Arteris Articles

SemiWiki: Design in the Time of COVID

Bernard Murphy gets an update Kurt Shuler on possible new challenges in this new world and why now might be a good time to rethink some of those in-house IP projects, particularly the NoC in this new SemiWiki blog:

Design in the Time of COVID

May 26th, 2020 - By Bernard Murphy

There’s a lot of debate about how and when we are going to emerge from the worldwide economic downturn triggered by the pandemic. Everyone agrees we will emerge. This isn’t humanity’s first pandemic, nor will it be our last. But do we come out quickly or slowly? And what does the economy look like on the other side, particularly for the domain we care about – electronic design?

 

Topics: SoC semiconductor Ncore FlexNoC autonomous driving AI semiwiki kurt shuler data centers noc interconnect on-chip communications electronic design

EE Times article, The Age of the Monster Chip

K. Charles Janac, President and CEO, at Arteris IP, authored this article on what is now defined as a "Monster Chip".

September 19, 2019 - by K. Charles Janac

What are the system designs that require a leap in SoC complexity? It’s not only big datacenter artificial intelligence (AI) chips, but also autonomous vehicles such as cars, trucks and drones; they are self-landing, reusable rockets; they are medical devices carrying out remote diagnostics; and they are connected machine tool controllers supporting smart manufacturing.

These chips are starting to be referred to as “Monster Chips” because of both the size and complexity.

Topics: semiconductor ADAS eetimes autonomous driving AI K. Charles Janac SoCs noc interconnect data center automation blockchain big chips

Semiconductor Engineering: Autonomous Vehicles Are Reshaping The Tech World

 Arteris IP's Kurt Shuler, VP of Marketing, comments on ISO 26262 and the need to add SOTIF for the unknown-unkown errors in this latest Semiconductor Engineering article:

Autonomous Vehicles Are Reshaping The Tech World

September 5th, 2019 - By Kevin Fogarty

Even before fully autonomous vehicles blanket the road there is major upheaval at all levels of the industry.

 

Until recently, the V-system testing of ISO 26262 has been the primary functional safety method for verification and validation. It will continue to play that role, according to Kurt Shuler, vice president of marketing at Arteris IP, but it will be supplemented by other types of testing such as SOTIF (safety of the intended functionality, ISO 21448).

“SOTIF was a little controversial,” Shuler said. “It almost didn’t get passed because of what I call the philosophical element. It is designed to find faults when things are working correctly, but it also finds errors that you don’t know about. The way it goes about that is a little different from the usual approach, but there are also standards coming from SAE and others from ISO, so there will be plenty of competition for this kind of challenge to be able to verify probabilistic systems.”

For more information, please visit our Resources page for free downloads of our technical papers; http://www.arteris.com/resources

Topics: SoC ISO 26262 autonomous driving ArterisIP FlexNoC semiconductor engineering AI kurt shuler noc interconnect SOTIF (ISO 21448

New! Arteris IP Technical Paper, Re-Architecting SoCs for the AI Era

Kurt Shuler, VP of Marketing at Arteris IP has written this 10-page technical paper titled, "Re-Architecting SoCs for the AI Era".

August 29, 2019 - by Kurt Shuler

Abstract:
The growth of artificial intelligence (AI) demands that semiconductor companies re-architect their system on chip (SoC) designs to provide more scalable levels of performance, flexibility, efficiency, and integration. From the edge to data centers, AI applications require a rethink of memory structures, the numbers and types of heterogeneous processors and hardware accelerators, and careful consideration of how the dataflow is enabled and managed between the various high-performance IP blocks.

Topics: functional safety ISO 26262 semiconductor machine learning autonomous driving artificial intelligence AI SoCs kurt shuler noc interconnect ML dataflow