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Fault Tolerance And Reliability Techniques For High Density Random Access Memories
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Book Synopsis Fault-tolerance and Reliability Techniques for High-density Random-access Memories by : Kanad Chakraborty
Download or read book Fault-tolerance and Reliability Techniques for High-density Random-access Memories written by Kanad Chakraborty and published by Prentice Hall PTR. This book was released on 2002 with total page 456 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book deals with primarily with reliable and faul-tolerant circuit design and evaluation techniques for RAMS. It examines both the manufacturing faul-tolerance (e.g. self-repair at the time of manufacturing) and online and field-related fault-tolerance (e.g. error-correction). It talks a lot about important techniques and requirements, and explains what needs to be done and why for each of the techniques.
Book Synopsis Fault Tolerance And Reliability Techniques For High Density Random Access Memories by : Kanad Chakraborty
Download or read book Fault Tolerance And Reliability Techniques For High Density Random Access Memories written by Kanad Chakraborty and published by . This book was released on 2002 with total page 426 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Nanoelectronics and Photonics by : Anatoli Korkin
Download or read book Nanoelectronics and Photonics written by Anatoli Korkin and published by Springer Science & Business Media. This book was released on 2008-09-23 with total page 484 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nanoelectronics and Photonics provides a fundamental description of the core elements and problems of advanced and future information technology. The authoritative book collects a series of tutorial chapters from leaders in the field covering fundamental topics from materials to devices and system architecture, and bridges the fundamental laws of physics and chemistry of materials at the atomic scale with device and circuit design and performance requirements.
Book Synopsis Essential Electronic Design Automation (EDA) by : Mark Birnbaum
Download or read book Essential Electronic Design Automation (EDA) written by Mark Birnbaum and published by Prentice Hall Professional. This book was released on 2004 with total page 256 pages. Available in PDF, EPUB and Kindle. Book excerpt: & Describes the engineering needs addressed by the individual EDA tools and covers EDA from both the provider and user viewpoints. & & Learn the importance of marketing and business trends in the EDA industry. & & The EDA consortium is made up of major corporations including SUN, HP, and Intel.
Book Synopsis From ASICs to SOCs by : Farzad Nekoogar
Download or read book From ASICs to SOCs written by Farzad Nekoogar and published by Prentice Hall Professional. This book was released on 2003 with total page 224 pages. Available in PDF, EPUB and Kindle. Book excerpt: From ASICs to SOCs: A Practical Approach, by Farzad Nekoogar and Faranak Nekoogar, covers the techniques, principles, and everyday realities of designing ASICs and SOCs. Material includes current issues in the field, front-end and back-end designs, integration of IPs on SOC designs, and low-power design techniques and methodologies. Appropriate for practicing chip designers as well as graduate students in electrical engineering.
Book Synopsis High-speed Signal Propagation by : Howard W. Johnson
Download or read book High-speed Signal Propagation written by Howard W. Johnson and published by Prentice Hall Professional. This book was released on 2003 with total page 806 pages. Available in PDF, EPUB and Kindle. Book excerpt: This advanced-level reference presents a complete and unified theory of signal propagation for all metallic media from cables to pcb traces to chips. It includes numerous examples, pictures, tables and wide-ranging discussion of the high-speed properties of transmission lines.
Download or read book Signal Integrity written by Eric Bogatin and published by Prentice Hall Professional. This book was released on 2004 with total page 612 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thorough review of the fundamental principles associated with signal integrity provides engineering principles behind signal integrity effects, and applies this understanding to solving problems.
