M31 Technology Develops SRAM Compiler IP on TSMC's 28nm Embedded Flash Process Technology Providing High Performance and Low Power Solutions
M31's SRAM Compiler IP solutions on TSMC's 28nm Embedded Flash process technology will enhance SoC designs on power and performance for mobile, power management, IoT, and automotive electronics applications.
Hsinchu, Taiwan -April 17, 2019 - M31 Technology Corporation (Taiwan stock code: 6643), a global silicon Intellectual Property (IP) boutique, today announces that it will develop SRAM Compiler IP on TSMC's 28nm Embedded Flash process technology. These IP solutions will help designers to improve their SoC designs on power and performance for mobile, power management, IoT, and automotive electronics applications. These IP solutions are expected to be available to customers for design integration in the third quarter of this year.
"As network bandwidth continues to increase, so does the demand for data computing and storage,” said H.P. Lin, Chairman of M31 Technology. “M31’s IP developed on TSMC’s industry-leading 28nm Embedded Flash process technology helps IC designers shortens SoC design cycle while reducing SoC power consumption and improving performance. It can be used in high-speed data processing, power management, Internet of Things, automotive electronics and mobile applications.”
“Embedded Flash technology becomes critical to support a wide range of applications including smart mobile, automotive electronics and the Internet of Things,” said Suk Lee, senior director, Design Infrastructure Management Division at TSMC. “The collaborative effort combining M31’s IP solutions with TSMC's 28nm Embedded Flash process technology helps designers to optimize SoCs and achieve a successful balance between speed, area and power consumption."
The SRAM Compiler IP developed on TSMC’s 28nm Embedded Flash process technology is fully featured, supporting multiple power saving modes. Based on the design requirements, designers can choose the optimized power-saving mode, extending the battery life of the mobile device and providing customers with more diversified product applications. With the excellent technical characteristics of this memory design, these IP can be fully integrated into the embedded flash memory system platform, and are expected to be adopted by well-known international manufacturers in the third quarter of this year.
In the future, M31 will continue its IP development and validation for different advanced process technologies to provide distinctive IP solutions to the worldwide chip design community.
ABOUT M31 TECHNOLOGY
M31 Technology Corporation is a professional silicon intellectual property (IP) provider. The company was founded in October, 2011 with its headquarters in Hsinchu, Taiwan. M31’s strength is in R&D and customer service. With substantial experiences in IP development, IC design and electronic design automation fields, M31 focuses on providing high-speed interface IP, memory compilers, standard cell library and ESD/IO library solutions. For more information please visit www.m31tech.com
Related Semiconductor IP
- Single Port SRAM Compiler IP, UMC 65nm SP process
- High Density Single Port Multi-banks SRAM Compiler
- Bulk 40ULP single port SRAM Compiler - ultra low power, low power retention mode
- Single Port SRAM compiler - Memory optimized for ultra high density and high speed - compiler up to 64 k
- Single Port SRAM compiler - Memory optimized for high density and low power - Dual voltage - Compiler range up to 640 k
Related News
- M31 Technology Announces Its Release of TSMC's 28HPC+ ULL SRAM Compilers for the Intelligent Device Market
- GlobalFoundries and Microchip Announce Microchip's 28nm SuperFlash® Embedded Flash Memory Solution in Production
- M31 Collaborates with TSMC to Advance 2nm eUSB2 IP Innovation
- Renesas Electronics Develops Industry's First 28nm Embedded Flash Memory Technology for Microcontrollers
Latest News
- CAST Releases First Dual LZ4 and Snappy Lossless Data Compression IP Core
- Arteris Wins “AI Engineering Innovation Award” at the 2025 AI Breakthrough Awards
- SEMI Forecasts 69% Growth in Advanced Chipmaking Capacity Through 2028 Due to AI
- eMemory’s NeoFuse OTP Qualifies on TSMC’s N3P Process, Enabling Secure Memory for Advanced AI and HPC Chips
- AIREV and Tenstorrent Unite to Launch Advanced Agentic AI Stack