1987 Buick GNX vs 1995 Mazda Eunos Cosmo 20B
AI Telemetry Verdict:In this head-to-head, the 1995 Mazda Eunos Cosmo 20Bholds the statistical edge in Performance Index (598). For the technical touge passes of Mount Fuji, the 1995 Mazda Eunos Cosmo 20Bis the superior technical chassis due to its refined lateral G-force profile.
1987 Buick GNX
Buick
1995 Mazda Eunos Cosmo 20B
Mazda"In a head-to-head battle, the 1995 Mazda Eunos Cosmo 20B edges out the 1987 Buick GNX primarily due to its exceptional Performance Index performance."
| 1987 Buick GNX | Metric | 1995 Mazda Eunos Cosmo 20B |
|---|---|---|
| 510 | Performance Index | 598 |
| 5.3 | Speed | 6.2 |
| 4.3 | Handling | 5.3 |
| 4.8 | Acceleration | 5.5 |
| 4.5 | Launch | 5 |
| 4.1 | Braking | 5.4 |
| 4.2 | Offroad | 4 |
| 130 | Top Speed (MPH) | 160 |
| 3468 | Weight (lbs) | 3550 |
| RWD | Drivetrain | RWD |
| 55,000 | Price (CR) | 45,000 |
📈 Technical Data Analysis:
Speed & Acceleration Analysis
When it comes to straight-line performance, the 1987 Buick GNX boasts a speed rating of 5.3, while the 1995 Mazda Eunos Cosmo 20B hits 6.2.
The 1995 Mazda Eunos Cosmo 20B 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 1987 Buick GNX features a handling score of 4.3, whereas the 1995 Mazda Eunos Cosmo 20B manages 5.3.
The 1995 Mazda Eunos Cosmo 20B maintains superior stability through high-speed sweepers, minimizing the risk of traction loss.
Launch & Braking Efficiency
Off the line, the 1987 Buick GNX uses its 4.5 launch rating to grip and go, while the 1995 Mazda Eunos Cosmo 20B relies on its 5 rating.
Braking from high speeds is equally critical; the 1987 Buick GNX stops with a score of 4.1, while the 1995 Mazda Eunos Cosmo 20B records 5.4.
🏁 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.