ARM and SMIC Broaden IP Partnership with 28-nm Process for Mobile and Consumer ApplicationsFebruary 10, 2014
Collaboration provides access to innovative IP for high-performance SoC designs
SHANGHAI, -- ARM and SMIC announced an agreement to offer the ARM Artisan physical IP platform for SMIC's 28nm poly SiON (PS) process to provide high-performance, high-density and low-power technologies for SoC designs.
Under the agreement, ARM will provide a comprehensive physical IP platform for advanced process technology that supports a wide range of consumer applications targeting the fast-growing smartphone, tablet, wireless and digital home markets.
"SMIC is pleased to offer access to the popular ARM Artisan standard cells and next-generation memory compilers," said Dr. Tianshen Tang, senior vice president of SMIC's Design Service Center. "Strengthening our collaboration with ARM enables optimized implementation of cost- and power-sensitive SoCs for our customers."
"ARM Artisan standard cells and memory compilers deliver the features, quality and rigorous silicon validation that customers demand to achieve fast time-to-market," said Dipesh Patel, executive vice president and general manager, Physical Design Group, ARM. "Extending our collaboration with SMIC on the 28nm PS process demonstrates ARM's commitment to provide the best SoC implementations at leading foundries."
ARM Physical IP Platform
The ARM Artisan physical IP platform for SMIC's 28nm poly SiON (PS) process provides the building blocks to implement a wide range of performance and area optimized, low-power SoCs designs. ARM's silicon-proven IP platform offers a comprehensive set of memory compilers, standard cells and logic, and general-purpose interface products that meet the most demanding performance and power requirements for mobile communications and computing.
ARM's standard cell libraries and memory compilers incorporate multi-channel and mixed Vtfeatures to enable a wide performance and power spectrum taking advantage of the performance and power range of SMIC's leading-edge poly SiON process. These features ensure that power budgets for performance-critical SoC designs can be met.
For more information, visit http://www.smics.com and http://www.arm.com.
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