24404A [ETC]
AMD PowerNow!? Technology Platform Design Guide Application Note AMD PowerNow! Technology White Paper ; AMD的PowerNow !?技术平台设计指南应用指南的AMD PowerNow !技术白皮书\n
| 型号: | 24404A |
| 厂家: | 
ETC |
| 描述: | AMD PowerNow!? Technology Platform Design Guide Application Note AMD PowerNow! Technology White Paper
|
| 文件: | 总18页 (文件大小:386K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
AMD PowerNow!™
Technology
Dynamically Manages Power
and Performance
Informational White Paper
Publication #: 24404 Rev: A
Issue Date: November 2000
Amendment/0
© 2000 Advanced Micro Devices, Inc. All rights reserved.
The contents of this document are provided in connection with Advanced
Micro Devices, Inc. ("AMD") products. AMD makes no representations or
warranties with respect to the accuracy or completeness of the contents of this
publication and reserves the right to make changes to specifications and
product descriptions at any time without notice. No license, whether express,
implied, arising by estoppel or otherwise, to any intellectual property rights
is granted by this publication. Except as set forth in AMD’s Standard Terms
and Conditions of Sale, AMD assumes no liability whatsoever, and disclaims
any express or implied warranty, relating to its products including, but not
limited to, the implied warranty of merchantability, fitness for a particular
purpose, or infringement of any intellectual property right.
AMD’s products are not designed, intended, authorized or warranted for use
as components in systems intended for surgical implant into the body, or in
other applications intended to support or sustain life, or in any other
application in which the failure of AMD’s product could create a situation
where personal injury, death, or severe property or environmental damage
may occur. AMD reserves the right to discontinue or make changes to its
products at any time without notice.
Trademarks
AMD, the AMD logo, and combinations thereof, 3DNow!, AMD PowerNow!, and AMD-K6 are trademarks, and
FusionE86 is a service mark of Advanced Micro Devices, Inc.
Microsoft and Windows are registered trademarks of Microsoft Corporation.
Pentium is a registered trademark of Intel Corporation.
Winstone is a registered trademark of Ziff-Davis, Inc.
Other product names used in this publication are for identification purposes only and may be trademarks of their
respective companies.
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Contents
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
What is AMD PowerNow!™ Technology?. . . . . . . . . . . . . . . . . . . . . . . 2
Dynamic Control of Voltage and Frequency. . . . . . . . . . . . . . . 2
Operating Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Key Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Implementing AMD PowerNow!™ Technology . . . . . . . . . . . . . . . . . . 4
Ease of Implementation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Software Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Real-Time Operating System Environments. . . . . . . . . . . . . . . 7
®
Microsoft Operating Systems . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Designing a System Enabled with AMD PowerNow!™
Technology is Easy. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Competitive Advantages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Feature Comparison. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Supported Frequencies and Voltages . . . . . . . . . . . . . . . . . . . 10
AMD Products Supporting AMD PowerNow!™ Technology . 12
Questions and Answers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
List of Figures
Figure 1. AMD-K6™-2E+ or AMD-K6™-IIIE+ Processor with
AMD PowerNow!™ Technology Signals . . . . . . . . . . . . . . . . . . . 4
Figure 2. Power Comparison (High-Performance Mode versus
AMD PowerNow!™ Technology Power-Saver Mode) . . . . . . . . . 8
Contents
iii
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
List of Tables
Table 1.
Feature Comparison of AMD PowerNow!™ Technology
and Intel’s SpeedStep . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Supported Voltages and Operating Frequencies
Table 2.
for Low-Power AMD-K6™-2E+ Processors Enabled with
AMD PowerNow!™ Technology . . . . . . . . . . . . . . . . . . . . . . . . . 10
Supported Voltages and Operating Frequencies
for Low-Power AMD-K6™-IIIE+ Processors Enabled with
AMD PowerNow!™ Technology . . . . . . . . . . . . . . . . . . . . . . . . . 11
All AMD-K6™-2E+ and AMD-K6™-IIIE+ Low-Power Processors
Support AMD PowerNow!™ Technology. . . . . . . . . . . . . . . . . . 12
Table 3.
