Title :
Fault-tolerant, real-time communication in FDDI-based networks
Author :
Chen, Biao ; Kamat, Sanjay ; Zhao, Wei
Author_Institution :
Dept. of Comput. Sci., Texas Univ., Dallas, TX, USA
fDate :
4/1/1997 12:00:00 AM
Abstract :
The first high-speed network to meet the Safenet standard´s bandwidth requirements, the Fiber Distributed Data Interface (FDDI) needs help to meet Safenet´s fault tolerance requirement. Researchers have proposed a number of FDDI-based network architecture designs for improving fault tolerance. An architecture called FBRN (FDDI-Based Reconfigurable Network) provides enhanced fault tolerance by using (a) multiple FDDI networks to connect hosts, and (b) efficient fault detection and network configuration algorithms. To provide fault-tolerant real-time communication with the FBRN architecture, users must manage network resources properly. We sought to accomplish this by using a fault-tolerant, real-time management mechanism with online and offline components. We focused on achieving high performance by designing efficient and effective online and offline management algorithms to work around multiple faults
Keywords :
FDDI; computer network management; fault tolerant computing; performance evaluation; real-time systems; FBRN; FDDI-Based Reconfigurable Network; FDDI-based network architecture; Fiber Distributed Data Interface; Safenet standard; bandwidth requirements; fault detection algorithm; fault-tolerant real-time communication; high-speed network; multiple faults; network configuration algorithm; network resource management; offline components; online components; performance; Algorithm design and analysis; Bandwidth; FDDI; Fault detection; Fault tolerance; Fault tolerant systems; High-speed networks; Intelligent networks; Media Access Protocol; Real time systems;
