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[摘要]:The design and performance of next-generation chip multiprocessors (CMPs) will be bound by the limited amount of power that can be dissipated on a single die. We present photonic networks-on-chip (NoC) as a solution to reduce the impact of intrachip and off- chip communication on the overall power budget. The low loss properties of optical waveguides, combined with bit- rate transparency, allow for a photonic interconnection network that can deliver considerably higher bandwidth and lower latencies with significantly lower power dissipation than an interconnection network based only on electronic signaling. We explain why on- chip photonic communication has recently become a feasible opportunity and explore the challenges that need to be addressed to realize its implementation. We introduce a novel hybrid microarchitecture for NoCs that combines a broadband photonic circuit- switched network with an electronic overlay packet- switched control network. This design leverages the strength of each technology and represents a flexible solution for the different types of messages that are exchanged on the chip; large messages are communicated more efficiently through the photonic network, while short messages are delivered electronically with minimal power consumption. We address the critical design issues including topology, routing algorithms, deadlock avoidance, and path- setup/ teardown procedures. We present experimental results obtained with POINTS, an event- driven simulator specifically developed to analyze the proposed design idea, as well as a comparative power analysis of a photonic versus an electronic NoC. Overall, these results confirm the unique benefits for future generations of CMPs that can be achieved by bringing optics into the chip in the form of photonic NoCs. |
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