Semiconductor Memories

Semiconductor Memories
Author :
Publisher : Wiley-IEEE Press
Total Pages : 480
Release :
ISBN-10 : 0780310004
ISBN-13 : 9780780310001
Rating : 4/5 (04 Downloads)

Synopsis Semiconductor Memories by : Ashok K. Sharma

Semiconductor Memories provides in-depth coverage in the areas of design for testing, fault tolerance, failure modes and mechanisms, and screening and qualification methods including. * Memory cell structures and fabrication technologies. * Application-specific memories and architectures. * Memory design, fault modeling and test algorithms, limitations, and trade-offs. * Space environment, radiation hardening process and design techniques, and radiation testing. * Memory stacks and multichip modules for gigabyte storage.

Advanced Semiconductor Memories

Advanced Semiconductor Memories
Author :
Publisher : Wiley-IEEE Press
Total Pages : 680
Release :
ISBN-10 : STANFORD:36105111993957
ISBN-13 :
Rating : 4/5 (57 Downloads)

Synopsis Advanced Semiconductor Memories by : Ashok K. Sharma

A valuable reference for the most vital microelectronic components in the marketplace DRAMs are the technology drivers of high volume semiconductor fabrication processes for new generation products that, in addition to computer markets, are finding increased usage in automotive, aviation, military and space, telecommunications, and wireless industries. A new generation of high-density and high-performance memory architectures evolving for mass storage devices, including embedded memories and nonvolatile flash memories, are serving a diverse range of applications. Comprehensive and up to date, Advanced Semiconductor Memories: Architectures, Designs, and Applications offers professionals in the semiconductor and related industries an in-depth review of advanced semiconductor memories technology developments. It provides details on: Static Random Access Memory technologies including advanced architectures, low voltage SRAMs, fast SRAMs, SOI SRAMs, and specialty SRAMs (multiport, FIFOs, CAMs) High Performance Dynamic Random Access Memory-DDRs, synchronous DRAM/SGRAM features and architectures, EDRAM, CDRAM, Gigabit DRAM scaling issues and architectures, multilevel storage DRAMs, and SOI DRAMs Applications-specific DRAM architectures and designs - VRAMs, DDR SGRAMs, RDRAMs, SLDRAMs, 3-D RAM Advanced Nonvolatile Memory designs and technologies, including floating gate cell theory, EEPROM/flash memory cell design, and multilevel flash FRAMs and reliability issues Embedded memory designs and applications, including cache, merged processor, DRAM architectures, memory cards, and multimedia applications Future memory directions with megabytes to terabytes storage capacities using RTDs, single electron memories, etc. A continuation of the topics introduced in Semiconductor Memories: Technology, Testing, and Reliability, the author's earlier work, Advanced Semiconductor Memories: Architectures, Designs, and Applications offers a much-needed reference to the major developments and future directions of advanced semiconductor memory technology.

VLSI Memory Chip Design

VLSI Memory Chip Design
Author :
Publisher : Springer Science & Business Media
Total Pages : 504
Release :
ISBN-10 : 9783662044780
ISBN-13 : 3662044781
Rating : 4/5 (80 Downloads)

Synopsis VLSI Memory Chip Design by : Kiyoo Itoh

A systematic description of microelectronic device design. Topics range from the basics to low-power and ultralow-voltage designs, subthreshold current reduction, memory subsystem designs for modern DRAMs, and various on-chip supply-voltage conversion techniques. It also covers process and device issues as well as design issues relating to systems, circuits, devices and processes, such as signal-to-noise and redundancy.

Nanoscale Semiconductor Memories

Nanoscale Semiconductor Memories
Author :
Publisher : CRC Press
Total Pages : 448
Release :
ISBN-10 : 9781466560611
ISBN-13 : 1466560614
Rating : 4/5 (11 Downloads)

Synopsis Nanoscale Semiconductor Memories by : Santosh K. Kurinec

Nanoscale memories are used everywhere. From your iPhone to a supercomputer, every electronic device contains at least one such type. With coverage of current and prototypical technologies, Nanoscale Semiconductor Memories: Technology and Applications presents the latest research in the field of nanoscale memories technology in one place. It also covers a myriad of applications that nanoscale memories technology has enabled. The book begins with coverage of SRAM, addressing the design challenges as the technology scales, then provides design strategies to mitigate radiation induced upsets in SRAM. It discusses the current state-of-the-art DRAM technology and the need to develop high performance sense amplifier circuitry. The text then covers the novel concept of capacitorless 1T DRAM, termed as Advanced-RAM or A-RAM, and presents a discussion on quantum dot (QD) based flash memory. Building on this foundation, the coverage turns to STT-RAM, emphasizing scalable embedded STT-RAM, and the physics and engineering of magnetic domain wall "racetrack" memory. The book also discusses state-of-the-art modeling applied to phase change memory devices and includes an extensive review of RRAM, highlighting the physics of operation and analyzing different materials systems currently under investigation. The hunt is still on for universal memory that fits all the requirements of an "ideal memory" capable of high-density storage, low-power operation, unparalleled speed, high endurance, and low cost. Taking an interdisciplinary approach, this book bridges technological and application issues to provide the groundwork for developing custom designed memory systems.

