been General Chair for SIGCOMM 2006, TPC Co-Chair for SIGCOMM 2009, and TPC member/reviewer for many networking conferences and journals.

Autor: Ivana Podnar Žarko
Popis obavijesti