Emerging Non-Volatile Memory Technologies and Their Impacton Computer Architecture
DOI:
https://doi.org/10.63282/3050-922X.IJERET-V6I1P105Keywords:
Non-volatile memory, phase-change memory, resistive RAM, magnetic RAM, computer architecture, data storage, AI applicationsAbstract
Emerging non-volatile memory (NVM) technologies are set to revolutionize computer architecture by addressing the limitations of traditional memory systems. As data volumes continue to surge due to advancements in artificial intelligence (AI), big data, and cloud computing, the demand for faster, more efficient, and resilient memory solutions has intensified. Technologies such as Phase-Change Memory (PCM), resistive random-access memory (ReRAM), and Magnetic RandomAccess Memory (MRAM) offer promising alternatives to conventional volatile memory like DRAM. PCM, in particular, stands out due to its ability to provide high speed, scalability, and non-volatility, making it suitable for a variety of applications including neuromorphic computing. These NVM technologies not only enhance performance but also reduce power consumption and improve data retention capabilities. The integration of these advanced memories into the memory hierarchy could lead to significant advancements in system architectures, enabling more efficient processing and storage solutions that align with the increasing computational demands of modern applications. As the market for NVM continues to grow, driven by innovations in semiconductor technology and the proliferation of Internet of Things (IoT) devices, understanding their impact on computer architecture becomes crucial for future developments
References
[1] Association for Computing Machinery. (n.d.). Nonvolatile memory technology poised for game-changing breakthrough. Communications of the ACM. Retrieved from https://cacm.acm.org/news/non-volatile-memorytechnology-poised-for-game-changing-breakthrough/
[2] National Center for Biotechnology Information. (n.d.). Comprehensive discussion of memory technology. PubMed Central (PMC). Retrieved from https://pmc.ncbi.nlm.nih.gov/articles/PMC4182445/
[3] Suman, Chintala (2024). Evolving BI Architectures: Integrating Big Data for Smarter Decision-Making. American Journal of Engineering, Mechanics and Architecture, 2 (8). pp. 72-79. ISSN 2993-2637
[4] The Business Research Company. (n.d.). Non-volatile memory global market report. Retrieved from https://www.thebusinessresearchcompany.com/report/non-volatile-memory-global-market-report
[5] Chintala, S. and Thiyagarajan, V., “AI-Driven Business Intelligence: Unlocking the Future of DecisionMaking,” ESP International Journal of Advancements in ComputationalTechnology, vol. 1, pp. 73-84, 2023.
[6] Perez, T., & Rose, M. (n.d.). Non-volatile memory: Emerging technologies and their impacts on memory systems. ResearchGate. Retrieved from https://www.researchgate.net/publication/275346080_NonVolatile_Memory_Emerging_Technologies_And_Their_Impacts_on_Memory_Systems
[7] Mordor Intelligence. (n.d.). Global emerging nonvolatile memory market report. Retrieved from https://www.mordorintelligence.com/industryreports/global-emerging-non-volatile-memory-market
[8] Yole Group. (2024). Emerging non-volatile memory market. Retrieved from https://www.yolegroup.com/product/report/emergingnon-volatile-memory-2024/
[9] Chintala, Suman. (2024). “Smart BI Systems: The Role of AI in Modern Business”. ESP Journal of Engineering
& Technology Advancements, 4(3): 45-58.
[10] Nature Research Intelligence. (n.d.). Non-volatile memory systems and architectures. Retrieved from
https://www.nature.com/research-intelligence/nonvolatile-memory-systems-and-architectures
[11] Techtarget. (n.d.). Definition of non-volatile memory. TechTarget: SearchStorage. Retrieved from https://www.techtarget.com/searchstorage/definition/nonvolatile-memory
[12] Muthukumaran Vaithianathan, Mahesh Patil, Shunyee Frank Ng, Shiv Udkar, 2024. "Energy-Efficient FPGA Design for Wearable and Implantable Devices", ESP International Journal of Advancements in Science & Technology (ESP-IJAST), Volume 2, Issue 2: 37-51.
[13] Suman Chintala, "Boost Call Center Operations: Google's Speech-to-Text AI Integration," International Journal of Computer Trends and Technology, vol. 72, no. 7, pp.83-86, 2024. Crossref, https://doi.org/10.14445/22312803/IJCTT-V72I7P110
[14] Dhameliya, N. (2023). “Revolutionizing PLC Systems with AI: A New Era of Industrial Automation. American Digits”: Journal of Computing and Digital Technologies, 1(1), 33-48.
