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Tesla rival Porsche is starting to realize it’s not easy to produce the Taycan
Porsche recently opened reservations for the company’s first all-electric car, the Tesla Model S-rivaling Taycan (formerly known as the Mission E sedan). In an announcement earlier this month, Porsche Managing Director Alexander Pollich stated that the reception to the upcoming vehicle, whose final production version has not yet been unveiled, has so far been encouraging. Porsche expects to start producing the Taycan sometime in 2019, in order to meet what appears to be a healthy demand for the electric car.
As it turns out, ramping production of the Taycan is turning out to be a challenging task for the veteran automaker. Porsche plans to build its Taycan line at a facility located at Zuffenhausen, a suburb in Stuttgart, Germany. The site is a historic location for the pedigreed brand, considering that it is the location where the Porsche 911, one of the company’s most iconic vehicles, is being produced. Other important cars in Porsche’s lineup, such as the 718 Boxster, as well as the 718 Cayman, are also manufactured in the same facility.
Porsche is aiming to produce 20,000 Taycans per year in the Zuffenhausen site. Starting and ramping the production of the all-electric sedan requires a complex reorganization of Porsche’s facility, especially considering that the Taycan’s line has to be built while the production of the 911, 718 Boxster, and 718 Cayman is running at full capacity. In a statement to Dutch auto publication Vroom, Porsche head of production Albrecht Reimold described the difficulties facing the company.
“Finding the right location is a difficult decision. Transforming the existing factory costs a lot of money, moving to a new location as well. Transforming a factory while the production lines are running at full capacity is not an easy task,” he said.
Project manager David Thor Trygvason elaborated on the complex challenge involved in building the Taycan’s production line. According to Trygvason, the location where the Taycan’s line would be set up has to be overhauled. Apart from this, Porsche’s estimated timeline for the project is 48 months, making the project quite costly and demanding.
“The existing location has to be demolished and rebuilt in a short time, but at the same time the production of the 911 and 718 Boxster and Cayman must continue to run. That makes it not only difficult in terms of time and money, but also in terms of logistics and mobility. After all, we are in a location where there is already a factory, where other companies are nearby and where people live nearby,” he said.
Despite these difficulties, Reimold noted that Porsche employees have expressed a sincere commitment to begin the production of the Taycan as early as possible. According to the Porsche executive, the company’s workers have agreed to help finance the factory overhaul by opting to keep their pay flat until 2026, at which point the employees will start getting their investments back. This means that the employees will not have regular salary raises for the next few years.
“We have agreed with them to invest a part of their wage increase until 2025 in the construction of the new factory. From 2026, they will simply receive their investment back,” Reimold said.
Considering that Porche has dubbed the Taycan as one of the company’s most important vehicles after the iconic 911, sacrifices made to start the electric car’s production appear to be necessary, at least for now. If any, Porsche’s struggles to build the Taycan at scale mirror those that have been faced by Tesla with its Model 3 ramp. Just like Porsche’s factory, Tesla also set up its Model 3 lines in the same facility building the Model S and Model X. The aggressive ramp, which CEO Elon Musk aptly dubs as “production hell,” has been haunting the electric car maker for the past year. Ultimately, Porsche’s current difficulties with the Taycan are an indication that Tesla’s struggles with Model 3 production are not problems exclusive to the California-based electric car maker.
Building cars is not a simple task. Building cars that people want to buy is even more challenging. With car buyers and the auto market steadily shifting its interest to electric vehicles, carmakers with upcoming battery-powered cars are now feeling the pressure to roll out their offerings as quickly as they can. Being one of the legacy carmakers who has committed to releasing an electric car, this is something that Porsche appears to be experiencing now. Nevertheless, with a line of reservations that are growing longer, and with a workforce determined to make sacrifices for the company, there is a good chance that the Porsche Taycan can still make it in time for its anticipated debut next year. According to Trygvason, the work being done in Porsche’s factory might be daunting, but “the good news is that the work is still fully on schedule.”
The Porsche Taycan is expected to feature the legacy carmaker’s trademark performance, with the vehicle listed with a 0-60 mph time of 3.5 seconds, a range of 310 miles per charge, and a top speed of 155 mph.
Tesla Cybercab stands to gain from new rules that the Trump Administration is aiming to enforce on autonomous vehicles. On Thursday, NHTSA, under the Trump Administration’s U.S. Department of Transportation, commenced rulemaking on the Federal Motor Vehicle Safety Standards (FMVSS).
This effort aims to eliminate the mandate for manual brake pedals in vehicles that are designed to be driven exclusively by automated driving systems. This would impact the Tesla Cybercab, which the company has stated would operate without a steering wheel or pedals.
Tesla Cybercab launch is imminent after latest sighting at Giga Texas
The Trump Administration is looking to revise FMVSS No. 135, which requires standard braking systems on light-duty vehicles.
Currently, the regulation requires light-duty cars to use traditional manual braking systems that allow operators to slow the vehicle. With the advent of self-driving in the U.S., these regulations need updating, and these are the changes that could come to FMVSS No. 135:
- Removes requirements for hand- or foot-operated brake controls for vehicles designed never to be operated by a human. Existing rules still apply to AVs that retain manual controls.
- All subject vehicles must still meet the same stopping distance performance criteria via alternative testing procedures.
- While this update ensures AVs can physically stop when commanded, NHTSA is separately developing safety performance requirements for AVs in real-world driving scenarios.
