Arteris Press Releases

Arteris® IP FlexNoC® Interconnect Products Licensed by Bosch for Multiple Automotive Chips

World's #1 automotive supplier chooses Network-on-Chip interconnect leader for ISO 26262-compliant systems-on-chip (SoCs)

CAMPBELL, Calif. – November 3, 2020 – Arteris IP, the world’s leading supplier of innovative, silicon-proven network-on-chip (NoC) interconnect intellectual property, today announced that Bosch has licensed Arteris FlexNoC Interconnect IP and the accompanying Resilience Package for use in multiple ISO 26262-compliant automotive projects.

Arteris IP provides the easiest and fastest means to assemble the complex chips we require while allowing us to implement innovative functional safety mechanisms within our designs. We are excited to partner together not only because of Arteris IP’s excellent technology and solid roadmap, but also the experience and credibility of their engineering talent.”


Oliver Wolst, Senior Vice President Integrated Circuits, at Robert Bosch GmBH

Topics: SoC network-on-chip Arteris FlexNoC new customer automotive flexnoc resilience package automotive functional safety NoC technology autonomous driving ISO 26262 compliant automotive Tier-1 automotive supplier roadmap Bosch

Arteris IP FlexNoC® Interconnect Licensed by AutoChips for Automotive SoC Development

Chinese semiconductor supplier chooses Arteris FlexNoC to help accelerate automotive SoC development and ISO 26262 functional safety certification

CAMPBELL, Calif. — February 27, 2018 — Arteris IP, the innovative supplier of silicon-proven commercial system-on-chip (SoC) interconnect semiconductor intellectual property (IP), today announced that Chinese automotive semiconductor vendor AutoChips has licensed Arteris FlexNoC interconnect IP as the on-chip communications backbone of its next-generation automotive SoC chip.

We chose Arteris FlexNoC IP because it is the first and only on-chip interconnect IP with a track record of mass production automotive chip implementations at the ISO 26262 ASIL B levels.

WenHsin Wang, General ManagerAutoChips

Topics: automotive semiconductors new customer china ADAS automotive functional safety

48 Arteris IP Engineers Attain ISO 26262 Functional Safety Practitioner Certification by exida

ISO 26262 safety certifications demonstrate continuing investment in state-of-the-art quality and safety processes to serve the automotive semiconductor industry

CAMPBELL, Calif. — February 21, 2018 — Arteris IP, the innovative supplier of silicon-proven commercial system-on-chip (SoC) interconnect intellectual property (IP), today announced that forty-eight (48) of its engineers have earned the title of ISO 26262 Functional Safety Practitioner by successfully completing in-person training courses and examinations by exida, an ANSI-accredited certification body that is also an accredited assessor for ISO 26262 compliance.

Arteris IP’s investment in employee training illustrates a commitment to creating a strong safety culture, which is a requirement for ISO 26262 compliance.

Alexander Griessing, Principal Safety Expert and Managerexida

Topics: automotive semiconductors ADAS automotive functional safety ISO 26262 certification exida

ArterisIP Ncore Cache Coherent Interconnect and Resilience Package Licensed by NXP

CAMPBELL, Calif. — September 19, 2017 — ArterisIP, the innovative supplier of silicon-proven commercial system-on-chip (SoC) interconnect IP, today announced that NXP Semiconductors has licensed additional uses of Ncore Cache Coherent Interconnect IP and Ncore Resilience Packages.

We had an excellent experience implementing ArterisIP’s Ncore Cache Coherent Interconnect IP in our previous SoC developments so we have chosen to expand the adoption of this technology for our next generation SoCs.

Benny Chang, Vice President of R&D, Automotive MCU and Processors Business LineNXP Semiconductors

Topics: new customer automotive Ncore heterogeneous cache coherency cache coherent interconnect NXP Semiconductors automotive functional safety ncore resilience package ISO 26262 ASIL D autonomous driving