It uses of dual fiber-optic rings to connect nodes.
Parallel Backbone
Fault tolerance is the ability of a system to continue working even when a fault exists. In the case of RAID, which stands for Redundant Array of Inexpensive Discs, fault tolerance is provided by having data recorded on more than one drive, and also by having more than one power supply. Note that RAID 0 is not fault telerant because it is simply stripes the data to increase size and bandwidth, but provides no redundancy. RAID 1 and RAID 5 are fault tolerant, to various levels.
The latest technology used in circuit breakers are Arc Fault Circuit Interrupters. They will shut off the circuit if the hot and neutral or two hots touch.
You find a fault in a form of tech and fix that problem, or you find a more efficient way to do the same task. Its that simple.
High impedance fault can occur on fail or low maintenance insulators (e.g. near coastal area) or wet vegetation area (in canyon), and highly loaded industrial area (high harmornics). It all depends on the ground moist level.
it uses dual fiber-optic rings to connect nodes
Fault Tolerant refers to systems capable of uptimes of 99.999% or higher. RAID disks, multi-pathing, RAIN Networking are some technologies in use in fault tolerant systems that can continue operation during a failure. System backups are NOT part of a fault tolerant plan per se but, are required in a fault tolerant system in case of a complete failure. System backups should always be kept outside of the fault tolerant environment.
RAID 1 is the most fault tolerant, as all drives have to fail to lose data.
Raymond S. Lim has written: 'Fault-tolerant computing' -- subject(s): Fault-tolerant computing
fault tolerance
Yes True
Parallel Backbone
Parallel Backbone
Parallel Backbone
P. N Marinos has written: 'A simulator for reliability predictions of fault-tolerant system architectures' -- subject(s): Redundancy (Engineering), Fault-tolerant computing
True
Fault-tolerant computer