Omni Design's High Performance Analog Front Ends are Adopted in Socionext's Next Generation Communications SoCs
SAN JOSE, California – April 24, 2023 – Omni Design Technologies, a leading provider of low-power, high-performance mixed-signal Intellectual Property (IP) solutions, today announced that Socionext is adopting Omni Design’s high performance analog front end IP solutions in advanced FinFET nodes, to deliver the next generation of innovative communications products.
Integrating high-performance analog IP cores into increasingly complex ASICs and SoCs is becoming essential for demanding applications such as 5G, advanced Wi-Fi, LiDAR, and radar, especially in advanced process nodes, to bring these products to market.
“We are collaborating with Omni Design to enable next generation communications and signal processing products,” said Teruaki Hasegawa, Head of Socionext’s IoT & Radar Sensing Business Unit. “Our experienced team have proven ability to integrate mixed-signal IP into complex SoCs. We look forward to working with Omni in support of our customers.”
“Socionext has deep expertise in RF and mixed-signal design and in the production of SoCs for high volume communications applications,” said Dr. Kush Gulati, President and CEO of Omni Design Technologies “The high performance analog front ends IP such as power gain amplifiers and multi giga sample data converters from Omni Design being adopted are amongst the most advanced in the industry. We are delighted to work with Socionext to deliver innovative products that give customers competitive differentiation in their end markets.”
About Omni Design Technologies
Omni Design Technologies is the leading provider of high-performance, ultra-low power Mixed Signal IP cores in advanced process technologies that enable highly differentiated systems-on-chip (SoCs) in applications ranging from wired and wireless communications, automotive, imaging, sensors, and IoT. Omni Design, founded in 2015 by semiconductor industry veterans, has an excellent track record of innovation and collaborating with customers to enable their success. The company is headquartered in Milpitas (California) with additional offices in Fort Collins (Colorado), Billerica (Massachusetts), Bangalore (India), and Ireland. For more information, visit www.omnidesigntech.com.
|
Related News
- Analog Bits Low Jitter LC Tank PLL IP Targets Ultra High End Networking, Cloud Computing SoC's
- ChipIdea's Analog Front-End for Power Line Communications Modem sucessfully integrated in INSONET transceiver chip
- Dolphin Design enables Orca's RF SoCs for direct-to-satellite communications
- Socionext Adopts TSMC's 5-nanometer Technology for Custom SoCs Targeting Next-Generation Automotive Applications
- OPENEDGES' Memory Subsystem IP - DDR Controller & NoC interconnect licensed for high end 4K multimedia SoC
Breaking News
- TSMC drives A16, 3D process technology
- Frontgrade Gaisler Unveils GR716B, a New Standard in Space-Grade Microcontrollers
- Blueshift Memory launches BlueFive processor, accelerating computation by up to 50 times and saving up to 65% energy
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
- CXL Fabless Startup Panmnesia Secures Over $60M in Series A Funding, Aiming to Lead the CXL Switch Silicon Chip and CXL IP
Most Popular
- Cadence Unveils Arm-Based System Chiplet
- CXL Fabless Startup Panmnesia Secures Over $60M in Series A Funding, Aiming to Lead the CXL Switch Silicon Chip and CXL IP
- Esperanto Technologies and NEC Cooperate on Initiative to Advance Next Generation RISC-V Chips and Software Solutions for HPC
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
- Arteris Selected by GigaDevice for Development in Next-Generation Automotive SoC With Enhanced FuSa Standards
E-mail This Article | Printer-Friendly Page |