AI Computing for Automotive
“AI is gradually invading our lives and this will be particularly true in the automotive world,” according to Yohann Tschudi, PhD, Technology & Market Analyst, Computing & Software at Yole Développement (Yole). “AI could be the central tool to achieve AD, in the meantime some players are afraid of overinflated hype and do not put AI at the center of their AD strategy.”
The players that have grasped this aspect of the technology battle are already leading the race. The impact of COVID-19 is still uncertain, but Yole’s analysts can already affirm that it will have a profound effect – with autonomy-related research likely to slow down at least this year and next due to cash shortages.
In this context, the market research & strategy consulting company Yole releases today its new technology & market analysis: ‘Artificial Intelligence Computing for Automotive 2020’ report. In this new analysis, Yole proposes a comprehensive scenario for AI within the dynamics of the autonomous automotive market, and a deep understanding of the AI’s impact on the semiconductor industry. Including ASP , revenue and volume shipments forecasts, a focus on autonomous car, ADAS and robotic vehicles, this report delivers an in-depth understanding of the ecosystem & players. This study also points out key technical insights and analyses into future technology trends and challenges.
What is the status of AI for automotive applications? Who are the players? What relationships exist within the ecosystem? Who will win the “autonomous battle”? Who are the key suppliers to watch, and what technologies do they provide? Yole presents today its vision of the AI computing industry for automotive applications.
For a player like Tesla, which has built all of its autonomous stack internally (software and hardware) and thus holds sole ownership, the strategy of moving forward in small steps will pay off since this strategy is not ‘side research’ but rather an integral part of the Tesla project, just like electrification. In fact, the impact of this crisis will probably accentuate Tesla’s market leadership, which is already estimated at several years.
In the second line, analysts find OEM s which develop their own autonomous software stack, but with hardware provided to them by other industry players. Lack of cash can slow down some programs, but others have been active for several years now and will probably not be stopped. And even if they are delayed, autonomy is an integral part of these OEMs’ middle-term strategies – just as it is for Tesla.
As for those companies with speculative programs that do not have the quest for autonomy as a cornerstone, it is very likely that these research programs, if they exist, will at best be postponed until the crisis has disappeared completely. These companies will be the big losers in the autonomy race and will have to rely even more on computing players to provide them with full autonomous solutions / functionalities.
As analyzed by Yole’s team in the new ‘Artificial Intelligence Computing for Automotive 2020 report’, AI computing dedicated to the automotive market segment is divided between centralized platforms and vision processors.
Pierrick Boulay, Technology & Market Analyst, Solid-state Lighting at Yole, said: “We suggest that two paths are available: either a single computer-type NVIDIA or FSD, descending from the high-end segment of robotic vehicles (i.e. the “brain” of a car); or, the number of vision processors incorporating accelerators is multiplied, a path already embraced by several OEMs”.
Competition will arise between these two platforms and determine the revenue. The 2025 market for AI, including ADAS and robotic vehicles, is estimated at US$2.75 billion – of which US$2.5 billion will be ‘ADAS only’, explains the market research and strategy consulting company, in its new technology & market report.
Yole collaborates with its partner System Plus Consulting to investigate all disruptive technologies related to ADAS applications. Under this context, System Plus Consulting has been recently interviewed by Junko Yoshida, EETIMES about innovations related to Audi A8. A part of this interview details technology advances led by NVIDIA in this domain.
Romain Fraux, CEO of System Plus Consulting explained: “The processors that make up the platform are NVIDIA Tegra K1 used for traffic signal recognition, pedestrian detection, collision warning, light detection, and lane recognition. Tegra K1 with eight layers of PCBs integrates 192 Cuda cores, the same amount that NVIDIA integrates into a single SMX module inside the Kepler GPUs currently on the market (figure 3) with DirectX 11 and OpenGL 4.4 support.”
“This is only the beginning, and the challenges surrounding AI and its impact on the automotive industry are already being felt,” added Yohann Tschudi from Yole.
Some companies have a considerable lead, and it will be difficult to catch up with them, especially without integrating AI and the computing that goes with it. So, what are the challenges? Who can keep up? And has the impact of COVID-19 and the resulting lack of cash permanently wiped some players off the map?