Table 4.
iv
List of Tables
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Informational White Paper
AMD PowerNow!™
Technology Dynamically
Manages Power and
Performance
Overview
The AMD-K6™-2E+ and AMD-K6™-IIIE+ embedded processors
are targeted at tethered applications. Because these
applications use non-exhaustible sources of power, system
designers are primarily concerned with cooling the embedded
processor efficiently with a fan-less or passive heat sink. As a
result, it is critical for such an application to fall below the
power threshold for a passive thermal solution and still function
reliably without the need for a fan.
AMD’s new power-management feature, called
AMD PowerNow!™ technology, enables a low-power
AMD-K6-2E+ or AMD-K6-IIIE+ processor to actively function
while dissipating less than 3 W of power. With its multiple
modes of operation and dynamically supported frequencies and
voltages, AMD PowerNow! technology empowers a developer to
optimize power and performance to best meet the requirements
for a passive thermal solution without compromising
performance.
Overview
1
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
What is AMD PowerNow!™ Technology?
AMD PowerNow! technology is an advanced, second-generation
power-management feature that reduces the overall power
consumed by the processor through control of voltage and
frequency. This power-saving technology is designed to be
dynamic and flexible by enabling instant, on-the-fly, and
independent control of both the voltage and frequency.
Currently, AMD PowerNow! technology is available on all
AMD-K6-2E+ and AMD-K6-IIIE+ low-power embedded
processors.
The AMD-K6-2E+ and AMD-K6-IIIE+ embedded processors
extend the performance range of Socket-7 compatible x86
embedded processors to unparalleled levels. AMD PowerNow!
technology enables reduced power consumption with
performance on demand for power-sensitive embedded
applications.
Dynamic Control of Voltage and Frequency
Unlike many other currently available power management
features, AMD PowerNow! technology is designed to provide
very fine and dynamic control of voltage and frequency.
■ AMD PowerNow! technology is able to support up to 32
1
different core voltage settings ranging from 0.925 to 2.00 V
with voltage steps as small as 25 or 50 mV.
■ The technology also supports the complete frequency
operating range of the processor in use and is independently
2
controlled, allowing steps of 33 or 50 MHz from an absolute
low of 133 or 200 MHz.
1. Absolute electrical ratings, provided in each processor data sheet, must be
adhered to for each specific processor model.
2. Depending upon a bus speed of 66 or 100 MHz.
2
What is AMD PowerNow!™ Technology?
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Operating Modes
Along with the finest granularity of control in the industry,
AMD PowerNow! technology supports different modes of
operation.
■ In High-Performance mode, the processor runs at the
maximum rated voltage and speed providing the maximum
performance possible.
■ Changing to Power-Saver mode configures the processor to
run at the lowest voltage and frequency supported for the
most efficient power profile.
■ In Automatic mode, the speed and voltage are dynamically
and automatically determined by actual performance
demands of the application. In Automatic mode, the needs of
the application environment dictate the amount of
performance required and power used. This mode of operation
ensures that only the required amount of power is dissipated
to meet the performance demands of the application.
These features are possible through the modifications made in
the AMD-K6 processor core. They include an integrated CPU
clock speed control and additional pins to control an off-the-
shelf programmable voltage regulator. None of these features
requires changing any external bus frequencies, thereby
maintaining overall integrity of the system and reducing the
possibility of complications.
Key Features
■ Supported on all AMD-K6-2E+ and AMD-K6-IIIE+ low-power
processors.
■ Up to 32 allowable core voltages driven by Voltage
Identification (VID) pins.
■ 25 and 50 mV core voltage steps for the finest control.
■ Scalable frequency control from a low of 133 or 200 MHz
with steps of 33 or 50 MHz.
