Associated tags: SDV, EV, Qualcomm Ventures, Porsche, AMD, Semiconductor, General Automotive, Automotive, Software, Communication, ADAS, Porsche SE, Silicon, Engineering, SE, AD, Ecosystem, Advanced driver-assistance system, Safety, Shirani, Cryptocurrency, Renewable energy, OTA
Locations: CALIFORNIA, UNITED STATES, NORTH AMERICA, AMERICAS, GERMANY, EUROPE, CONTINENTAL
Technology,
EV,
Electric Vehicles,
Semiconductor,
Automotive,
General Automotive,
Software,
Networks,
Internet,
Hardware,
Data Management,
Qualcomm Ventures,
SDV,
PHY,
Data-rate units,
Silicon,
Volkswagen Group,
Safety,
AMD,
Family,
IEEE,
PCB,
Porsche,
Partnership,
Video game “As demands for the vehicle of the future continue to rise—greater safety, full autonomy, long-range electrification and more—vehicular bandwidth demands rise commensurately,” said Ramin Shirani, Ethernovia co-founder and CEO.
Key Points:
- “As demands for the vehicle of the future continue to rise—greater safety, full autonomy, long-range electrification and more—vehicular bandwidth demands rise commensurately,” said Ramin Shirani, Ethernovia co-founder and CEO.
- The single port ENT11100 and ENT11025 are now sampling to customers with the quad port devices sampling later this year.
- The devices are the automotive semiconductor company’s first in a planned family of products encompassing a holistic hardware and software system for the next generation of centralized vehicle architecture.
- That will include a high-bandwidth, low-latency switch in the 7nm process currently being developed in strategic partnership with leading original equipment manufacturer Continental .
Retrieved on:
Monday, September 18, 2023
Technology,
Semiconductor,
Automotive,
General Automotive,
Other Technology,
Automotive Manufacturing,
Manufacturing,
Software,
Data Management,
Continental,
Communication,
Partnership,
SDV,
Supercomputer,
HPC,
Video game,
Mobile phone,
Architecture Today, Continental and Ethernovia, Inc. announced a development partnership to create a high-bandwidth, low-latency switch in an automotive-qualified 7nm process to efficiently and securely move data within software-defined vehicles (SDVs).
Key Points:
- Today, Continental and Ethernovia, Inc. announced a development partnership to create a high-bandwidth, low-latency switch in an automotive-qualified 7nm process to efficiently and securely move data within software-defined vehicles (SDVs).
- Initially, Continental and Ethernovia will work together to make the advanced switch fit for series use in High-Performance Computers (HPC) developed by Continental.
- Second, the partners will collaborate on the development of a highly integrated network chip for automotive use.
- "With Ethernovia, we have the perfect partner at our side to develop a particularly innovative and urgently needed technology solution for the mobility of the future," said Jean-Francois Tarabbia, Head of Architecture and Networking Business Area at Continental.
Vehicle Technology,
Semiconductor,
Automotive,
General Automotive,
Technology,
Software,
Networks,
Communication,
Qualcomm,
Prevalence,
Qualcomm Ventures,
AMD,
OTA,
Porsche,
Porsche SE,
Silicon,
Acquisition,
Engineering,
SE,
Growth,
ADAS,
Ecosystem,
AD,
Advanced driver-assistance system,
Safety,
Shirani,
Cryptocurrency,
Renewable energy,
Atmosphere of Earth Ethernovia, Inc. , a Silicon Valley-based startup, today announced that it has completed its A-round financing of $64 million.
Key Points:
- Ethernovia, Inc. , a Silicon Valley-based startup, today announced that it has completed its A-round financing of $64 million.
- As vehicle architectures evolve from domain-centric controllers, networking solutions must concurrently evolve to support higher data rates of advanced vehicle applications while meeting demand for improved reliability and security.
- Such advanced applications include Advanced Driver-Assisted Systems (ADAS), autonomous driving (AD) and a rich ecosystem of customer software delivered Over the Air (OTA).
- “Ethernovia’s solution transforms the automobile’s communication network by providing a reliable, standards-based, high-speed connectivity needed to enable the software-defined vehicle.