In the high-stakes, uncompromising world of Formula 1, safe bets rarely lead to glory. For decades, the Scuderia Ferrari has danced on the razor’s edge of triumph and despair, yet recent seasons have seen Maranello revert to approaches that are, perhaps, too cautious, too iterative.
The disappointment of the 2025 season, which saw both Charles Leclerc and incoming driver Lewis Hamilton express their frustration, has served as a bitter catalyst for a profound change in philosophy. Now, Ferrari is tearing up the playbook.
The code name for their 2026 challenger is Project 678, and from the initial reports emerging from the factory gates, it is clear this machine is less an evolution and more a complete, aggressive revolution. Under the determined leadership of Team Principal Frédéric Vasseur and Technical Director Lora, the team is going “all-in,” accepting the inherent risks of a radical design to force a massive turnaround.
This is the strategy of a giant wounded by complacency, a decision to march troops aggressively toward the bleeding edge of the new regulations, fueled by the knowledge that playing it safe has simply stopped working.
The Engine That Almost Blew Up the Project
The most immediate and dramatic challenge for Project 678 has centered on the heart of the car: the power unit. The 2026 season brings significant regulation overhauls to engine design, allowing teams to upgrade their power units throughout the season, transforming the ICE and MGU-H challenge. Ferrari initially sought to capitalize on this freedom with a design described by Italian media as “revolutionary” and featuring “radical innovations” (0:51).
The first iteration of the 2026 power unit, initially helmed by Wolf Zimmerman, was built on a philosophy of maximum power output at any cost. This audacious approach involved pushing the design limits of the Internal Combustion Engine (ICE) by drastically altering combustion pressures and cylinder temperatures. Technically, this meant utilizing steel cylinder heads to manage the intense thermal load. However, the pursuit of unbridled horsepower hit a devastating wall: reliability. Reports indicate that Ferrari ran “quite often into reliability issues,” a crisis severe enough to reportedly lead to the abandonment of Zimmerman’s high-risk philosophy (1:15).
The trauma of the 2022 season, where Ferrari had the strongest engine but suffered nearly ten DNFs due to poor reliability (2:31), clearly haunted the Maranello leadership. A fast engine that fails is simply a fast engine parked on the side of the track.
Faced with this setback, and with development time lost, the new head of engines, Enrico Galtieri’s technical team, has been playing catch-up to rivals like Mercedes and Honda (2:04). The team has reportedly made a massive U-turn, switching focus to a safer, yet still highly innovative, solution based on an aluminum composite material. This shift replaces the steel cylinder heads with a more manageable combination of copper and ceramic materials. Furthermore, the power unit now incorporates a rumored “secret intake system” designed to boost combustion efficiency (1:32).
This change, while pragmatic, represents a significant development setback. However, Vasseur and Lora believe sacrificing a marginal amount of potential peak power for guaranteed reliability is the only sensible move. The new goal is to create an engine that is not only robust but also extremely compact, allowing for a tightly packaged rear end—a critical element that feeds directly into the car’s aerodynamic philosophy (2:50).
The Return of the Zero-Pod Gamble
The pursuit of a small, tightly packaged power unit directly correlates with the rumors surrounding the 2026 car’s sidepods. Sources suggest Ferrari is exploring a narrow, possibly even zero-pod, concept. This slim design, which Mercedes disastrously attempted for two years in the current generation of regulations (3:39), brings huge aerodynamic benefits and greater aero efficiency.
Under the upcoming 2026 rules, the significance of the car’s floor and the Venturi tunnel effect will be diminished, lessening the dreaded problem of porpoising (3:27). This shift in regulatory focus may unlock the potential of the zero-pod concept that was previously unworkable. Ferrari’s exploration of this aggressive, high-risk aerodynamic packaging—where the margin for error is non-existent—is the clearest possible signal that caution has been thrown to the wind. They are betting that the new regulations reward the audacious, and that their compact engine will be the key to making the zero-pod finally function.
A Suspension Revolution: Ditching 14 Years of History
While the engine and aero elements remain partly rooted in rumor, the chassis and suspension details are confirmed by highly credible sources like AutoRacer and Formula Uno (4:00). Ferrari’s 2026 chassis is nearing homologation, with the chassis, suspension, and gearbox confirmed as 99% locked in (4:14).
This area is where Technical Director Lora has delivered his most revolutionary mandate. The new car will adopt a double push rod configuration for both the front and rear axles (4:41). This change is tectonic for Maranello.
For the rear suspension, Ferrari has been running the pull-rod configuration for a continuous 14 years. Project 678 marks an end to that long-standing technical relationship, reverting to the push-rod rear suspension last seen on the championship-contending Ferrari F10 in 2010 (5:04). This is not a simple swap; it is a complete, custom redesign that challenges the engineering conventions of over a decade.
Lora’s aggressive direction is reportedly taking inspiration directly from McLaren’s highly effective MCL39 suspension, studying its anti-dive and anti-squat complex wishbone shapes and kinematics (5:32). The performance benefits of a superior suspension platform are undeniable, impacting everything from tire wear and late braking to overall mid-corner balance (5:48).
The primary functional benefit of the push-rod rear design is purely aerodynamic: it frees up valuable space around the car’s rear end, allowing the team to “open up that diffuser and use more of that floor to generate downforce,” ultimately strengthening the rear grip (6:22). Even if the diffuser’s importance is slightly reduced in 2026, maximizing its potential within the new rules remains critical. This shift illustrates a comprehensive design approach where every single technical choice is made to serve an overarching, aggressive aerodynamic goal.
The Hamilton and Leclerc Verdict: A Challenging Future
All this radical engineering innovation means nothing without driver buy-in. The stakes are particularly high for Lewis Hamilton, whose move to Ferrari for 2026 will be his last, great championship tilt. Both he and Charles Leclerc have already tested the Project 678 in the simulator.
The feedback is mixed, highlighting the inherent challenge of the new regulations. Hamilton reported that the car “felt pretty decent,” but crucially, both drivers were vocal in their dislike of the “driving style required to coax the car around for a lap” (6:55). The 2026 rules are set to demand a different approach, forcing drivers to adapt to a less downforce-dependent, potentially more volatile machine.
However, the aggressive design philosophy mandated by Vasseur and executed by Lora represents the Scuderia’s ultimate declaration of intent. They have seen the disappointing results of caution and are now betting the house on revolution. From the abandoned engine philosophy to the audacious push-rod switch and the rumored return of the zero-pod, Project 678 is a car built on calculated risk. For Ferrari, and for Lewis Hamilton’s final chapter, 2026 will not simply be a new season—it will be a verdict on whether aggression, finally, can dethrone iteration. The world waits to see if this colossal technical gamble will lead to the glory Maranello craves, or to a reliability and design chaos that ends their title hopes before they even begin. This is high-stakes F1, and Ferrari is playing to win.