English
MIPI M-PHY v4.1/v3.1 IP in TSMC(5nm, 6nm, 7nm, 12nm,16nm, 22nm, 28nm, 40nm, and 55nm)
TSMC implements MoSys' new low-power 1T-SRAM for 0.13-micron process
 |
TSMC implements MoSys' new low-power 1T-SRAM for 0.13-micron process
By Semiconductor Business News
November 21, 2001 (6:26 p.m. EST)
URL: http://www.eetimes.com/story/OEG20011121S0109
SUNNYVALE, CALIF. -- MoSys Inc. here said silicon foundry giant Taiwan Semiconductor Manufacturing Co. Ltd. has successfully implemented the company's 1T-SRAM-M technology for second-generation one-transistor memory cells used in low-power mobile systems applications. Last spring, MoSys announced it was teaming up with TSMC to create new low-power and double-density derivatives of 1T-SRAM cells for 0.13-micron foundry processes. As part of that partnership, TSMC inked a series of new licensing pacts with MoSys (see April 9 story). The second-generation 1T-SRAM-M technology retains data with a standby current of just 10 microamps per megabit or less when fabricated in TSMC's 0.13-micron process, according to MoSys. The 1T-SRAM has demonstrated superior soft-error-rate (SER) reliability than six-transistor SRAM cells, starting at the 0.15-micron process node, said Fu -Chieh Hsu, chief executive officer of MoSys. "Our reliability figures-of-merit are now orders of magnitude better on the 0.13-micron process node and beyond," he added. MoSys said the traditional six-transistor SRAM suffers from the fundamental CMOS scaling limit of sub-threshold voltage, which must be a small fraction of the supply voltage. As advanced logic processes progress to 0.13-micron and below, the supply voltage is reduced to 1.2 V or lower. To maintain device performance, thethreshold voltages are also lowered, which causes all transistors to leak even when there is no circuit switching, said the company. The problem grows worse when large embedded memories are used in system-on-chip designs, MoSys said. In addition to announcing the implementation of the new low-power cell, MoSys said its 1T-SRAM technology has been verified on multiple versions of TSMC¹s 0.13-micron standard and triple-oxide logic processes. TSMC in Hsinchu, Taiwan, is now ready to accept foundry customers' tapeouts uti lizing these 0.13-micron triple-oxide logic processes. MoSys and TSMC also announced continuation of verification and testing of 1T-SRAM memory cells for 0.10-micron processes.
Related News
- MoSys' 1T-SRAM(R) CLASSIC Running in Volume Production on Chartered's 0.13-micron Process
- MoSys' 1T-SRAM Memory Silicon-Verified on DongbuAnam's 0.18-Micron Standard Logic Process; 0.13-Micron Verifications Initiated
- MoSys 1T-SRAM Macros Now Proven in Multiple Versions of TSMC'S Standard and Triple-Oxide 0.13-Micron Logic Processes
- MoSys' 1T-SRAM-Q Memory Silicon-Verified on Chartered's 0.13-Micron Industry Standard Logic Process
- MoSys' Ultra-High Reliability 1T-SRAM-R Technology Verified on SMIC 0.13-Micron Logic Process
Breaking News
- RISC-V International Promotes Andrea Gallo to CEO
- See the 2025 Best Edge AI Processor IP at the Embedded Vision Summit
- Andes Technology Showcases RISC-V AI Leadership at RISC-V Summit Europe 2025
- RISC-V Royalty-Driven Revenue to Exceed License Revenue by 2027
- Keysom Unveils Keysom Core Explorer V1.0
Most Popular
- RISC-V Royalty-Driven Revenue to Exceed License Revenue by 2027
- SiFive and Kinara Partner to Offer Bare Metal Access to RISC-V Vector Processors
- Imagination Announces E-Series: A New Era of On-Device AI and Graphics
- Siemens to accelerate customer time to market with advanced silicon IP through new Alphawave Semi partnership
- Cadence Unveils Millennium M2000 Supercomputer with NVIDIA Blackwell Systems to Transform AI-Driven Silicon, Systems and Drug Design
|
E-mail This Article | 
|
|
Printer-Friendly Page |