■ Voltage and frequency are independently configurable.
■ Automatic mode support for precise and errorless power and
performance scaling.
What is AMD PowerNow!™ Technology?
3
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
Implementing AMD PowerNow!™ Technology
AMD PowerNow! technology is available on all low-power
AMD-K6-2E+ and AMD-K6-IIIE+ processors. AMD’s newly-
released second-generation power-saving technology is easily
accessed and controlled through the Enhanced Power
Management (EPM) 16-byte I/O block.
■ The Enhanced Power Management Register (EPMR) is a
model-specific register (MSR). It is used to map and enable
1
access to the EPM 16-byte I/O block.
■ By modifying the EPM block, the operating system (OS) can
2
change the voltage and bus frequency multiplier settings .
As shown in Figure 1, the external VID[4:0] pins can be routed
to an external programmable voltage regulator to modify the
V
core voltage.
CC2
AMD-K6™-2E+ or AMD-K6™-IIIE+
Embedded Processor
Enhanced AMD-K6™ CPU
in 0.18 m process with
AMD PowerNow!™
Technology
BF[2:0]
VID/BF Pin Logic
VID[4:0]
Enhanced Power Management
Register (EPMR)
Frequency Multiplier and
Voltage Regulator Control
Figure 1. AMD-K6™-2E+ or AMD-K6™-IIIE+ Processor with
AMD PowerNow!™ Technology Signals
1. See the Embedded AMD-K6™ Processors BIOS Design Guide
Application Note, order# 23913, and the AMD PowerNow!™ Technology
Platform Design Guide for Embedded Processors Application Note,
order# 24267, for more information about the EPMR and the EPM I/O
block.
2. Bus frequency pins need not be modified. The internal processor frequency is
updated by altering the internal processor clock and not the external bus
frequency.
4
Implementing AMD PowerNow!™ Technology
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Processor frequency is modified by writing to a 4-byte field in
the EPM I/O block that controls the bus frequency multiplier.
This is done internally to the processor and does not affect any
external signals or clocks. The external Bus Frequency (BF)
pins should be used for power-on self test (POST) and RESET
strapping only; the pin states are not modified when invoking
AMD PowerNow! technology.
For the AMD-K6-2E+ and AMD-K6-IIIE+ low-power processors,
operation can be maintained down to a core voltage of 1.4 V at a
processor clock frequency of 200 MHz. With a multitude of
intermediate steps between the rated maximum and minimum
of the processor, a system designer can pinpoint and implement
the optimal performance and power profile for any application
at any time.
Ease of Implementation
■ Built-in bus frequency (BF) multiplier and VID control.
■ Dynamic VID pins for controlling V regulator.
CC2
■ Programmable bus frequency (BF) with on-chip registers.
■ Default VID state for “safe” power-up.
■ Clock multiplier and regulator voltage is controlled by
software.
■ CPU uses BF pins.
Implementing AMD PowerNow!™ Technology
5
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
Software Control
For embedded applications, software to support
AMD PowerNow! technology can be implemented in one of two
ways.
■ For real-time operating systems (RTOS), like embedded
Linux, AMD PowerNow! technology is supported in the
operating system or BIOS.
®
■ For Microsoft
operating systems, AMD PowerNow!
technology is supported through a publicly available driver.
It is the driver, OS, or BIOS that places the processor in the
EPM Stop Grant State and invokes desired changes.
Software control allows AMD PowerNow! technology to be
easily implemented, even for short design cycles. The only
unique software required from the system designer is software
that:
■ Implements Automatic mode
■ Determines what factors should drive a frequency or voltage
transition
In some cases, this may be as simple as tracking CPU activity to
step frequency and voltage up and down in accordance with
demand. In this case, the designer would need to incorporate
the CPU monitoring into the application environment so that
AMD PowerNow! technology state transitions are only invoked
under desired conditions.
