Tesla Giga Berlin is the electric automaker’s first European production facility, and it is slated to begin production of the Model Y crossover later this year. However, reports out of Germany indicate that Tesla’s German EV manufacturing facility is poised to be delayed six months due to numerous constraints that deal with battery pack output. However, Brandenburg Economic Minister Jörg Steinbach, who has been one of Tesla’s most vocal supporters in their quest to open the German facility, isn’t buying the six-month delay story at all. Steinbach still believes Tesla is on pace for a late-Summer or early-Autumn start at Giga Berlin.
The delays at Giga Berlin are not unfamiliar territory for those who have been following the site’s development over the past 18 months. After being announced by Elon Musk in late 2019, Tesla started land preparations in January 2020, only to begin erecting the mainframe of the facility just a few months later. The site has been subjected to numerous short-term delays due to the COVID-19 pandemic and some application holdups that needed preliminary approval before Tesla could move forward. However, recent reports from Germany suggest a more long-term delay is in store for Tesla because battery pack output won’t allow for vehicle production.
“I don’t have the faintest idea of how anyone can come up with a six-month delay. If nothing happens out of the ordinary, I still expect a start of production in late Summer or Early Autumn.”
-Jörg Steinbach, German Economic Minister, State of Brandenburg
Many outlets have cited Automobilwoche’s story that says the German manufacturing plant won’t become operational until January 2022. The article indicates that company circles close to Elon Musk state the CEO is accepting the January 2022 date, even though just last week during the Q1 2021 Earnings Call, Musk said that limited production would occur at both Giga Berlin and Giga Texas this year.
Musk said:
“We’re building factories as quickly as we can. Both Texas and Berlin are progressing well, and we expect to have initial limited production from those factories this year and volume production from Texas and Berlin next year.”
(Credit: @gigafactory_4)
Steinbach not buying Giga Berlin delay stories
Now that the report has been in the loop for a few days, plenty of people are finding out that Giga Berlin is apparently facing the six-month delay. One of the people disagreeing with those reports is Brandenburg Economic Minister Jörg Steinbach, a well-known politician who has been ecstatic regarding Tesla’s entry into the German economy. Steinbach told Teslarati earlier today that he doesn’t know where the six-month delay rumors are culminating from. Still, he expects Giga Berlin to face “approximately three months” of delay time.
“I don’t have the faintest idea of how anyone can come up with a six-month delay,” Steinbach said to Teslarati in an interview. “If nothing happens out of the ordinary, I still expect a start of production in late Summer or Early Autumn,” the Economic Minister added.
While Tesla has expressed some frustration with the German approval process, it is not unordinary for things to take several years to earn ultimate approval. Teslarati spoke to German engineer and Tesla enthusiast Alex Voigt last week, who indicated that many projects take 3-5 years to gain ultimate approval.
It appears that the basis of the delays seems to be blamed on a delay in 4680 cell production in Berlin, but the German factory’s battery line was not supposed to support the initial vehicle production efforts in the first place. Tesla’s Kato Road facility in Northern California sits just a stone’s throw away from the Fremont factory where Tesla has manufactured its cars since 2012. This is where Tesla is refining and developing the 4680 battery cell, which differs greatly from the batteries that Tesla currently uses in terms of power and performance, and it will support Tesla’s initial efforts in Berlin, according to Drew Baglino, the company’s Senior VP of Powertrain and Energy Engineering.
“We will incorporate 4680 design solutions into many applications in time across both energy and vehicle and we can use our pilot production facility in Fremont to support the new factory in Berlin as it ramps,” Baglino said during the Q3 2020 Earnings Call.
The delays at Giga Berlin could be confused with something as simple as an extended timeline, as Tesla’s addition of its 4680 battery cell manufacturing line to its application was submitted just last week. The additional portions of the application require more deliberation from regulators.
“If this additional investment now flows into the permit application, it goes without saying that the application documents must be revised, and then the approval authorities have the last word,” Dietmar Woidke, Brandenburg’s Prime Minister, said.
Tesla is still planning for Giga Berlin to begin production and deliveries this year, as it indicated in the most recent Update Letter that timing remains “on track for late 2021. Machinery for paint, stamping, castings, etc., continues to be moved into the building. In the meantime, we will continue to increase import volumes to Europe.”
Elon Musk
Why SpaceX just made a $60 billion bet on AI coding ahead of historic IPO
SpaceX has secured an option to acquire Cursor AI for $60 billion ahead of its historic IPO.
