Go to TVLSI 2020 homepageA COTS-Based Novel 3-D DRAM Memory Cube Architecture for Space Applications
Abstract: The first mainstream products in three-dimensional integrated circuit (3-D IC) design are memory devices where multiple memory tiers are horizontally integrated to offer manifold improvements when compared with their 2-D counterparts. Unfortunately, none of these existing 3-D memory cubes are ready for harsh space environments. This article introduces a new memory cube architecture for space, based on the vertical integration of multiple commercial-off-the-shelf, 3-D stacked, dynamic random-access memory (DRAM) memory devices with a custom radiation-hardened-by-design controller. Our solution offers high memory capacity, increased bandwidth, fault tolerance, and improved size-weight-and-power characteristics needed for space missions. Validation and functional evaluation of the application-specific integrated circuit (ASIC) controller will be conducted prior to tape-out on a custom FPGA-based emulator platform integrating the 3-D stack. The selected test methodology ensures high-quality register transfer level (RTL) as well as allows to subject the cube structure to radiation testing. The proposed design concept allows for flexibility in the choice of the DRAM die in the case of technology road-map changes or unsatisfactory radiation results.
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