Title :
Optical burst switching for many-core processor-to-memory photonic networks
Author :
Quanyou Feng ; Dongson Ban ; Huanzhong Li ; Wenhua Dou
Author_Institution :
Sch. of Comput. Sci., Nat. Univ. of Defense Technol., Changsha, China
Abstract :
Existing electrical DRAM technologies are not expected to supply sufficient bandwidth for many-core architecture as hundreds of cores are integrated on a single chip in the near future. The discrepancy of many-core processor-to-memory bandwidth will continue to enlarge. In this paper, we introduced optical burst switching to meet the many-core bandwidth challenge. Our optical technology is enabled by the prosperity of silicon photonic devices. Optical burst switching is a natural paradigm for bursty traffic which is common found in on-chip slef-similar flows. Memory access overhead is amortized by big burst length. Results of performance simulation and analysis reveal its outstanding advantages over electronic I/O signaling in terms of throughput, latency and energy consumption.
Keywords :
DRAM chips; multiprocessing systems; optical burst switching; photonic switching systems; bursty traffic; electrical DRAM technology; electronic I/O signaling; many-core architecture; many-core bandwidth; many-core processor-to-memory bandwidth; many-core processor-to-memory photonic network; memory access overhead; optical burst switching; silicon photonic device; Bandwidth; Optical buffering; Optical packet switching; Optical switches; Optical waveguides; Photonics; Random access memory; DRAM memory; network on-chip; optical burst switching; photonic NOC; silicon photonics;
Conference_Titel :
Computer Science & Education (ICCSE), 2011 6th International Conference on
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-9717-1
DOI :
10.1109/ICCSE.2011.6028697
