Enhanced Intel SpeedStep (PX only)
Enhanced Intel® SpeedStep® Technology has revolutionized thermal and power management by giving application software greater control over the processor’s operating frequency and input voltage. Systems can easily manage power consumption dynamically. Today’s embedded systems are demanding greater performance at equivalent levels of power consumption. Legacy hardware support for backplanes, board sizes and thermal solutions have forced design teams to place greater emphasis on power and thermal budgets. Intel has extended architectural innovation for saving power by implementing new features such as Enhanced Intel SpeedStep Technology. Enhanced Intel SpeedStep Technology allows the processor performance and power consumption levels to be modified while a system is functioning. This is accomplished via application software, which changes the processor speed and the processor core voltage while the system is operating. A variety of inputs such as system power source, processor thermal state, or operating system policy are used to determine the proper operating state.
The software model behind Enhanced Intel SpeedStep Technology has ultimate control over the frequency and voltage transitions. This software model is a major step forward over previous implementations of Intel SpeedStep technology. Legacy versions of Intel SpeedStep technology required hardware support through the chipset. Enhanced Intel SpeedStep Technology has removed the chipset hardware requirement and only requires the support of the voltage regulator, processor and operating system. Centralization of the control mechanism and software interface to the processor, and reduced hardware overhead has reduced processor core unavailability time to 10 μs from the previous generation unavailability of 250 μs.
Thermal Monitor
The Intel ® Thermal Monitor is a feature on the CMX158886 that automatically initiates a SpeedStep transition or throttles the CPU when the CPU exceeds its thermal limit. The maximum temperature of the processor is defined as the temperature that the Thermal Monitor is activated. The thermal limit and duty cycle of the Thermal Monitor cannot be modified.
Error-Correction Codes (Selected Models Only)
The Graphics and Memory Controller Hub (GMCH) may be configured in the BIOS setup to operate in an
Memory with ECC enabled requires additional system memory resources. This will cause the integrated graphics engine to have less memory bandwidth for access to the graphics frame buffer. Because of this, the display may flicker at high resolutions when the graphics processor is fully utilized and ECC is enabled. ECC memory is supported with internal graphics only.
aDIO with Wake-on-aDIO
RTD’s exclusive multiPort™ allows the parallel port to be configured as an Advanced Digital I/O (aDIO™), ECP/ EPP parallel port, or a floppy drive. aDIO™ is 16 digital bits configured as 8
Chapter 1: Introduction 3 |