Dynamic RAM

Dynamic RAM
Author :
Publisher : CRC Press
Total Pages : 385
Release :
ISBN-10 : 9781439893739
ISBN-13 : 143989373X
Rating : 4/5 (39 Downloads)

Synopsis Dynamic RAM by : Muzaffer A. Siddiqi

Because of their widespread use in mainframes, PCs, and mobile audio and video devices, DRAMs are being manufactured in ever increasing volume, both in stand-alone and in embedded form as part of a system on chip. Due to the optimum design of their components—access transistor, storage capacitor, and peripherals—DRAMs are the cheapest and densest semiconductor memory currently available. As a result, most of DRAM structure research and development focuses on the technology used for its constituent components and their interconnections. However, only a few books are available on semiconductor memories in general and fewer on DRAMs. Dynamic RAM: Technology Advancements provides a holistic view of the DRAM technology with a systematic description of the advancements in the field since the 1970s, and an analysis of future challenges. Topics Include: DRAM cells of all types, including planar, three-dimensional (3-D) trench or stacked, COB or CUB, vertical, and mechanically robust cells using advanced transistors and storage capacitors Advancements in transistor technology for the RCAT, SCAT, FinFET, BT FinFET, Saddle and advanced recess type, and storage capacitor realizations How sub 100 nm trench DRAM technologies and sub 50 nm stacked DRAM technologies and related topics may lead to new research Various types of leakages and power consumption reduction methods in active and sleep mode Various types of SAs and yield enhancement techniques employing ECC and redundancy A worthwhile addition to semiconductor memory research, academicians and researchers interested in the design and optimization of high-density and cost-efficient DRAMs may also find it useful as part of a graduate-level course.

Low Power and Reliable SRAM Memory Cell and Array Design

Low Power and Reliable SRAM Memory Cell and Array Design
Author :
Publisher : Springer Science & Business Media
Total Pages : 154
Release :
ISBN-10 : 9783642195686
ISBN-13 : 3642195687
Rating : 4/5 (86 Downloads)

Synopsis Low Power and Reliable SRAM Memory Cell and Array Design by : Koichiro Ishibashi

Success in the development of recent advanced semiconductor device technologies is due to the success of SRAM memory cells. This book addresses various issues for designing SRAM memory cells for advanced CMOS technology. To study LSI design, SRAM cell design is the best materials subject because issues about variability, leakage and reliability have to be taken into account for the design.

Nonvolatile Semiconductor Memory Technology

Nonvolatile Semiconductor Memory Technology
Author :
Publisher : Wiley-IEEE Press
Total Pages : 624
Release :
ISBN-10 : UOM:39015049618690
ISBN-13 :
Rating : 4/5 (90 Downloads)

Synopsis Nonvolatile Semiconductor Memory Technology by : William D. Brown

This comprehensive reference book provides electronics engineers with the technical data and perspective necessary for the intelligent selection, specification, and application of nonvolatile semiconductor memory devices. A "one-stop shopping" tool for the working engineer, this book presents the fundamental aspects of nonvolatile semiconductor memory technologies, devices, reliability, and applications.

Rad-hard Semiconductor Memories

Rad-hard Semiconductor Memories
Author :
Publisher : CRC Press
Total Pages : 417
Release :
ISBN-10 : 9781000793062
ISBN-13 : 1000793060
Rating : 4/5 (62 Downloads)

Synopsis Rad-hard Semiconductor Memories by : Cristiano Calligaro

Rad-hard Semiconductor Memories is intended for researchers and professionals interested in understanding how to design and make a preliminary evaluation of rad-hard semiconductor memories, making leverage on standard CMOS manufacturing processes available from different silicon foundries and using different technology nodes.In the first part of the book, a preliminary overview of the effects of radiation in space, with a specific focus on memories, will be conducted to enable the reader to understand why specific design solutions are adopted to mitigate hard and soft errors. The second part will be devoted to RHBD (Radiation Hardening by Design) techniques for semiconductor components with a specific focus on memories. The approach will follow a top-down scheme starting from RHBD at architectural level (how to build a rad-hard floor-plan), at circuit level (how to mitigate radiation effects by handling transistors in the proper way) and at layout level (how to shape a layout to mitigate radiation effects).After the description of the mitigation techniques, the book enters in the core of the topic covering SRAMs (synchronous, asynchronous, single port and dual port) and PROMs (based on AntiFuse OTP technologies), describing how to design a rad-hard flash memory and fostering RHBD toward emerging memories like ReRAM. The last part will be a leap into emerging memories at a very early stage, not yet ready for industrial use in silicon but candidates to become an option for the next wave of rad-hard components. Technical topics discussed in the book include:  Radiation effects on semiconductor components (TID, SEE) Radiation Hardening by Design (RHBD) Techniques Rad-hard SRAMs Rad-hard PROMs Rad-hard Flash NVMs Rad-hard ReRAMs Rad-hard emerging technologies

NAND Flash Memory Technologies

NAND Flash Memory Technologies
Author :
Publisher : John Wiley & Sons
Total Pages : 432
Release :
ISBN-10 : 9781119132608
ISBN-13 : 1119132606
Rating : 4/5 (08 Downloads)

Synopsis NAND Flash Memory Technologies by : Seiichi Aritome

Offers a comprehensive overview of NAND flash memories, with insights into NAND history, technology, challenges, evolutions, and perspectives Describes new program disturb issues, data retention, power consumption, and possible solutions for the challenges of 3D NAND flash memory Written by an authority in NAND flash memory technology, with over 25 years’ experience

Embedded Memory Design for Multi-Core and Systems on Chip

Embedded Memory Design for Multi-Core and Systems on Chip
Author :
Publisher : Springer Science & Business Media
Total Pages : 104
Release :
ISBN-10 : 9781461488811
ISBN-13 : 1461488818
Rating : 4/5 (11 Downloads)

Synopsis Embedded Memory Design for Multi-Core and Systems on Chip by : Baker Mohammad

This book describes the various tradeoffs systems designers face when designing embedded memory. Readers designing multi-core systems and systems on chip will benefit from the discussion of different topics from memory architecture, array organization, circuit design techniques and design for test. The presentation enables a multi-disciplinary approach to chip design, which bridges the gap between the architecture level and circuit level, in order to address yield, reliability and power-related issues for embedded memory.