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An innovative modular 3-D stacked multi-processor architecture is presented. The platform is composed of completely identical stacked dies connected together by through-silicon-vias (TSVs). Each die features four 32-bit embedded processors and associated memory modules, interconnected by a 3-D network-on-chip (NoC), which can route packets in the vertical direction. Superimposing identical planar dies minimizes design effort and manufacturing costs, ensuring at the same time high flexibility and reconfigurability. A single die can be used either as a fully testable standalone chip multi-processor (CMP), or integrated in a 3-D stack, increasing the overall core count and consequently the system performance. To demonstrate the feasibility of this architecture, fully functional samples have been fabricated using a conventional UMC 90 nm complementary metal–oxide–semiconductor process and stacked using an in-house, via-last Cu-TSV process. Initial results show that the proposed 3-D-CMP is capable of operating at a target frequency of 400 MHz, supporting a vertical data bandwidth of 3.2 Gb/s.
David Atienza Alonso, Marina Zapater Sancho, Giovanni Ansaloni, Rafael Medina Morillas, Joshua Alexander Harrison Klein
David Atienza Alonso, Marina Zapater Sancho, Giovanni Ansaloni, Rafael Medina Morillas, Yasir Mahmood Qureshi, Joshua Alexander Harrison Klein
Edoardo Charbon, Francesco Piro, Ashish Sharma