Networks-on-chip need to survive to manufacturing faults in order to sustain yield. An effective testing and configuration strategy however implies two opposite requirements. One one hand, a fast and scalable built-in self-testing and self-diagnosis procedure has to be carried out concurrently at NoC switches. On the other hand, programming the NoC routing mechanism to go around faulty links and switches can be optimally performed by a centralized controller with global network visibility. To the best of our knowledge, this article proposes for the first time a global network testing and configuration strategy that meets the opposite requirements by means of a fault-tolerant dual network architecture and a fast configuration algorithm for the most common failure patterns.
Experimental results report an area overhead as low as 12.5% with respect to the baseline switch architecture while achieving a high degree of fault tolerance. In fact, even when multiple stuck-at faults are considered, the capability of fault masking by the dual network is always over 80%, and the support for multiple link failures is more than 90% in presence of two unusable links in the main network with minimum set-up times.
Abstract-The aim of this paper is to show how cooperation among nodes of a wireless network can be useful to reduce the overall radiated power necessary to guarantee reliable links among the network nodes. The basic idea is that if the links between cooperating nodes are sufficiently reliable, the cooperating nodes can transmit in a coordinated manner in order to emulate a virtual MIMO system that can yield considerable gains in terms of diversity or capacity. In this paper, we provide first a theoretical analysis of a single-user scenario showing how the cooperation gain is related to the spatial density of the cooperating nodes. Then, we compare alternative distributed space-time coding strategies aimed at achieving the promised advantages in a multi-user context 1 .
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