Magnetic memory : fundamentals and technology / Denny D. Tang, Yuan-Jen Lee.

Call Number	621.39/73
Author	Tang, Denny D., author.
Title	Magnetic memory : fundamentals and technology / Denny D. Tang, Yuan-Jen Lee.
Physical Description	1 online resource (x, 196 pages) : digital, PDF file(s).
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	Machine generated contents note: 1. Basic magnetostatics; 2. Magnetic films; 3. Properties of patterned ferromagnetic film; 4. Magnetoresistance effects and memory devices; 5. Field-write mode MRAMs; 6. Spin torque transfer MRAM; 7. Applications of MTJ based technology; Appendices: A. Unit conversion table cgs vs. SI; B. Dimensions of magnetism; C. Physical constants; D. Normal (Gaussian) distribution and quantile plot; E. Weibull distribution; F. TDDB reliability test of thin film; G. Binomial distribution and Poisson distribution; H. Defect density; I. Fe, Co, Ni element chemistry parameters; J. Soft error, hard fail and design margin.
Summary	If you are a semiconductor engineer or a magnetics physicist developing magnetic memory, get the information you need with this, the first book on magnetic memory. From magnetics to the engineering design of memory, this practical book explains key magnetic properties and how they are related to memory performance, characterization methods of magnetic films, and tunneling magnetoresistance effect devices. It also covers memory cell options, array architecture, circuit models, and read-write engineering issues. You'll understand the soft fail nature of magnetic memory, which is very different from that of semiconductor memory, as well as methods to deal with the issue. You'll also get invaluable problem-solving insights from real-world memory case studies. This is an essential book for semiconductor engineers who need to understand magnetics, and for magnetics physicists who work with MRAM. It is also a valuable reference for graduate students working in electronic/magnetic device research.
Added Author	Lee, Yuan-Jen, author.
Subject	Magnetic memory (Computers)
Multimedia	https://doi.org/10.1017/CBO9780511676208

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$a Machine generated contents note: 1. Basic magnetostatics; 2. Magnetic films; 3. Properties of patterned ferromagnetic film; 4. Magnetoresistance effects and memory devices; 5. Field-write mode MRAMs; 6. Spin torque transfer MRAM; 7. Applications of MTJ based technology; Appendices: A. Unit conversion table cgs vs. SI; B. Dimensions of magnetism; C. Physical constants; D. Normal (Gaussian) distribution and quantile plot; E. Weibull distribution; F. TDDB reliability test of thin film; G. Binomial distribution and Poisson distribution; H. Defect density; I. Fe, Co, Ni element chemistry parameters; J. Soft error, hard fail and design margin.

520

$a If you are a semiconductor engineer or a magnetics physicist developing magnetic memory, get the information you need with this, the first book on magnetic memory. From magnetics to the engineering design of memory, this practical book explains key magnetic properties and how they are related to memory performance, characterization methods of magnetic films, and tunneling magnetoresistance effect devices. It also covers memory cell options, array architecture, circuit models, and read-write engineering issues. You'll understand the soft fail nature of magnetic memory, which is very different from that of semiconductor memory, as well as methods to deal with the issue. You'll also get invaluable problem-solving insights from real-world memory case studies. This is an essential book for semiconductor engineers who need to understand magnetics, and for magnetics physicists who work with MRAM. It is also a valuable reference for graduate students working in electronic/magnetic device research.

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No Reviews to Display

Summary	If you are a semiconductor engineer or a magnetics physicist developing magnetic memory, get the information you need with this, the first book on magnetic memory. From magnetics to the engineering design of memory, this practical book explains key magnetic properties and how they are related to memory performance, characterization methods of magnetic films, and tunneling magnetoresistance effect devices. It also covers memory cell options, array architecture, circuit models, and read-write engineering issues. You'll understand the soft fail nature of magnetic memory, which is very different from that of semiconductor memory, as well as methods to deal with the issue. You'll also get invaluable problem-solving insights from real-world memory case studies. This is an essential book for semiconductor engineers who need to understand magnetics, and for magnetics physicists who work with MRAM. It is also a valuable reference for graduate students working in electronic/magnetic device research.
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	Machine generated contents note: 1. Basic magnetostatics; 2. Magnetic films; 3. Properties of patterned ferromagnetic film; 4. Magnetoresistance effects and memory devices; 5. Field-write mode MRAMs; 6. Spin torque transfer MRAM; 7. Applications of MTJ based technology; Appendices: A. Unit conversion table cgs vs. SI; B. Dimensions of magnetism; C. Physical constants; D. Normal (Gaussian) distribution and quantile plot; E. Weibull distribution; F. TDDB reliability test of thin film; G. Binomial distribution and Poisson distribution; H. Defect density; I. Fe, Co, Ni element chemistry parameters; J. Soft error, hard fail and design margin.
Subject	Magnetic memory (Computers)
Multimedia	https://doi.org/10.1017/CBO9780511676208