The modifications for actually altering voltage and frequency
take place in EPM Stop Grant State and are handled
transparently.
6
Software Control
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Real-Time Operating System Environments
In the RTOS environment, AMD PowerNow! technology is
supported through the operating system (OS) and/or BIOS. The
RTOS or BIOS carries the burden of invoking the EPM Stop
Grant State and reading and writing to the EPMR and the EPM
16-Byte I/O block. Additionally, locking the processor from
external interruption, writes, or snoops during the
AMD PowerNow! technology transition is handled
automatically.
Microsoft® Operating Systems
In Microsoft operating systems, AMD PowerNow! technology
state changes are invoked by a System Management Mode
(SMM) handler. SMM is the control vehicle for safely accessing
the EPMR and EPM 16-byte I/O block to control the processor’s
operating voltage and frequency.
The key benefit of using SMM while changing the state of the
processors' operation is that, in a Microsoft operating system,
SMM provides full access to the processor, while locking out
external accesses that could interrupt a successful transition.
This is easily done in SMM by setting the Advanced
Configuration and Power Management Interface (ACPI)
defined ARB-DIS bit to prevent PCI/AGP bus master access
while modifying model-specific register (MSR) bits.
Designing a System Enabled with AMD PowerNow!™ Technology is Easy
■ RTOS control and support are provided.
■ Driver for Microsoft operating system support is provided.
■ AMD PowerNow! technology state changes are handled
directly through software control.
®
■ AMD PowerNow! technology driver for Microsoft operating
system invokes SMM handler for state transitions through
the SMI command port.
■ Internal bit values reflect voltage and bus multiplier values
invoked in EPM Stop Grant State.
■ EPM Stop Grant State timer ensures stable supply voltage
and Phase Locked Loop (PLL) frequency. (Maximum
duration for stable operation is 200 ms.)
■ Processor automatically returns to normal operation upon
exiting EPM Stop Grant State.
Software Control
7
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
Power Dissipation
AMD PowerNow! technology can cut power dissipation by
1
almost 75% , as shown in Figure 2.
12
10
AMD PowerNow!™ Technology
Power-Saver Mode
8
6
4
AMD-K6™-2E+ Processor
Active Application Power
AMD-K6™-IIIE+ Processor
Active Application Power
2
0
350
400
450
500
Maximum Frequency (MHz)
Figure 2. Power Comparison (High-Performance Mode versus AMD PowerNow!™ Technology
Power-Saver Mode)
1. Comparison of active application power dissipation of an AMD-K6-IIIE+500ANZ processor at a maximum frequency of 500 MHz
and AMD PowerNow! technology Power-Saver mode of 200 MHz at 1.4-V VCC2.
8
Power Dissipation
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Competitive Advantages
AMD PowerNow! technology offers numerous advantages over the
competition’s solution. These advantages include:
■ Customization
■ Three modes of operation (Automatic, High-Performance, and
Power-Saver)
■ Increased power savings
■ 3 W versus 7 W
■ Higher degree of flexibility for both voltage and frequency
■ Independent and dynamic control
■ Multiple voltage and frequency settings supported
■ Available on all AMD-K6-2E+ and AMD-K6-IIIE+ low-power
processors
Feature Comparison
Table 1 compares the features of AMD PowerNow! technology with
Intel’s SpeedStep.
Table 1. Feature Comparison of AMD PowerNow!™ Technology and Intel’s SpeedStep
Feature
AMD PowerNow!™ Technology
Intel SpeedStep
Customer Customization
Low-Power Mode
Operating States
Yes
No
Estimated 3 W1
Estimated 7 W1
Up to 32 (more flexibility for developers)
Yes (optimized performance and power usage)
2
Automatic Mode2
Availability
No
®
All low-power AMD-K6™-2E+ and AMD-K6™-IIIE+ processors
High-end only (Pentium III 600+)
Notes:
1. Power estimates taken by running ZD Winstone® Benchmark with continuous CPU operation.
2. Automatic mode—Continuously varies processor operating voltage and frequency based on application demand.
Competitive Advantages
9
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
Supported Frequencies and Voltages
Table 2 and Table 3 list the frequencies and voltages supported
by AMD PowerNow! technology for each processor.
