Sipho

Tower Semiconductor and Cadence Expand Collaboration to Accelerate Automotive IC Development

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Thursday, July 14, 2022
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Cadence Design Systems, Inc. (Nasdaq: CDNS) and Tower Semiconductor (Nasdaq/TASE: TSEM), the leading foundry of high-value analog semiconductor solutions, today announced a collaboration to advance automotive and mobile IC development.

Key Points: 
  • Cadence Design Systems, Inc. (Nasdaq: CDNS) and Tower Semiconductor (Nasdaq/TASE: TSEM), the leading foundry of high-value analog semiconductor solutions, today announced a collaboration to advance automotive and mobile IC development.
  • By working to combine Cadence and Tower technologies, mutual customers can meet automotive design goals and achieve a faster path to ISO 26262 certification.
  • The Cadence and Tower collaboration supports automotive SoC design and the broader Cadence Intelligent System Design strategy, which enables customers to achieve SoC design excellence.
  • Cadence, the Cadence logo and the other Cadence marks found at www.cadence.com/go/trademarks are trademarks or registered trademarks of Cadence Design Systems, Inc.

CAGR of 25.8%, Silicon Photonics Market Size is Expected to Reach USD 7253.6 Million in 2028, Says Brandessence Market Research

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Monday, April 4, 2022
Juniper Networks, NEC, Population, NEC Laboratories America, GF, Trans-Pacific Partnership, Growth, Coronavirus, Laser, Silicon, World, Sipho, SOA, Lidar, Learning, Light, Cisco Systems, Artificial intelligence, EAM, Technology, Programmable interrupt controller, Silicon photonics, COVID-19, Data-rate units, Solution, Electronics, COVID, Data, GlobalFoundries, AI, Tower Semiconductor, Telecommunication, MACOM Technology Solutions, Internet, Microscope, Luxtera

The hybrid silicon lasers is also going to grow as it is used for the mass production issues of production of silicon lasers.

Key Points: 
  • The hybrid silicon lasers is also going to grow as it is used for the mass production issues of production of silicon lasers.
  • These lasers are fabricated on a silicon wafer which maybe integrated into the other silicon photonic devices.
  • The recent silicon photonics market trends though suggest that as the pandemic heads towards its final stages, the market will keep growing.
  • The high-speed networks and mobile devices are being used increasingly and the infrastructure therefore is growing rapidly for this market.

CAGR of 25.8%, Silicon Photonics Market Size is Expected to Reach USD 7253.6 Million in 2028, Says Brandessence Market Research

Retrieved on: 
Monday, April 4, 2022
Juniper Networks, NEC, Population, NEC Laboratories America, GF, Trans-Pacific Partnership, Growth, Coronavirus, Laser, Silicon, World, Sipho, SOA, Lidar, Learning, Light, Cisco Systems, Artificial intelligence, EAM, Technology, Programmable interrupt controller, Silicon photonics, COVID-19, Data-rate units, Solution, Electronics, COVID, Data, GlobalFoundries, AI, Tower Semiconductor, Telecommunication, MACOM Technology Solutions, Internet, Microscope, Luxtera

The hybrid silicon lasers is also going to grow as it is used for the mass production issues of production of silicon lasers.

Key Points: 
  • The hybrid silicon lasers is also going to grow as it is used for the mass production issues of production of silicon lasers.
  • These lasers are fabricated on a silicon wafer which maybe integrated into the other silicon photonic devices.
  • The recent silicon photonics market trends though suggest that as the pandemic heads towards its final stages, the market will keep growing.
  • The high-speed networks and mobile devices are being used increasingly and the infrastructure therefore is growing rapidly for this market.

Tower Semiconductor and Juniper Networks Announce World’s First Open Market Silicon Photonics Platform with Monolithically Integrated III-V Lasers

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Tuesday, December 21, 2021
RF, IDMS, Twitter, Lidar, TASE, Â, MPW, Artificial intelligence, BiCMOS, Silicon-germanium, Yole, Automation, Technology, CEO, LinkedIn, Laser, JNPR, Security (finance), Sipho, RF CMOS, BCD, U.S. Securities and Exchange Commission, Silicon, Name, ICS, Junos OS, NASDAQ, MEMS, CAGR, Solution, Partnership, Juniper Networks, Industry, F-3, F-4, Tower, SOA, CMOS, Israel Securities Authority, Programmable interrupt controller, PDK, EAM, Tower Semiconductor, NYSE, Juniper, Mobile phone, Facebook

The new platform co-integrates III-V lasers, semiconductor optical amplifiers (SOA), electro-absorption modulators (EAM) and photodetectors with silicon photonics devices, all monolithically on a single chip.

