Reliability Improvement in Non-Volatile On-Chip Memories for Embedded Applications, Ph.D. Dissertation Sharif University of Technology ; Miremadi, Ghassem (Supervisor)
Abstract
With the technology scaling trend in recent years, leakage power has become a major challenge for SRAM-based on-chip memories. According to the recent reports, SRAM-based on-chip memories contribute to more than half of the processors’ power consumption. Accordingly, in recent years, researchers have tried to find an alternative technology for SRAMs in on-chip memories. The International Technology Roadmap for Semiconductors (ITRS) recently announced that STT-MRAMs are the most promising technology to replace SRAMs. While STT-MRAMs benefit from low energy consumption, high endurance, and high density compared to other non-volatile memory technologies, comparing with SRAMs, STT-MRAMs have...
Cataloging briefReliability Improvement in Non-Volatile On-Chip Memories for Embedded Applications, Ph.D. Dissertation Sharif University of Technology ; Miremadi, Ghassem (Supervisor)
Abstract
With the technology scaling trend in recent years, leakage power has become a major challenge for SRAM-based on-chip memories. According to the recent reports, SRAM-based on-chip memories contribute to more than half of the processors’ power consumption. Accordingly, in recent years, researchers have tried to find an alternative technology for SRAMs in on-chip memories. The International Technology Roadmap for Semiconductors (ITRS) recently announced that STT-MRAMs are the most promising technology to replace SRAMs. While STT-MRAMs benefit from low energy consumption, high endurance, and high density compared to other non-volatile memory technologies, comparing with SRAMs, STT-MRAMs have...
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