Book Synopsis Microelectronic Applications of Chemical Mechanical Planarization by : Yuzhuo Li
Download or read book Microelectronic Applications of Chemical Mechanical Planarization written by Yuzhuo Li and published by John Wiley & Sons. This book was released on 2007-10-19 with total page 764 pages. Available in PDF, EPUB and Kindle. Book excerpt: An authoritative, systematic, and comprehensive description of current CMP technology Chemical Mechanical Planarization (CMP) provides the greatest degree of planarization of any known technique. The current standard for integrated circuit (IC) planarization, CMP is playing an increasingly important role in other related applications such as microelectromechanical systems (MEMS) and computer hard drive manufacturing. This reference focuses on the chemical aspects of the technology and includes contributions from the foremost experts on specific applications. After a detailed overview of the fundamentals and basic science of CMP, Microelectronic Applications of Chemical Mechanical Planarization: * Provides in-depth coverage of a wide range of state-of-the-art technologies and applications * Presents information on new designs, capabilities, and emerging technologies, including topics like CMP with nanomaterials and 3D chips * Discusses different types of CMP tools, pads for IC CMP, modeling, and the applicability of tribometrology to various aspects of CMP * Covers nanotopography, CMP performance and defect profiles, CMP waste treatment, and the chemistry and colloidal properties of the slurries used in CMP * Provides a perspective on the opportunities and challenges of the next fifteen years Complete with case studies, this is a valuable, hands-on resource for professionals, including process engineers, equipment engineers, formulation chemists, IC manufacturers, and others. With systematic organization and questions at the end of each chapter to facilitate learning, it is an ideal introduction to CMP and an excellent text for students in advanced graduate courses that cover CMP or related semiconductor manufacturing processes.
Book Synopsis Signal Integrity Issues and Printed Circuit Board Design by : Douglas Brooks
Download or read book Signal Integrity Issues and Printed Circuit Board Design written by Douglas Brooks and published by Prentice Hall Professional. This book was released on 2003 with total page 418 pages. Available in PDF, EPUB and Kindle. Book excerpt: Complicated concepts explained succinctly and in laymen's terms to both experienced and novice PCB designers. Numerous examples allow reader to visualize how high-end software simulators see various types of SI problems and then their solutions. Author is a frequent and recognized seminar leader in the industry.
Download or read book Proceedings written by and published by . This book was released on 2005 with total page 624 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Lightweight Opportunistic Memory Resilience by : Irina Alam
Download or read book Lightweight Opportunistic Memory Resilience written by Irina Alam and published by . This book was released on 2021 with total page 238 pages. Available in PDF, EPUB and Kindle. Book excerpt: The reliability of memory subsystems is worsening rapidly and needs to be considered as one of the primary design objectives when designing today's computer systems. From on-chip embedded memories in Internet-of-Things (IoT) devices and on-chip caches to off-chip main memories, they have become the limiting factor in the reliability of these computing systems. Today's applications demand large capacity of on-chip or off-chip memory or both. With aggressive technology scaling, coupled with the increase in the total area devoted to memory in a chip, memories are becoming particularly sensitive to manufacturing process variation, environmental operating conditions, and aging-induced wearout. However, the challenge with memory reliability is that the resiliency techniques need to be effective but with minimal overhead. Today's typical error correcting schemes do not take into consideration the data value that they are protecting and are purely based on positional errors. This increases their overheads and makes them too expensive, especially for on-chip memories. Also, the drive for denser off-chip main memories is worsening their reliability. But strengthening today's error correction techniques will result in non-negligible increase in overheads. Hence, this dissertation proposes Lightweight Opportunistic Memory Resilience. We exploit the following three aspects to make memories more reliable with low overheads: (1) Underlying memory fault models, (2) Data value behavior of commonly used applications, and (3) The architecture of the memory itself. We opportunistically exploit these three aspects to provide stronger protection against memory errors. We design novel error detecting and correcting codes and develop several other architectural fault tolerance techniques at minimal overheads compared to the conventional reliability techniques used in today's memories. In part 1 of this dissertation, we address the reliability concerns in lightweight on-chip caches or embedded memories like scratchpads in IoT devices. These memories are becoming larger in size, but needs to be low power. Using standard error correcting codes or traditional row/column sparing to recover from faults are too expensive for them. Here, we leverage the fact that manufacturing defects and aging-induced hard faults usually only affect only a few bits in a memory. These bits, however, inhibit how low of a voltage these chips can be operated at. Traditional software fails even when a small number of bits in a memory are faulty. For the first time, we provide two solutions, FaultLink and SAME-Infer, which help deal with these weak faulty