Mustafa M. Shihab scite author profile

Mustafa M. Shihab

5Publications

33Citation Statements Received

64Citation Statements Given

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Affiliations

University of Mosul, The University of Texas at Dallas

Publications

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Functional Obfuscation of Hardware Accelerators through Selective Partial Design Extraction onto an Embedded FPGA

Tian

Shihab

et al. 2019

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The protection of Intellectual Property (IP) has emerged as one of the most serious areas of concern in the semiconductor industry. To address this issue, we present a method and architecture to map selective portions of a design, given as a behavioral description for High-Level Synthesis (HLS) to a high-security embedded Field-Programmable Gate Array (eFPGA). In this manner, only the end-user has access to the full functionality of the chip. Using six benchmark circuits, we show that our approach is effective. In all cases, the Time-To-Break (TT B) is so long (at least 8 million hours) that for all practical purposes the designs are secure, while incurring area overheads of around 5%. Further, latencies were only slightly increased, while the computation times are under one minute. CCS CONCEPTS • Security and privacy → Security in hardware; Hardwarebased security protocols;

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OpenNVM: An open-sourced FPGA-based NVM controller for low level memory characterization

Zhang

Park

Shihab

et al. 2015

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ReveNAND

Shihab¹,

Zhang

Kandemir

2018

ACM Trans. Archit. Code Optim.

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The paradigm shift from planar (two dimensional (2D)) to vertical (three-dimensional (3D)) models has placed the NAND flash technology on the verge of a design evolution that can handle the demands of next-generation storage applications. However, it also introduces challenges that may obstruct the realization of such 3D NAND flash. Specifically, we observed that the fast threshold drift (fast-drift) in a charge-trap flash-based 3D NAND cell can make it lose a critical fraction of the stored charge relatively soon after programming and generate errors. In this work, we first present an elastic read reference (V Ref) scheme (ERR) for reducing such errors in ReveNAND-our fast-drift aware 3D NAND design. To address the inherent limitation of the adaptive V Ref , we introduce a new intra-block page organization (hitch-hike) that can enable stronger error correction for the error-prone pages. In addition, we propose a novel reinforcement-learning-based smart data refill scheme (iRefill) to counter the impact of fast-drift with minimum performance and hardware overhead. Finally, we present the first analytic model to characterize fast-drift and evaluate its system-level impact. Our results show that, compared to conventional 3D NAND design, our ReveNAND can reduce fast-drift errors by 87%, on average, and can lower the ECC latency and energy overheads by 13× and 10×, respectively.

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Design Obfuscation through Selective Post-Fabrication Transistor-Level Programming

Shihab

Tian

Reddy

et al. 2019

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Secure Logic Locking with Strain-Protected Nanomagnet Logic

Hassan

Edwards

Bhattacharya

et al. 2021

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Mustafa M. Shihab

Functional Obfuscation of Hardware Accelerators through Selective Partial Design Extraction onto an Embedded FPGA

OpenNVM: An open-sourced FPGA-based NVM controller for low level memory characterization

ReveNAND

Design Obfuscation through Selective Post-Fabrication Transistor-Level Programming

Secure Logic Locking with Strain-Protected Nanomagnet Logic

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