R. Khaddam-Aljameh, M. Stanisavljevic, J. Fornt Mas, G. Karunaratne, M. Braendli, F. Liu, A. Singh, S. M. Muller, U. Egger, A. Petropoulos, T. Antonakopoulos, K. Brew, S. Choi, I. Ok, F. L. Lie, N. Saulnier, V. Chan, I. Ahsan, V. Narayanan, S. R. Nandakumar, M. Le Gallo, P. A. Francese, A. Sebastian, E. Eleftheriou:

HERMES Core - A 14nm CMOS and PCM-based In-Memory Compute Core using an array of 300ps/LSB Linearized CCO-based ADCs and local digital processing

The 2021 Symposium on VLSI Circuits, Kyoto, Japan, June 13-19, 2021.

Abstract: Non-volatile memories are used extensively in embedded systems and other devices, like mobile phones, for storing user-related information, operating system and other software modules. Analyzing the behavior of a system based on nonvolatile memories is not a trivial and reproducible task, since their content may be altered in an non-reversible state. The use of a real-time and accurate emulator is a viable approach since it allows repetitive system testing from a given state and the execution of various what-if scenarios, collection of statistical data and further analysis. In this work we present such an emulator for eMMC non-volatile memories based on NAND Flash technology, we highlight its architecture and we present experimental results that demonstrate its behavior and accuracy.

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