Table 2. Supported Voltages and Operating Frequencies for Low-Power AMD-K6™-2E+ Processors
Enabled with AMD PowerNow!™ Technology
Range of Supported
1
3
Core Voltage
Ordering Part Number
Active Power
2
Operating Frequencies
450–200 MHz
400–200 MHz
350–200 MHz
300–200 MHz
400–200 MHz
350–200 MHz
300–200 MHz
350–200 MHz
300–200 MHz
1.7 V
1.6 V
1.5 V
1.4 V
1.6 V
1.5 V
1.4 V
1.5 V
1.4 V
8.70–4.90 W
6.90–4.20 W
5.60–3.70 W
4.30–2.95 W
6.90–4.20 W
5.60–3.70 W
4.30–2.95 W
5.60–3.70 W
4.30–2.95 W
AMD-K6-2E+/450APZ
AMD-K6-2E+/400xTZ
AMD-K6-2E+/350xUZ
Notes:
1. An x in this column represents the package type. See the processor data sheet for a full description of ordering part number notation.
2. AMD PowerNow! technology enables the operating frequency to step down in increments corresponding to the available bus frequency
multipliers. Note that 250-MHz operation is not supported due to exclusion of 2.5 bus frequency multiplier.
3. Active application power dissipation for highest and lowest supported frequency at specified voltage.
10
Competitive Advantages
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Table 3. Supported Voltages and Operating Frequencies for Low-Power AMD-K6™-IIIE+ Processors
Enabled with AMD PowerNow!™ Technology
Range of Supported
1
3
Core Voltage
Ordering Part Number
Active Power
2
Operating Frequencies
500–200 MHz
450–200 MHz
400–200 MHz
350–200 MHz
300–200 MHz
450–200 MHz
400–200 MHz
350–200 MHz
300–200 MHz
400–200 MHz
350–200 MHz
300–200 MHz
1.8 V
1.7 V
1.6 V
1.5 V
1.4 V
1.7 V
1.6 V
1.5 V
1.4 V
1.6 V
1.5 V
1.4 V
11.40–5.80 W
8.95–4.90 W
7.10–4.20 W
5.60–3.70 W
4.30–2.95 W
8.95–4.90 W
7.10–4.20 W
5.60–3.70 W
4.30–2.95 W
7.10–4.20 W
5.60–3.70 W
4.30–2.95 W
AMD-K6-IIIE+500ANZ
AMD-K6-IIIE+450APZ
AMD-K6-IIIE+400xTZ
Notes:
1. An x in this column represents the package type. See the processor data sheet for a full description of ordering part number notation.
2. AMD PowerNow! technology enables the operating frequency to step down in increments corresponding to the available bus frequency
multipliers. Note that 250-MHz operation is not supported due to exclusion of 2.5 bus frequency multiplier.
3. Active application power dissipation for highest and lowest supported frequency at specified voltage.
Competitive Advantages
11
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
AMD Products Supporting AMD PowerNow!™ Technology
Table 4 lists all the ordering part numbers that support
AMD PowerNow! technology.