SpaceX announced today it has struck a deal with AI coding startup Cursor, securing the option to acquire the company outright for $60 billion later this year, while committing $10 billion for joint development work in the interim. The announcement described the partnership as building “the world’s best coding and knowledge work AI,” and comes just days after Cursor was separately reported to be raising $2 billion at a valuation above $50 billion.
The move makes strategic sense given where each company currently stands. Cursor currently pays retail prices to Anthropic and OpenAI to the same companies competing directly against it with Claude Code and Codex. That means every dollar of revenue Cursor earns partially funds its own competition. With SpaceX bringing computational infrastructure to the Cursor platform, that could reduce Cursor’s dependence on OpenAI and Anthropic’s Claude AI as its providers. Access to SpaceX’s Colossus supercomputer, with compute equivalent to one million Nvidia H100 chips, gives Cursor the infrastructure to run and train its own models at a scale it could never afford independently. That one change restructures the entire unit economics of the business.
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Cursor’s $2 billion in annualized revenue and enterprise reach across more than half of Fortune 500 companies gives SpaceX something its xAI subsidiary currently lacks, which is a proven, fast-growing software business with real enterprise distribution.
For Cursor, SpaceX’s $10 billion in joint development funding is transformational. Cursor raised $3.3 billion across all of 2025 to reach that $2 billion in revenue. A single $10 billion commitment from SpaceX, even as a development payment rather than an acquisition, dwarfs everything Cursor has raised in its entire existence. That capital accelerates product development, enterprise sales infrastructure, and proprietary model training simultaneously.
The timing is deliberate. SpaceX filed confidentially with the SEC on April 1, 2026, targeting a June listing at a $1.75 trillion valuation, in what would be the largest public offering in history. The company is expected to begin its roadshow the week of June 8, with Bank of America, Goldman Sachs, JPMorgan, and Morgan Stanley serving as underwriters. Adding Cursor to the portfolio before that roadshow gives IPO investors a concrete enterprise software revenue story to price in, alongside rockets and satellite internet.
The deal also addresses a weakness that became visible after February’s xAI merger. Several xAI co-founders departed following that acquisition, and SpaceX had already hired two Cursor engineers, signaling where its AI talent strategy was heading. Cursor, for its part, faces a pricing disadvantage competing against Anthropic’s Claude Code.
Whether SpaceX exercises the full acquisition option before its IPO or after remains the open question. Either way, this deal reshapes what investors will be buying into when SpaceX goes public.
Elon Musk
Tesla Supercharger for Business exposes jaw-dropping ROI gap between best and worst locations
Tesla’s new Supercharger for Business calculator reveals an eye-opening all-in cost and location-based ROI projections.
Tesla has launched an online calculator for its Supercharger for Business program, giving property owners their first transparent look at what it really costs to install Superchargers on site and what kind of return they can expect.
The program itself launched in September 2025, allowing businesses to purchase and operate Supercharger hardware on their own property while Tesla handles installation, maintenance, software, and 24/7 driver support. As Teslarati reported at launch, hosts also get their logo placed on the chargers and their location integrated into Tesla’s in-car navigation, meaning drivers are actively routed there. The stalls are open to all EVs, not just Teslas.
We launched Supercharger for Business in 2025 to help companies get charging right. We found simplicity and transparency to be a problem in this industry.
We’re now sharing pricing and a financial calculator to help make informed decisions. The goal is to accelerate investments,…
— Tesla Charging (@TeslaCharging) April 8, 2026
The new online calculator, announced by Tesla on Wednesday with the note that “simplicity and transparency” have been a problem in the industry, lets any business enter a U.S. address and get a real cost and revenue model. A standard 8-stall V4 Supercharger site runs approximately $500,000 in hardware and $55,000 per post for installation, bringing an all-in price just shy of $1 million. Tesla charges a flat $0.10 per kWh fee to cover software, billing, and network operations. Businesses set their own retail price and keep the margin above that fee.
Taking a look at Tesla’s Supercharger for Business online calculator, we can see that ROI is not uniform, and the gap between a strong location and a poor one can stretch the breakeven point by several years.
The biggest driver is foot traffic and how long people stay. A busy rest station, hotel, or outlet mall brings in repeat visitors who need to charge while they’re already stopped, pushing utilization numbers higher and shortening payback time.
