Abstract
Advancements in CMOS technology led to the increase in number of processing cores on a single chip. Communication between different cores in such multicore systems is facilitated by an underlying interconnect. Due to the limitations of traditional bus-based system Network on Chip (NoC) based interconnect is the most acceptable cost effective framework for inter-core communication. A packet in an NoC travels through a sequence of intermediate routers before arriving at its destination. As the size of NoC scales high, the average number of intermediate routers that a packet traverse also increases. This results in higher packet latency which degrades application performance. In this work, we introduce cost effective adaptive routing techniques that can forward long distance packets through specialized channels made of Transmission Line (TL). These extra TLs introduced in the chip reduce the diameter of the network thereby reducing average packet latency. We propose two novel router architectures; SBTR and e-SBTR that reduce packet latency by reducing the number of intermediate hops. We use PARSEC benchmark and SPEC CPU 2006 benchmark mixes to evaluate the performance of our proposed techniques. SBTR and e-SBTR reduce average packet latency by 7.9% and 25% respectively. Both the techniques also reduce average hop count by 8.13% and 27.6% respectively. We also observe that our proposed technique e-SBTR performs better than the state-of-the-art Express Virtual Channel technique in terms of packet latency and hop count respectively.
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