How about the future? Have we reached the pinnacle of power management?
Using Intel® GPUs to Optimize the Performance and Power Consumption of Total Immersion's D'Fusion* Augmented Reality Pipeline
Michael Jeronimo, Intel (email@example.com)
Pascal Mobuchon, Total Immersion (firstname.lastname@example.org)
Recientemente publicamos la “Guía instructiva para Windows* 8: cómo escribir una aplicación multiproceso para Windows Store* con Threading Building Blocks de Intel®”. En esa guía dijimos que el motor de cálculo paralelo se puede portar fácilmente a otras plataformas móviles o de escritorio. Android es un buen ejemplo de ese tipo de plataforma móvil.
Manuj Sabharwal and Gael Hofemeier, Software Engineers, Software Solutions Group, Intel Corporation
Power management policy has evolved over the years. The earliest policies consisted of little more than some critical temperature sensors and an interrupt routine that attempted (often unsuccessfully) to cleanly shut down the system before something really bad happened.
INTRODUCTION AND PURPOSE:
This article endeavors to provide a single point of reference to Power Management blogs, articles and other resources relevant to the Intel® Xeon Phi™ coprocessor.
Unlike a lot of previous recent blogs, this series is about power management in general. At the very end of the series, I’ll write specifically about the Intel® Xeon Phi™ coprocessor.
I have talked incessantly over the years about power states (e.g. P-states and C-states), and how the processor transitions from one state to another. For a list of previous blogs in this series, and well as other related blogs on power and power management, see the article at [List0]. But I have left out an important component of power management, namely the policy.