- NHTSA will continue to use its broad defect enforcement authority to investigate unsafe ADS behavior and oversee recalls.
As autonomy becomes a greater part of passenger travel, these types of rule adjustments will be more than reasonable. It will give manufacturers the ability to self-certify their vehicles and avoid any red tape that could ultimately delay the deployment of these vehicles.
Administrators are also incredibly excited about the opportunity to play a role in the advancement of self-driving vehicles.
“We are at the cusp of the greatest technological revolution in vehicle technology since the innovation of the Model T,” NHTSA Administrator Jonathan Morrison said. “If we want America to lead the way, we have to reimagine our regulatory framework. That’s why under Secretary Sean Duffy’s AV Framework, NHTSA is tearing down pointless barriers to innovative designs while strengthening the fundamental safety requirements that matter and holding AV developers accountable for safe performance.”
The Cybercab entered mass production at Gigafactory Texas in April. Tesla ultimately plans to push the vehicle into its Robotaxi fleet, potentially when frameworks like these are established.
Tesla plans to boost production at its Gigafactory Berlin plant in Germany following a sharp rebound in sales and demand in Europe after a softer 2025.
The plans put Tesla in a better position to compete with strengthening companies in Europe and potentially other markets; demand indicators show Tesla is much better off than in 2025.
Last year was a tough year for Tesla in terms of overall demand in Europe. The company produced over 200,000 vehicles at the German plant last year, a soft figure compared to the 375,000 vehicles Tesla lists as its current capacity at the factory.
🚨 Tesla said this morning it will ramp up production at Gigafactory Berlin to a volume of 7,500 vehicles per week.
This is a 20 percent boost in production. Tesla will hire 1,000 new employees to help with the increase.$TSLA pic.twitter.com/kravKfRO5n
— TESLARATI (@Teslarati) June 25, 2026
Tesla’s overall European sales dropped significantly last year due to a variety of factors. However, sales are rebounding, and demand is strong once again, and only getting stronger. Tesla is now planning to bump production of Model Y vehicles at Giga Berlin upward by about 20 percent. It will also bring 1,000 new jobs to the plant.
Tesla confirmed the details of its planned production expansion in Germany this morning. It is a strategy to keep up with strengthening demand.
In Q1, Tesla saw a record 61,000 vehicles produced at Giga Berlin. European registrations rebounded sharply, with Model Y seeing 117 percent increases in March 2026 compared to last year. Germany alone saw stark increases, with a quadrupling in registrations to 9,252 units.
This trend continued in other key European markets, including France, Denmark and Sweden. Tesla registrations were up over 46 percent in some of these markets, and Model Y continued its trend as a top BEV in the market.
Demand has been recovering strongly in 2026, giving Tesla a reason to expand production efforts at the factory. These increases signal management’s confidence in sustained or growing European pull for Berlin-built vehicles.
Tesla is being sued by the family of the woman who was killed in a Texas crash involving a Model 3. The driver, who is also being sued, claimed the vehicle was operating on Autopilot mode, but Tesla executives have come out challenging that claim, stating that the driver of the vehicle overrode the system.
The lawsuit was filed by 76-year-old Martha Avila’s daughter and her husband, who allege a “design defect” involving a Tesla and a failure to warn. The suit alleges negligence against Tesla and the driver, Michael Butler.
Butler “stated he was operating with an automated driving assistance system engaged at the time of the crash,” the Harris County Sheriff’s Office said in a statement. He showed no signs of intoxication and was cooperative, the Sheriff’s Office said, according to NBC News.
Just after reports of the crash and numerous headlines that immediately blamed Tesla’s Autopilot suite, both Tesla CEO Elon Musk and Head of AI Ashok Elluswamy challenged that. Musk said the crash made “no sense” given that Tesla Autopilot and Full Self-Driving do not travel at the speeds the door cameras captured the car traveling at, which Tesla says was 73 MPH.
Tesla finally clarifies fatal Texas crash, confirms driver manually overrode acceleration
Elluswamy also revealed that Tesla data showed Butler overrode the system by pressing the accelerator to 100%, and that the pedal was compressed fully even after the car had crashed. Tesla has not released this data to the public, likely because it is communicating with agencies like the NHTSA on an investigation.
The suit uses a Washington Post analysis of government data that “identified at least 17 fatal incidents linked to Tesla Autopilot.”
This is far from the first time an accident has been blamed on Autopilot. A fatal crash in Texas was blamed on Autopilot several years ago, but when Tesla released data to the NTSB, which was investigating the crash, Autopilot was not available where the crash occurred, and Autosteer was never enabled, meaning the car was manually controlled at the time of the accident.
“Application of the accelerator pedal was found to be as high as 98.8 percent,” the NTSB said in their findings. The highest recorded speed in the five seconds leading up to the impact was 67 miles per hour. The area where the crash occurred is residential, and Texas State laws… pic.twitter.com/XGD97NHVZ2
— TESLARATI (@Teslarati) March 18, 2026
More information on the accident will be released as Tesla works with agencies to find the cause of the crash. From personal experience, it is hard to imagine Tesla Autopilot or FSD operating in this manner. It drives sometimes too cautiously in residential areas in parking lots, at least in my experience. Speeding happens, but at this rate in this type of area, it is hard to believe.
We look forward to more details being released with time.
Tesla Cybercab stands to gain from new Trump autonomy rules
Tesla plans production boost at Giga Berlin following rebound in Europe