cells in the memory by generating a custom-tailored fault-aware application binary image for each chip. Next, we designed Software-Defined Error Localization Code (SDELC) and Parity++ as lightweight runtime error recovery techniques that leverage the insight that data values have locality in them and certain ranges of data values occur more frequently than others. Conventional ECC is too expensive for these lightweight memories. SDELC uses novel ultra-lightweight error-localizing codes to localize the error to a chunk in the data. It then heuristically recovers from the localized error by exploiting side information about the application's memory contents. Parity++ is a novel unequal message protection scheme that preferentially provides stronger error protection to certain ''special messages". This protection scheme provides Single Error Detection (SED) for all messages and Single Error Correction (SEC) for a subset of special messages. Both these novel codes utilize data value behavior to provide single error correction at 2.5x-4x lower overhead than a conventional hamming single error correcting code. In part 2 of this dissertation, we focus on off-chip main memory technologies. We primarily leverage the details of the memory architecture itself and their dominant fault mechanisms to effectively design reliability schemes. The need for larger main memory capacity in today's workstation or server environments is driving the use of non-volatile memories (NVM) or techniques to enable high density DRAMs. Due to aggressive scaling, the single-bit error rate in DRAMs is steadily increasing and DRAM manufacturers are adopting on-die error correction coding (ECC) schemes, along with within memory controller ECC, to correct single-bit errors in the memory. In COMET we have shown that today's standard on-die ECCs can lead to silent data corruption if not designed correctly. We propose a collaborative on-die and in-controller error correction scheme that prevents double-bit error induced silent data corruption and corrects 99.9997% of these double-bit errors at absolutely no additional storage, latency, and area overheads. Not just DRAMs, reliability is a major concern in most of the emerging NVM technologies. In Compression with Multi-ECC (CME), we propose a new opportunistic compression-based ECC protection scheme for magnetic memory-based main memories. CME compresses every memory line and uses the saved bits to add stronger protection. In some of these NVMs, error rates increase as we try to improve read/write latencies. In PCM-Duplicate, we propose an enhanced PCM architecture that reduces PCM read latency by more than 3x and makes it comparable to that of DRAM. We then use ECC to tolerate the additional errors that arise because of the proposed optimizations. Overall, we have developed a complementary suite of novel methods for tolerating faults and correcting errors in different levels of the memory hierarchy. We exploit the memory architecture and fault mechanisms as well as the application data behavior to tune the proposed solutions to the particular memory characteristics; lightweight solutions for low-cost embedded memories and latency-critical on-chip caches while stronger protection for off-chip main memory subsystems. With memory reliability being a major bottleneck in today's systems, these novel solutions are expected to alleviate this problem, help cope with the unique outcomes of hardware variability in memory systems and provide improved reliability at minimal cost.
Book Synopsis Printed Circuit Board Designer's Reference by : Christopher T. Robertson
Download or read book Printed Circuit Board Designer's Reference written by Christopher T. Robertson and published by Prentice Hall Professional. This book was released on 2004 with total page 306 pages. Available in PDF, EPUB and Kindle. Book excerpt: PCB design instruction and reference manual, all in one book, with in-depth explanation of the processes and tools used in modern PCB design Standards, formulas, definitions, and procedures, plus software to tie it all together.
Book Synopsis High-speed Fault Tolerance in Random Access Memories by : Rina Darmawirya
Download or read book High-speed Fault Tolerance in Random Access Memories written by Rina Darmawirya and published by . This book was released on 1987 with total page 154 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Fault Tolerant Memories by : Altaf Mukati
Download or read book Fault Tolerant Memories written by Altaf Mukati and published by LAP Lambert Academic Publishing. This book was released on 2012-05 with total page 260 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents some novel techniques to deal with the memory errors. The memories, specially the DRAMs, are the big source of errors in computer-based systems. These errors may cause system failures. If the systems are "critical", such as Flight Control Systems, Nuclear Power Plant Control Systems, Space-Bound Systems, Financial Transaction Processing Systems, Traffic Light Control Systems etc., then a single failure may cause human catastrophes or great financial losses. Although the current fabrication technologies are more reliable than earlier ones but the advantage has been offset by the high degree of complexities of today's circuits. The process technology at present scales around 50 nano-meters and the density of DRAMs is in the vicinity of 10 Gb per centimeter square. Such miniaturization has created the new reliability threats to the memory designers. The techniques presented in this book can help the designers to improve the reliability of memories by correcting single & multiple bit errors. The techniques make use of hardware and/or information redundancies. Although this may increase the cost of such systems, but provides improved reliability.
