Embedded Memories for Nano-Scale VLS

yimingxn

Series: Integrated Circuits and Systems

Zhang, Kevin (Ed.)

2009, 400 p. 110 illus., Hardcover
ISBN: 978-0-387-88496-7

About this book

• Provides a comprehensive and in-depth view on the state-of-the-art embedded memory technologies
• Gives an overview on the landscape and trend of embedded memory in various VLSI system designs, including high-performance microprocessor, low-power mobile handheld devices, micro-controllers, and various consumer electronics
• Shows an in-depth view on each different type of embedded memory technology, including high-speed SRAM, ultra-low-voltage and alternative SRAM, embedded DRAM, embedded nonvolatile memory, and emerging or so-called "universal" memories such as FeRAM, MRAM, and PRAM
• Covers all the key technology attributes from a product application perspective, ranging from technology scaling challenges to advanced circuit techniques for achieving optimal design tradeoff in performance and power

Embedded Memories for Nano-Scale VLSIs provides a comprehensive and in-depth view on the state-of-the-art embedded memory technologies. The material covers key technology attributes and advanced design techniques in nano-scale VLSI design. It also discusses how to make decisions concerning the right design tradeoffs in real product development.
This book first provides an overview on the landscape and trend of embedded memory in various VLSI system designs, including high-performance microprocessor, low-power mobile handheld devices, micro-controllers, and various consumer electronics. It then shows an in-depth view on each different type of embedded memory technology, including high-speed SRAM, ultra-low-voltage and alternative SRAM, embedded DRAM, embedded nonvolatile memory, and emerging or so-called "universal" memories such as FeRAM and MRAM. Each topic includes coverage of the key technology attributes from a product application perspective, ranging from technology scaling challenges to advanced circuit techniques for achieving optimal design tradeoff in performance and power. VLSI systems are becoming increasingly dependent on on-die memory to provide adequate memory bandwidth for various applications and this book gives readers a broader view of this important field to help them to achieve their optimal design goals for different applications.
Embedded Memories for Nano-Scale VLSIs is a valuable reference for engineers and academics in the field.

Written for » Professional/practitioner
Keywords » Embedded DRAMs - Embedded Non-Volatile Memory - Memory Technologies - Nano-Scale VLSIs - On-Die Memories - SRAMs - Zhang
Related subjects » Circuits & Systems - Electronics & Electrical Engineering - Hardware - Nanotechnology

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