2018 Porsche 911 GT2 RS vs 2021 Mercedes-AMG ONE
AI Telemetry Verdict:In this head-to-head, the 2021 Mercedes-AMG ONEholds the statistical edge in Performance Index (960). For the technical touge passes of Mount Fuji, the 2021 Mercedes-AMG ONEis the superior technical chassis due to its refined lateral G-force profile.
2018 Porsche 911 GT2 RS
Porsche
2021 Mercedes-AMG ONE
Mercedes-AMG"Analyzing the raw telemetry, the 2021 Mercedes-AMG ONE proves to be the more capable machine in all-around festival racing, outclassing the 2018 Porsche 911 GT2 RS."
| 2018 Porsche 911 GT2 RS | Metric | 2021 Mercedes-AMG ONE |
|---|---|---|
| 920 | Performance Index | 960 |
| 8.9 | Speed | 9.2 |
| 9 | Handling | 9.6 |
| 8.4 | Acceleration | 10 |
| 8.6 | Launch | 9.5 |
| 9.3 | Braking | 9.7 |
| 2 | Offroad | 1.8 |
| 211 | Top Speed (MPH) | 220 |
| 3241 | Weight (lbs) | 3737 |
| RWD | Drivetrain | AWD |
| 290,000 | Price (CR) | 2,700,000 |
📈 Technical Data Analysis:
Speed & Acceleration Analysis
When it comes to straight-line performance, the 2018 Porsche 911 GT2 RS boasts a speed rating of 8.9, while the 2021 Mercedes-AMG ONE hits 9.2.
The 2021 Mercedes-AMG ONE pulls ahead in long stretches, making it a formidable opponent on the Tokyo highways.
Handling & Cornering Dynamics
In the tight technical sections of the Mount Fuji passes, handling is everything. The 2018 Porsche 911 GT2 RS features a handling score of 9, whereas the 2021 Mercedes-AMG ONE manages 9.6.
The 2021 Mercedes-AMG ONE maintains superior stability through high-speed sweepers, minimizing the risk of traction loss.
Launch & Braking Efficiency
Off the line, the 2018 Porsche 911 GT2 RS uses its 8.6 launch rating to grip and go, while the 2021 Mercedes-AMG ONE relies on its 9.5 rating.
Braking from high speeds is equally critical; the 2018 Porsche 911 GT2 RS stops with a score of 9.3, while the 2021 Mercedes-AMG ONE records 9.7.
🏁 Race Scenario Breakdown
Higher top speed rating allows for sustained high-velocity overtaking.
Superior braking and handling allow for more aggressive entry and exit speeds.
Suspension travel and tire compound optimization for loose surfaces.