Title :
Design, implementation and simulation of CAN-based crossbar switched fabric
Author :
Mazouzi, Mohamed ; Mbarek, I.B. ; Belhajali, D. ; Hasnaoui, Salem ; Abid, Mohamed
Author_Institution :
Comput. & Embedded Syst. Lab., Nat. Eng. Sch. of Sfax, Sfax, Tunisia
Abstract :
Nowadays, CAN bus, as a well-known, fieldbus, reaches its limits when dealing with sophisticated embedded systems that require reliability and high-speed data transfer. Switched fabric can be a fast and reliable hardware solution for existing CAN-bus limits. In fact, it allows multiple packets to be transferred simultaneously ensuring sufficient bandwidth. To resolve this problem when keeping the use of CAN protocol, we remove the CAN access technique module from an existing VHDL implementation of a CAN controller component and we replace it by a crossbar switched fabric, implemented in VHDL also. In this paper, we designed a Crossbar switched fabric CAN based on VHDL modules and we simulated it under ModelSim tools and we give of proof-of-concept of a CAN controller based on crossbar switched fabric.
Keywords :
controller area networks; data communication; electronic switching systems; embedded systems; field buses; hardware description languages; protocols; CAN access technique module; CAN bus; CAN controller component; CAN protocol; ModelSim tool; VHDL implementation; VHDL modules; crossbar switched fabric CAN design; crossbar switched fabric CAN simulation; embedded systems; field bus; high-speed data transfer; reliability; CAN-Bus limits; Crossbar Switched fabric CAN; ModelSim tools; Switched fabric; VHDL modules; high-speed data transfer;
Conference_Titel :
Parallel Distributed and Grid Computing (PDGC), 2012 2nd IEEE International Conference on
Conference_Location :
Solan
Print_ISBN :
978-1-4673-2922-4
DOI :
10.1109/PDGC.2012.6449852