Book Synopsis Testing and Testable Design of High-Density Random-Access Memories by : Pinaki Mazumder
Download or read book Testing and Testable Design of High-Density Random-Access Memories written by Pinaki Mazumder and published by Springer. This book was released on 1996-09-30 with total page 386 pages. Available in PDF, EPUB and Kindle. Book excerpt: "It is not in the interest of business leaders to turn public schools into vocational schools. We can teach [students] how to be marketing people. We can teach them how to manage balance sheets," stated Louis V. Gerstner Jr. of IBM at the recent Education Summit meeting in New York. He continued, "What is killing us is having to teach them to read and to compute and to communicate and to think." (TIME, April 8, 1996, page 40). The last sentence is most significant because it sets requirements for educa tion and hence gives the specification for a textbook. The textbook should contain all the necessary scientific information that the reader will need to practice the art in the technological world. In addition to the scientific detail, illustrative examples are necessary. The book should teach science without restricting creativity, and it should prepare the student for solving problems never encountered before. In pursuing our goal of advancing the frontiers of test technology, we must cover applications, education, and research. This is the first textbook in the "Frontiers" series. Semiconductor memories represent the frontier of VLSI in more ways than one. First, memories have always used more aggressive physical design rules and higher densities than other VLSI chips, thus advancing the semiconductor technology. Second, the availability of low-cost memory chips makes numerous software applications possible by fueling the demand for all types of chips.
Book Synopsis IBM Journal of Research and Development by :
Download or read book IBM Journal of Research and Development written by and published by . This book was released on 1984 with total page 812 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Synchronization and Fault Tolerance Techniques in Concurrent Shared Memory Systems by : Sahil Dhoked
Download or read book Synchronization and Fault Tolerance Techniques in Concurrent Shared Memory Systems written by Sahil Dhoked and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Mutual exclusion is one of the most commonly used techniques to handle contention in concurrent systems. Traditionally, mutual exclusion algorithms have been designed under the assumption that a process does not fail while acquiring/releasing a lock or while executing its critical section. However, failures do occur in real life, potentially leaving the lock in an inconsistent state. This gives rise to the problem of recoverable mutual exclusion (RME) that involves designing a mutual exclusion (ME) algorithm that can tolerate failures, while maintaining safety and liveness properties. With the recent development of NVRAM (non-volatile random-access memory) technologies, there is renewed interest in the RME problem. The NVRAM technology is a combination of the low latency of traditional random-access memory with the high persistence of disk storage media. NVRAMs can be used to provide near-instantaneous recovery to many problems including the RME problem. This work describes techniques for designing efficient algorithms to solve the RME problem under two different failure models, independent failure model and system-wide failure model, depending on whether processes fail independently or simultaneously. Additionally, especially for systems with low memory capacity, this work describes fault-tolerant techniques for reclaiming memory, in case there is no built-in support for garbage collection. The primary measure of an RME algorithm is its performance. Performance of any ME algorithm, including an RME algorithm, is measured by the number of remote memory references (RMRs) made by a process—for acquiring and releasing a lock as well as recovering the lock structure after a failure. Loosely speaking, it represents the number of expensive shared memory instructions. In this work, two models of RMR computation are considered: (a) the CC model, and (b) the DSM model. The results mentioned in this work are applicable to both of these computation models. For the independent failure model, this work presents a framework that transforms any algorithm that solves the RME problem into an algorithm whose performance (in terms of RMRs) can simultaneously adapt to (a) the number of processes competing for the lock, as well as (b) the number of failures that have occurred in the recent past, while maintaining the correctness and performance properties of the underlying RME algorithm. Assume that, for n processes, the RMR complexity of the underlying RME algorithm is R(n). Then, this framework yields an RME algorithm for which the RMR complexity is given by O(min{c, ̈ √ F + 1, R(n)}), where ̈c denotes the point contention (number of active processes) and F denotes the number of failures in the recent past. The system-wide failure model is a special case of the independent failure model that assumes that failures only occur simultaneously. For example, a power outage is a real life example of such a failure. This model makes a stronger assumption than just multiple independent failures. This assumption is leveraged with enhanced RME algorithms presented under this model. For the system-wide failure model, this work presents optimal RME algorithms (and related transformations) whose worst-case performance yield a O(1) RMR complexity. The fault-tolerant memory reclamation algorithm provides novel techniques to bound the worst-case space complexity of RME algorithms. The techniques used are general enough that they may also be employed to bound the space complexity of other RME algorithms. Its RMR complexity is merely an additive factor of O(1).