Tesla Supercharger for Business ROI calculator
Local electricity rates matter just as much on the cost side. Markets like California carry some of the highest commercial electricity rates in the country, which eats into the margin between what a host pays per kWh and what they charge drivers. At the same time, dense urban areas with high EV adoption tend to support higher retail charging prices, which can offset that cost if demand is strong enough. Weather also plays a role. Cold climates reduce battery efficiency and increase charging frequency, but they can also suppress utilization in winter months if drivers avoid stopping in exposed outdoor locations. Suburban and rural sites face a different problem: lower baseline EV traffic, which means a site with cheaper power and lower operating costs can still take longer to pay back simply because the stalls sit idle more often. Tesla’s calculator uses real fleet data to pre-fill utilization estimates by ZIP code, so businesses can run their specific address against these variables rather than relying on averages.
The program has seen real adoption. Wawa, already the largest host of Tesla Superchargers with over 2,100 stalls across 223 locations, opened its first fully owned and branded site in Alachua, Florida earlier this year. Francis Energy of Oklahoma and the city of Alpharetta, Georgia have also deployed branded stations through the program, as Teslarati covered in January.
Tesla now exceeds 80,000 Supercharger stalls worldwide, and the calculator makes the economic case for accelerating that number through private investment rather than company-owned sites alone.
Energy
Tesla’s newest “Folding V4 Superchargers” are key to its most aggressive expansion yet
Tesla’s folding V4 Supercharger ships 33% more per truck, cuts deployment time and cost significantly.
Tesla is rolling out a folding V4 Supercharger design, an engineering change that allows 33% more units to fit on a single delivery truck, cuts deployment time in half, and reduces overall installation cost by roughly 20%.
The folding mechanism addresses one of the least glamorous but most consequential bottlenecks in charging infrastructure: getting hardware from factory floor to job site efficiently. By collapsing the form factor for transit and unfolding into an operational configuration on arrival, the new design dramatically reduces the logistics overhead that has historically slowed Supercharger rollouts, particularly at large or remote sites where multiple units are needed simultaneously.
The timing aligns with a broader acceleration in Tesla’s network strategy. In March 2026, Tesla’s Gigafactory New York produced its final V3 Supercharger cabinet after more than seven years and 15,000 units, pivoting entirely to V4 cabinet production. The V4 cabinet itself is already a generational leap, delivering up to 500 kW per stall for passenger vehicles and up to 1.2 MW for the Tesla Semi, while supporting twice the stalls per cabinet at three times the power density of its predecessor. The folding transport innovation layers logistical efficiency on top of that technical foundation.
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Tesla Charging’s Director Max de Zegher, commenting on the V4 cabinet when it launched, captured the operational philosophy behind these changes: “Posts can peak up to 500kW for cars, but we need less than 1MW across 8 posts to deliver maximum power to cars 99% of the time.” The design philosophy has always been about maximizing real-world throughput, not just peak specs, and the folding transport upgrade extends that thinking into the supply chain itself.
Posts can peak up to 500kW for cars, but we need less than 1MW across 8 posts to deliver maximum power to cars 99% of the time.
No more DC busbar between cabinets. Power comes from a single V4 cabinet to 8 stalls. Easier to install, cheaper, more reliable.
Introducing Folding Unit Superchargers
– V4 cabinet with 500kW charging
– 8 posts per unit
– 2 units per truck
– 2 configurations: folded, unfoldedFaster. Cheaper. Better. pic.twitter.com/YyALz0U5cA
— Tesla Charging (@TeslaCharging) March 25, 2026
The network is expanding rapidly on multiple fronts. The first true 500 kW V4 Supercharger on the East Coast opened in Kissimmee, Florida in March 2026, followed closely by a new site in Nashville, Tennessee. A public Megacharger for the Tesla Semi launched in Ontario, California in early March, with 37 additional Megacharger sites targeted for completion by end of year. Meanwhile, more than 27,500 Supercharger stalls are now accessible to non-Tesla EVs from brands including Ford, GM, Rivian, Hyundai, and most recently Stellantis, whose Dodge, Jeep, Ram, Fiat, and Maserati BEV customers gained access in March 2026.
As Tesla pushes toward a denser, faster, and more open charging network, innovations like the folding V4 Supercharger reflect the company’s growing focus on deployment velocity, not just hardware performance. Getting chargers to the ground faster, cheaper, and in greater volume per shipment may ultimately matter as much as the kilowatts they deliver.
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