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Tag: lowpower
Mentor Graphics Drives Next-Generation, Low-Power Verification with UPF Successive Refinement Methodology
2015-09-14 12:31:15| Industrial Newsroom - All News for Today
WILSONVILLE, Ore. - Highlights: -- The Unified Power Format (UPF) Successive Refinement Methodology enables the incremental specification and early verification of power management intent. -- The Questa Power Aware Simulation solution and Visualizer Debug Environment facilitate...
Tags: graphics
drives
methodology
verification
Low-Power Embedded Controllers enhance mobile computing design.
2015-09-09 14:31:08| Industrial Newsroom - All News for Today
Customized to needs of x86-based notebook and tablet platform designers, configurable MEC14XX series supports Intel® Enhanced Serial Peripheral Interface (eSPI) and Low Pin Count (LPC) interface. Flexible arrangement allows multiple I/O signals to be configured to support 3.3 or 1.8 V, eliminating need for external voltage translators. Also, features allow seamless migration of IP reuse across multiple x86 computing platform architectures. All products are pin and register compatible.
Tags: design
mobile
enhance
computing
09.10.15 -- New Transistor Device Concept For Fast, Low-Power Electronics
2015-09-09 03:24:58| wirelessdesignonline News Articles
09/10/15 Wireless Design Online Newsletter
Tags: fast
electronics
concept
device
Squishy Transistors: A Device Concept For Fast, Low-Power Electronics
2015-09-08 04:25:06| rfglobalnet Home Page
An international team of researchers from the National Physical Laboratory (NPL), IBM, the University of Edinburgh and Auburn University have shown that a new device concept - a 'squishy' transistor - can overcome the predicted power bottleneck caused by CMOS (complementary metal-oxide-semiconductor) technology reaching its fundamental limits.
Tags: fast
electronics
concept
device
Squishy Transistors: A Device Concept For Fast, Low-Power Electronics
2015-09-08 04:25:06| wirelessdesignonline News Articles
An international team of researchers from the National Physical Laboratory (NPL), IBM, the University of Edinburgh and Auburn University have shown that a new device concept - a 'squishy' transistor - can overcome the predicted power bottleneck caused by CMOS (complementary metal-oxide-semiconductor) technology reaching its fundamental limits.
Tags: fast
electronics
concept
device
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