Building the Power-Efficient PC

Overview

Here is the first comprehensive hardware and software engineering guide for designing power-managed PCs. Written by PC experts, this book provides developers and integrators with practical knowledge and design techniques for building PCs that address the increasing demand for energy conservation. With power management, a PC can have lower overall power utilization, automated off-hours maintenance, and an improved end-user experience. Recent regulations and labeling programs mandate tighter restrictions on ...
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Overview

Here is the first comprehensive hardware and software engineering guide for designing power-managed PCs. Written by PC experts, this book provides developers and integrators with practical knowledge and design techniques for building PCs that address the increasing demand for energy conservation. With power management, a PC can have lower overall power utilization, automated off-hours maintenance, and an improved end-user experience. Recent regulations and labeling programs mandate tighter restrictions on platform power consumption. PC hardware developers, software programmers, and system integrators must work together to build systems that meet the new power management guidelines. Instead of rehashing specifications, Building the Power-Efficient PC clearly explains how a properly designed system functions during power state transitions and shows you in detail how those transitions can be implemented in the hardware and software. Topics include:
  • Background and history of PC power management
  • Key power management concepts
  • Control flow through power states
  • Design considerations for desktop and mobile hardware
  • Drivers for Microsoft Windows and Linux
  • Specific techniques for application software
  • Testing and validation

In addition, a companion CD-ROM provides all of the latest power management specifications and reference materials to help you design your product.

 

AUTHORBIO:
Jerzy Kolinski developed the first desktop PC to showcase new ACPI power management concepts. As an Intel Systems and Hardware Architect, he has worked with OEMs during their development process to deliver Instantly Available PC (IAPC) products. Jerzy joined Intel in 1989 and has led teams developing desktop and server systems.

Ram Chary is a Systems Architect in the Intel Platform Architecture Lab focused on the software aspects of enabling IAPC. In his 14 years at Intel, Ram has developed processor microcode, real-time kernels, networking products, and managed the development of audio/video conferencing products.

Andrew Henroid led the early development of ACPI and power management for Linux, and has contributed on a wide variety of projects within the open-source community. Andy's experience at Intel includes OS design, network architecture, and security.

Barry Press has designed leading-edge computer hardware, software, and networks for over 25 years. He has taught as an adjunct professor of computer science at the University of Southern California. Barry is the author of PC Upgrade and Repair Bible, Networking by Example, and Teach Yourself PCs.

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Product Details

  • ISBN-13: 9780970284686
  • Publisher: Intel Press
  • Publication date: 1/28/2002
  • Series: Engineer to Engineer Ser.
  • Edition description: BK&CD-ROM
  • Pages: 268
  • Product dimensions: 7.92 (w) x 8.70 (h) x 0.68 (d)

Meet the Author

Jerzy Kolinski developed the first desktop PC to showcase new ACPI power management concepts. As an Intel Systems and Hardware Architect, he has worked with OEMs during their development process to deliver Instantly Available PC (IAPC) products. Jerzy joined Intel in 1989 and has led teams developing desktop and server systems.

Ram Chary is a Systems Architect in the Intel Platform Architecture Lab focused on the software aspects of enabling IAPC. In his 14 years at Intel, Ram has developed processor microcode, real-time kernels, networking products, and managed the development of audio/video conferencing products.

Andrew Henroid led the early development of ACPI and power management for Linux, and has contributed on a wide variety of projects within the open-source community. Andy's experience at Intel includes OS design, network architecture, and security.

Barry Press has designed leading-edge computer hardware, software, and networks for over 25 years. He has taught as an adjunct professor of computer science at the University of Southern California. Barry is the author of PC Upgrade and Repair Bible, Networking by Example, and Teach Yourself* PCs.

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Read an Excerpt

Chapter 2: Power Management History and Motivation

In the early days of pers nal computing, under the DOS and CP/M operating systems, there was no power management —computers either used 100 percent of their power requirements or were switched off. Personal computer power management history dates back at least to1989, when Intel shipped processors with technology to allow the CPU to slow down, suspend, or shut down part or all of the system platform, or even the CPU itself, to preserve and extend battery life. The increasing importance of power management reflects the increasing number of PCs in use and their transition to tools that go wherever people go.

Three interlocked tracks guided the development of PC power management —one for power management specifications, one for system design specifications, and one for application specifications. Figure 2. 1 shows the timeline for key power management and system design specifications;application program power management specifications are defined by the underlying ACPI operating system.You'll learn later in this chapter how problems in early power management technology, particularly the Advanced Power Management (APM) Specification, directly influenced the design of the Peripheral Component Interconnect (PCI) and ACPI specifications.

