The end of the 2020s will be a crucial few years for the Volkswagen Group’s electrification strategy as it launches several new platforms, including – finally – SSP (Scalable Systems Platform). Affordability has been the main reason behind the lengthy delay from the architecture’s scheduled introduction in 2024 - due under Audi’s canned “Project Artemis”. But speaking during the first day of production for the new Cupra Raval and Volkswagen ID. Polo at Cupra’s Martorell factory in Spain, VW Group CEO Oliver Blume revealed to Auto Express that vehicles using the group’s upcoming SSP architecture (which will underpin cars from the ninth-generation Volkswagen Golf to the Touareg and several models from Audi and Porsche) won’t cost any more than gasoline cars to produce.
The cost to manufacture electric cars is typically higher than for combustion-engined cars because while there may be fewer moving components, the energy required in production is a lot greater; plus raw materials such as cobalt and zinc for the battery are expensive to source. Then there’s the economies of scale: manufacturers have had a century to hone production lines for combustion-engined cars, whereas EV factories are still being optimized.
“The main influencer is the battery,” Blume said, “and we are switching now from NMC [nickel, manganese, cobalt] to LFP [lithium ion phosphate] batteries. That is one driver to bring down the cost.” He also revealed the software in upcoming SSP vehicles will be cheaper to produce too. “With a new software strategy, we are able to reduce the software cost of 80 per cent compared with the architecture of today.” This refers to the MEB platform, which is used by the Volkswagen ID.3 and Cupra Born.
View Price on AmazonWith all this, Blume says we should expect SSP-based cars to cost the same as VW’s combustion-engined MQB-based models, which in the case of the next-generation Volkswagen Golf, will live alongside their EV (ID. Golf) counterparts. “When we come to parity, there will be the new platform, called SSP, where we have new software architecture and also new battery generations.”
In VW Group’s endeavor to reduce costs, could the quality of its cars based on the new platform suffer? Blume doesn’t expect this to be the case. “We have different levels of the SSP, right? For example, the software, zonal architecture where we have one central computer and one zonal computer for the first generation [of VW Group to utilize zonal computing], where we will start with the so-called ID. Every1 in 2027.”
Prototypes of the ID. Every1 have been testing zonal software since summer 2025 and the production version, which is almost certain to be called ID.1, will be the first VW Group car (despite an estimated price tag of under $22,000) to use this technology.
As for more expensive SSP cars, Blume said: “When we go to higher generations, like Q7 e-tron from Audi, or then Scout [in America], or later Porsche, you can add zonal computers.” The idea is that these computers manage more specific regions of the car and will reduce complexity. More zonal computers will also “implement much more functionality than for the ID.1 - where there is only one zonal computer.” according to Blume.
Away from computing costs, Blume also added the hardware such as batteries and e-motors of SSP will be a key differentiator between the many brands under the VW Group.
Optimization and efficiency have been key to the decision-making of the giant Volkswagen Group in recent years.
Blume said the VW Group as a whole had “too many options”, thus having a negative impact on production line efficiency and cost. Taking Audi as an example, he said the customer had a choice of “150 steering wheels, and we decided to continue with five. The customer at the end doesn’t care because the steering wheel is a steering wheel, and although we have many, many options, we have opportunities to reduce.”
Source: autoexpress.co.uk
