When the days were old and the knights were bold and IP was invented, you'd wrap an insulator around your gate and leakage was prevented. As the insulator became thinner with process shrinkages, though, leakage became a problem. It's so bad, engineers are now having nightmares about their future 45- and 32-nm designs.

"Subthreshold and gate leakage have become a large problems in deep-submicron technologies," says Dan Hillman, vice president of engineering at Mosaid Technologies.

Intel, IBM, and Sematech have delivered disparate solutions for the first fundamental change in transistors in nearly 40 years (see "Transistor Recovers From Midlife Crisis With Fundamental Material Change,"). But what if you can't afford to partner with IBM? Consider Mosaid's Mobilize low-power IP platform.

"Mobilize virtually eliminates leakage, enabling low-power design in 90 nm and 65 nm without changing the silicon process," says Hillman.

The platform addresses leakage by providing static and active power management in a configurable standard-cell library that's used to form voltage- and frequency-scalable power islands (see the figure).

An automated hardware- or software-controlled power island manager (PIM) administers all power island sequencing of active and sleep phases over process, voltage, and temperature. This eases the instantiation of power islands while reducing leakage over 100-fold. It also can be used in conjunction with 1- and 0.8-V supplies. And, it can transition to and from sleep mode in a mere 50 ns.

There will be no speed impact using the Mobilize platform, and the overhead will require an area increase of less than 2%. Since the technology is built using standard manufacturing processes, no architectural changes to existing designs are required.

Available now, Mobilize is based on standard cells. It works seamlessly in conjunction with EDA tools from Cadence, Magma, and Synopsys.

Mosaid Technologies
www.mosaid.com

Reprints

Printer-Friendly

Email this Article

RSS

Submit PlanetEE del.icio.us Digg Reddit Newsvine StumbleUpon Netscape Yahoo MyWeb Live Bookmarks Fark  Submit

Font Size

What's This?

LED Design Kit Offers Plethora Of Lighting Technologies Board Interfaces GPIB To Modbus JIC Enclosure Family Receives CE Certifications GMR Current Sensor Sports Wide Range HomePlug SoC Interoperates With TIA-1113/IEEE 1901 Standards RFIC Switch Simplifies GSM/AMR And Short-Range Wireless Designs

C Tools Accelerate HDV Development On Xilinx FPGAs A New Design Inflection Point Forecasting Industry Growth For 2009 And Beyond EDA Retools To Exploit Multicore Architectures Design And Verification Move Up In Abstraction EDA Retools To Exploit Multicore Architectures A New Design Inflection Point Design And Verification Move Up In Abstraction

1) Transportation Guidelines For Lithium Batteries Get Updated (1156 views today) 2) Build A Smart Battery Charger Using A Single-Transistor Circuit (259 views today) 3) WHITE PAPER: Liquid-Level Monitoring Using a Pressure Sensor (195 views today) 4) 1-A Switching Regulators Operate With 96% Efficiency To Replace Linear Regulators (128 views today) 5) The Field Of Energy Harvesting Begins To Ripen (107 views today) ALL TOP 20

POST YOUR COMMENTS HERE Name: Email:
Your Comments: Enter the text from the image below Please refresh the page if you have trouble reading this text.