Future Star Student Project high-performance computers and data centers (DCs) will use several many-core processors with each processor having dozens to hundreds of cores on a die. The performance of these many-core processors and in turn that of the HPCs and DCs will be driven by the energy-limited bandwidth of both processor-to-memory (interchip), and core-tocore/ core-to-cache/cache-to-cache (intrachip) communication networks. Hence, Star Student Project high bandwidth density and low-power communication networks are needed to maximize the performance of these many-core processors.
Project Support for : Ph.D/M.E/M.Tech/B.E/B.Tech/MCA/Msc/BCA/Diplomo
Department : Computer Science/ Information Technology/ Electronics
Star Student Project
Future Star Student Project high-performance computers and data centers (DCs) will use several many-core processors with each processor having dozens to hundreds of cores on a die. The performance of these many-core processors and in turn that of the HPCs and DCs will be driven by the energy-limited bandwidth of both processor-to-memory (interchip), and core-tocore/ core-to-cache/cache-to-cache (intrachip) communication networks. Hence, Star Student Project high bandwidth density and low-power communication networks are needed to maximize the performance of these many-core processors.