Key Points: 
  • The new platform co-integrates III-V lasers, semiconductor optical amplifiers (SOA), electro-absorption modulators (EAM) and photodetectors with silicon photonics devices, all monolithically on a single chip.
  • Foundry availability will enable a broad array of product developers to create highly integrated photonic integrated circuits (PICs) for diverse markets.
  • Our partnership with Juniper on silicon photonics is bringing a paradigm shift for product development across our industry, said Russell Ellwanger, CEO of Tower Semiconductor.
  • Juniper Networks, the Juniper Networks logo, Juniper, Junos, and other trademarks listed here are registered trademarks of Juniper Networks, Inc. and/or its affiliates in the United States and other countries.

Tower Semiconductor Announces Breakthrough LiDAR Technology for Advanced Driver-Assistance Systems

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Monday, September 13, 2021

Newport Beach, CA, September 13, 2021 - Tower Semiconductor (NASDAQ/TASE: TSEM), the leading foundry for high-value analog semiconductor solutions, today announced a breakthrough development of LiDAR IC technology designed for advanced driver-assistance systems (ADAS) and ultimately self-driving cars. The new, innovative IC designed by researchers from the Ming Hsieh Department of Electrical and Computer Engineering at the USC Viterbi School of Engineering was led by SungWon Chung and manufactured using Tower Semiconductor’s industry-leading open foundry Silicon Photonics platform. It employs optical phased arrays – hundreds of compact optical antennas -- along with amplitude and phase modulators on a silicon chip for accurate 3D imaging of the surrounding environment without the need for any moving parts. Additionally, the field of view, resolution, scanning pattern, and scanning speed are all programmable, meaning that cars outfitted with this system can respond much better to real-world scenarios.

Key Points: 
  • Utilizing Towers advanced SiPho technology platform, innovation provides a compact solid-state electronically scanning LiDAR solution with superb performance
    Newport Beach, CA, September 13, 2021 - Tower Semiconductor (NASDAQ/TASE: TSEM), the leading foundry for high-value analog semiconductor solutions, today announced a breakthrough development of LiDAR IC technology designed for advanced driver-assistance systems (ADAS) and ultimately self-driving cars.
  • This platform also offers high-performance elements necessary for high-precision LiDAR applications, such as low-loss silicon nitride waveguides capable of handling larger optical powers.
  • We are proud to collaborate on this innovative and fundamental breakthrough LiDAR technology which is a step towards making safe autonomous vehicles and robots a reality.
  • Tower believes that only through such pathbreaking scientific research today we can enable engineering solutions for tomorrow, said Dr. Ed Preisler, Director of RF & HPA Technology Development, Tower Semiconductor.

Tower Semiconductor and Quintessent Announce Partnership to Create Foundry Silicon Photonics Platform with Integrated Quantum Dot Laser

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Thursday, September 2, 2021
Transfer, Industry, Silicon photonics, CAGR, BiCMOS, U.S. Securities and Exchange Commission, Silicon, Silicon-germanium, Tower, UCSB, ICS, Israel Securities Authority, BCD, Efficiency, RF CMOS, TOPS, Security (finance), MPW, MEMS, Machine learning, RF, CA, Laser, F-3, AI, Freedom, NASDAQ, Tower Semiconductor, WDM, Solution, Sipho, PDK, CEO, Web Processing Service, IDMS, PIC, CMOS, Yole, F-4, Technology, TASE, Artificiality, Microscope

The resulting capability will be an industry first in demonstrating integrated optical gain in a standard foundry silicon photonics process.

Key Points: 
  • The resulting capability will be an industry first in demonstrating integrated optical gain in a standard foundry silicon photonics process.
  • "Quintessent and Tower are re-defining the frontiers of integrated silicon photonics under this effort, saidDr.
  • Bringing the III-V laser diode within our silicon photonics platform will enable single chip photonic integrated circuit (PIC) design.
  • Quintessent is developing disruptive connectivity solutions to unlock new scale-out pathways for AI/ML systems through innovations in silicon photonics and quantum dot lasers and amplifiers.