Responding to Requirements

Mobile computers started the drive for PC power management. Early attempts, including the Osborne computer and "luggable " PCs with cathode ray tubes, drew so much power they had no alternative but to plug into external power sources. The development of low cost, reliable liquid crystal displays (LCDs)made battery powered laptops possible in the late 1980s, and once hardware technology crossed that line, a sequence of hardware and software improvements began that have combined to increase the performance and on-battery lifetime of laptops.

The monumental number of PCs operating worldwide creates other requirements for PC power management. Because there are hundreds of millions of PCs in operation, the installed base of computers worldwide consumes tens of gigawatts for every hour of operation. Even small changes in average desktop computer power consumption can, on the global scale, save as much power as generated by a small power plant.

Mobile and Battery Powered Computers

Table 2.1 shows the historical mobile platform power road map, detailing the ever-increasing power required for increased performance in all subsystems. Mobile computers use the least power of any PC platform, both to extend battery life and reduce heat dissipation. However, the increasing power demands from the constant drive to increase mobile computing performance to near-desktop levels mean even these limits will go down over time.

Energy Star Guidelines

The United States Environmental Protection Agency (EPA)publishes Energy Star guidelines that suggest ways to reduce power consumption. Addressing the power consumed by the many computers in use, the EPA notes:
A typical computer, monitor, printer, fax machine, and medium speed copier cost about $185 annually to operate, not including the cost of paper. Operating similar equipment that meets the Energy Star criteria costs about $97. Turning off the equipment at night can cut the annual energy costs even further.

The Energy Star label identifies energy efficient products that save money by eliminating unnecessary energy use. Energy-efficient office equipment saves energy by powering down and going to sleep during periods of inactivity, but retains all the performance features of standard equipment. On a monthly or annual basis, this equipment uses about half as much energy as standard equipment, saving owners millions of dollars in electricity costs.

The EPA is interested in power management for another important reason:using power management in office equipment offers huge potential for dramatically cutting air pollution associated with electricity use.

The Energy Star guidelines also have been adopted outside the United States. Although power c sts overall have declined in the U.S., they have increased in other parts f the world. Increased power costs underscore the benefits of using Energy Star qualified products.

The Energy Star guidelines introduced in 1993 required computers to consume less than 30 watts when in their reduced-power state. Revised guidelines effective as of January 1, 1998 imposed the requirements in Table 2. 2, making it possible for workstations to qualify for Energy Star compliance.

A clarification to the standard published in April 2000 notes that the operating system is typically a key component for entering and recovering from sleep modes, and requires that all necessary software to enable sleep modes be provided by manufacturers. The Energy Star web site (http://www.energystar.gov) provides the latest updated specifications.

The Energy Star guidelines for computers require sleep state power consumption of 15 watts or less. In addition, computers must be able to maintain communication and wake up on demand.

Hardware Improvements and Advanced Power Management

Energy Star is a set of voluntary energy-efficiency guidelines,not a technology or design guide.The computer industry first introduced the Advanced Power Management technology in 1992 to reduce power consumption below the 60 to 80 watt requirements of DOS-based systems.APM was invented at Intel as a power management technology for mobile systems. The APM 1.0 specification was written by Intel, Microsoft, and IBM with the goal of coordination between BIOS-driven power management and the operating system to prevent unpredictable behavior caused by the two operating independently. Desktops used APM primarily to allow the operating system to reduce CPU power when idle. The APM interface passed events between the operating system and the BIOS, such as the BIOS telling the operating system events such as "the platform is going to suspend now," or the operating system posting a "suspend request event." Later versions of APM added handshaking, but the underlying goal remained to coordinate power management actions between the operating system and the platform....
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Table of Contents

Ch. 1 Introduction 1
Ch. 2 Power Management History and Motivation 7
Ch. 3 Key Power Management Concepts 19
Ch. 4 Basic Power Management Scenarios 33
Ch. 5 ACPI Desktop Motherboard Design Considerations 49
Ch. 6 Dual Mode Desktop Power Delivery 69
Ch. 7 System BIOS 91
Ch. 8 Peripheral Devices 101
Ch. 9 Desktop System Validation 115
Ch. 10 Designing Mobile Systems 135
Ch. 11 Drivers 151
Ch. 12 Developing Robust Power-Managed Applications 179
Ch. 13 Future Directions 195
App. A Developer Resources 199
App. B: Glossary 203
App. C ACPI Register and Bit Glossary 231
App. D: About the CD-ROM 235
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