Sidense Enjoys Best Quarter in its History
Update: Synopsys Expands DesignWare IP Portfolio with Acquisition of Sidense Corporation (Oct. 17, 2017)
Company's 1T-OTP bookings at an all-time high; first customer licensed for TSMC 28nm process.
Ottawa, Canada – (January 18, 2012) – Sidense Corp., a leading developer of Logic Non-Volatile Memory (LNVM) one-time programmable (OTP) memory IP cores, announced its bookings over the quarter ending December 31, 2011, the first quarter of Sidense's Fiscal Year 2012, were the highest in the Company's history. Sidense has also licensed to customers the first commercially available 1T antifuse one-time programmable (OTP) non-volatile memory (NVM) macros at 28nm. This includes a customer using TSMC's 28nm HPL process.
This milestone quarter continues to demonstrate Sidense's growth and leadership as a major provider of secure and reliable OTP memory cores for a wide range of semiconductor products. In addition, the licensing of Sidense's OTP macros for TSMC's advanced 28nm process shows the acceptance of the Company's antifuse-based 1T-OTP for use in applications such as leading-edge mobile and media processors.
"As shown by the excellent booking results this quarter, along with the support shown by investors with the additional funding we received last quarter, Sidense continues to be a recognized leader in the embedded NVM market," said Xerxes Wania, CEO and President of Sidense. "We have a solid and aggressive OTP development roadmap for the advanced process nodes at 28nm and beyond and continue to work closely with TSMC to provide our customers with the OTP products they need."
Sidense's 1T-OTP products have met the rigid TSMC IP9000 Assessment criteria at the 180nm, 130nm, 110nm, and 90nm process nodes. In addition, Sidense's 65nm, 180BCD, 40nm and 28nm 1T-OTP are all in progress toward achieving IP9000 Assessment completion.
Sidense's products have won strong customer acceptance over a very broad range of process nodes and variants and seven out of the top 25 semiconductor companies (iSuppli 2010 ranking) use Sidense 1T-OTP-based products.
About Sidense Corp.
Sidense Corp. provides secure, very dense and reliable non-volatile, one-time programmable (OTP) memory IP for use in standard-logic CMOS processes with no additional masks or process steps required and no impact on product yield. The Company's innovative one-transistor 1T-Fuse™ architecture provides the industry's smallest footprint, most reliable and lowest power Logic Non-Volatile Memory (LNVM) IP solution. With over 90 patents granted or pending, Sidense OTP provides a field-programmable alternative solution to Flash, mask ROM and eFuse in many OTP and MTP applications.
Sidense SiPROM, SLP and ULP memory products, embedded in over 190 customer designs, are available from 180nm down to 28nm and are scalable to 20nm and below. The IP is offered at and has been adopted by all top-tier semiconductor foundries and selected IDMs. Customers are using Sidense OTP for analog trimming, code storage, encryption keys such as HDCP, WHDI, RFID and Chip ID, medical, automotive, and configurable processors and logic. For more information, please visit www.sidense.com.
|
Related News
Breaking News
- Launching MosChip DigitalSky™ for Building Connected Intelligent Enterprises
- Crypto Quantique collaborates with ADLINK to simplify and enhance device security in industrial PCs
- Xiphera Partners with IPro for the Israeli Chip Design Market
- Siemens collaborates with GlobalFoundries to certify Analog FastSPICE for the foundry's high-performance processes
- EXTOLL collaborates with Frontgrade Technologies for High-Speed SerDes IP
Most Popular
- BrainChip Introduces Lowest-Power AI Acceleration Co-Processor
- Launching MosChip DigitalSky™ for Building Connected Intelligent Enterprises
- Siemens collaborates with GlobalFoundries to certify Analog FastSPICE for the foundry's high-performance processes
- RaiderChip brings Meta Llama 3.2 LLM HW acceleration to low cost FPGAs
- Crypto Quantique collaborates with ADLINK to simplify and enhance device security in industrial PCs
E-mail This Article | Printer-Friendly Page |