Sarma Vrudhula of Arizona State University presents research on multi-core processor performance optimization under thermal constraints.
See how less equals more with Intel® Xeon® processors, providing power savings, scalability, integration, real estate, and workload consolidation.
Reiher and Kaiser, UCLA, discuss Intel® Atom™ LEAP* architecture and embedded systems instructions for energy efficiency.
Software: Provides the source code verilog RTL files for the system management controller CPLD for Little Bay Fab D/Fab E boards with Intel® Atom™ processor E6xx series B0/B1 stepping; includes release note, checksum, QUARTUS, and SRC files.전체 보기 >
Legacy power management features on Intel® architecture-based platforms for embedded systems, including various states. (v.001, Aug. 2011)
Overview of the legacy power management features on Intel® architecture-based platforms for embedded systems, including performance, processor, thermal, and system states. (v.001, Aug. 2011)전체 보기 >
Intel® Core™ processor power management technology puts devices in a lower power state when workload decreases. (v.1, Jan. 2011)
Intel® Core™ processor power management technology puts devices in a lower power state when workload decreases, which increases energy efficiency and design flexibility. (v.1, Jan. 2011)전체 보기 >
Discusses dynamic power management for multi-core processors that increases throughput without significantly increasing power. (v.1, June 2009)
Yan Like of the Intel-Zhejiang University Technology Center discusses a dynamic power management framework for multi-core processors that allows throughput increase while avoiding a significant increase in power. (v.1, June 2009)전체 보기 >