Table 4. All AMD-K6™-2E+ and AMD-K6™-IIIE+ Low-Power Processors Support AMD PowerNow!™
Technology
2
Active Power /
AMD PowerNow!™
Technology
1
Ordering Part Number (OPN)
Enabled with AMD PowerNow!™
Technology
Core Voltage
Temperature
(°Celsius)
Nominal V
Package
CPGA, OBGA
CPGA, OBGA
CPGA
Power-Saver Mode
CC2
AMD-K6-2E+/350xUZ
AMD-K6-2E+/400xTZ
AMD-K6-2E+/450APZ
AMD-K6-IIIE+400xTZ
AMD-K6-IIIE+450APZ
AMD-K6-IIIE+500ANZ
0°-85°
0°-85°
0°-85°
0°-85°
0°-85°
0°-85°
1.5 V
1.6 V
1.7 V
1.6 V
1.7 V
1.8 V
5.60 W / 2.95 W
6.90 W / 2.95 W
8.70 W / 2.95 W
7.10 W / 2.95 W
8.95 W / 2.95 W
11.40 W / 2.95 W
CPGA, OBGA
CPGA
CPGA
Notes:
1. An x in this column represents the package type. See the processor data sheet for a full description of ordering part number notation.
2. Active application power dissipation for highest supported frequency at specified voltage.
12
Competitive Advantages
Preliminary Information
24404A/0—November 2000
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
Questions and Answers
Question: What AMD embedded processors support
AMD PowerNow! technology?
Answer: All of the AMD-K6-2E+ and AMD-K6-IIIE+ low-power
processors are equipped with support for AMD PowerNow!
technology. AMD PowerNow! technology is not limited to any
specific speed grade, package type, or core voltage.
Question: Is AMD PowerNow! technology backward-compatible
with older AMD x86 based embedded processors?
Answer: No. AMD PowerNow! technology is only available on
AMD’s latest low-power offerings of the embedded family of
AMD-K6 microprocessors, which consist of the AMD-K6-2E+
and AMD-K6-IIIE+ 32-bit processors.
Question: What’s the lowest core voltage and frequency
supported?
Answer: Currently, processors equipped with AMD PowerNow!
technology can support a minimum core voltage at or above
1.4 V and operating frequencies as low as 200 MHz. Frequencies
at or above 350 MHz require a core voltage above this minimum.
AMD PowerNow! technology software is enabled with VID
codes for core voltages as low as 0.925 V.
Question: What is “Automatic mode”?
Answer: Automatic mode is an automated mode under software
control that is supported by AMD PowerNow! technology.
Automatic mode allows for dynamic and immediate changes to
be made to the processor's operating core voltage and
frequency based on current application performance or power
requirements. The marriage of power and performance is
handled automatically through software control and operates
free of any user intervention.
Question: How much power is saved by using the
AMD PowerNow! technology?
Answer: In embedded application testing and benchmarking,
AMD PowerNow! technology can cut power consumption from
Questions and Answers
13
Preliminary Information
AMD PowerNow!™ Technology Dynamically Manages Power and Performance
24404A/0—November 2000
11.4 W to 2.95 W for the highest performing AMD-K6-IIIE+
processor. This is an overall power savings of over 70%!
Question: Is the AMD PowerNow! technology easy to implement?
Answer: Yes. AMD PowerNow! technology is enabled and
controlled through software in the embedded system’s BIOS or
OS. In the case of Microsoft operating systems,
AMD PowerNow! technology state transitions are implemented
through a driver provided by AMD.
Question: To date, what BIOS vendors support AMD PowerNow!
technology?
Answer: Currently, Award/Phoenix has support for
AMD PowerNow! technology in their mobile-based BIOS.
SM
Please refer to AMD's FusionE86 partner list at:
http://www.amd.com/products/epd/desiging/fusionpartners/index.html
for updates to AMD's list of technology, support, and service
partners.
Question: What operating systems include support for
AMD PowerNow! technology?
Answer: AMD plans for all Linux-based operating systems to
include support for AMD PowerNow! technology in the kernel
of the OS. Several RTOS vendors will also support
AMD PowerNow! technology in their operating systems.
®
Microsoft operating systems like Embedded NT, Windows 98
and WinME can also be enabled with AMD PowerNow!
technology through the use of a driver provided by AMD. An
AMD CodeKit software package for AMD PowerNow!
technology is available in CodeKit 42 at:
http://www.amd.com/products/epd/desiging/codekits/
14
Questions and Answers
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