Minimal-path fault-tolerant approach using connection-retaining structure in Networks-on-Chip

There are many fault-tolerant approaches presented both in off-chip and on-chip networks. Regardless of all varieties, there has always been a common assumption between them. Most of all known fault-tolerant methods are based on rerouting packets around faults. Rerouting might take place through nonminimal paths which affect the performance significantly not only by taking longer paths but also by creating hotspot around a fault. In this paper, we present a fault-tolerant approach based on using the shortest paths. This method maintains the performance of Networks-on-Chip in the presence of faults. To avoid using non-minimal paths, the router architecture is slightly modified. In the new form of architecture, there is an ability to connect the horizontal and orthogonal links of a faulty router such that healthy routers are kept connected to each other. Based on this architecture, a fault-tolerant routing algorithm is presented which is obviously much simpler than traditional fault-tolerant routing algorithms. According to this algorithm, only the shortest paths are used by packets in the presence of fault. This results retains the performance of NoCs in faulty situations. This algorithm is highly reliable, for an instance, the reliability is more than 99.5% when there are six faulty routers in an 8×8 mesh network.