System on chip interfaces for low power design / [electronic resource]
by Mishra, Sanjeeb [author.]; Singh, Neeraj Kumar [author.]; Rousseau, Vijayakrishnan [author.].
Material type: BookPublisher: Amsterdam : Morgan Kaufmann is an imprint of Elsevier, 2016.Description: 1 online resource.ISBN: 9780128017906; 0128017902; 0128016302; 9780128016305.Subject(s): Systems on a chip | Low voltage integrated circuits -- Design and construction | COMPUTERS / Computer Literacy | COMPUTERS / Computer Science | COMPUTERS / Data Processing | COMPUTERS / Hardware / General | COMPUTERS / Information Technology | COMPUTERS / Machine Theory | COMPUTERS / Reference | Low voltage integrated circuits -- Design and construction | Systems on a chip | Electrical Engineering | Electrical & Computer Engineering | Engineering & Applied Sciences | Electronic booksOnline resources: ScienceDirectOnline resource; title from PDF title page (EBSCO, viewed November 23, 2015)
Includes bibliographical references and index.
Front Cover; System on Chip Interfaces for Low Power Design; Copyright; Copyright Permissions; Dedication; Contents; Acknowledgments; Chapter 1: SoC Design Fundamentals and Evolution; Introduction; Typical system components; Categorization of computer systems; System approach to design; Hardware software co-design; System design methodologies; System on board; Advantages of SoB; Disadvantages of SoB; System on chip; Advantages of SoC; Disadvantages of SoC; System in a package; Advantages of SiP; Disadvantages of SiP; Application-specific integrated circuit; Advantages of ASIC.
Disadvantages of ASICSystem on programmable chip; Advantage of SoPC; Disadvantage of SoPC; System design trends; Hardware IC design fundamentals; Chip design tradeoff; Chapter 2: Understanding Power Consumption Fundamentals; Why power optimization is important; Power consumption in IC; Static power; Leakage power; Standby power; Dynamic power; Power optimization in IC; Power consumption of a system; Power optimization at the system level; Active power management; Idle power management; Connected standby power management; ACPI states; Global and system states; Device states; Processor states.
Chapter 3: Generic SoC Architecture ComponentsGeneric SoC Block Diagram; Subsystems of an SoC; CPU; Instruction set architecture; ISA category; Endianness; Performance; Bus, fabric, and interconnect; Display; Multimedia; Audio; Graphics; Imaging; Communication; Bluetooth; Wi-Fi/wireless LAN; Mobile telecommunication standards: 2G/3G/4G/LTE; GPS; FM; Near field communication; Memory; Volatile memory; Nonvolatile memory; Volatile versus nonvolatile memory; Security; Power; Power delivery; Power management; Battery charging; Sensor interfaces; Input devices; Debug interfaces; Conclusion.
Chapter 4: Display InterfacesGeneric Display Concepts; Display Interface Overview; Extended Display Identification Data (EDID) and Display Data Channel (DDC); Extended Display Identification Data; Display Data Channel; Presence detect; Display Interface Classification; External Display Interface; Video Graphics Array (VGA); Digital Visual Interface (DVI); Parallel digital display interface; Serial digital display interface; Differential signaling-Why it is important; Transition-minimized differential signaling; DVI TMDS link architecture; High-Definition Multimedia Interface (HDMI)
Data encoding and packetizationAudio basics; Audio data transmission over video blanking; Audio clock regeneration; Audio data delivery rate; Infoframes; HDMI connector; DisplayPort (DP); Main link operation; AUX channel operation; Link training; Link operation; Micro packets-Transfer units; Secondary streams; Audio transmission without video; Other uses of HPD; DP connector; Internal Display Interface; Overview; LCD operation; Panel power sequence; Panel power saving; Backlight power reduction; Remote frame buffer; Low Voltage Differential Signaling (LVDS); LVDS panel power sequencing.
There are no comments for this item.