Design Automation Framework for Application-Specific Logic-in-Memory Blocks

This paper presents a design methodology forhardware synthesis of application-specific logic-in-memory(LiM) blocks. Logic-in-memory designs tightly integrate specializedcomputation logic with embedded memory, enablingmore localized computation, thus save energy consumption. Asa demonstration, we present an end-to-end design frameworkto automatically synthesize an interpolation based logic-in-memoryblock named interpolation memory, which combinesa seed table with simple arithmetic logic to efficiently evaluatefunctions. In order to support multiple consecutive seed dataaccess that is required in the interpolation operation, wesynthesize the physical memory into the novel rectangular accesssmart memory blocks. We evaluated a large designspace of interpolation memories in sub-20 nm commercialCMOS technology by using the proposed design framework.Furthermore, we implemented a logic-in-memory based computedtomography (CT) medical image reconstruction systemand our experimental results show that the logic-in-memorycomputing method achieves orders of magnitude of energysaving compared with the traditional in-processor computing.