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Cadillac in the Field

2026 F1 Season · Through Britain · Where Cadillac F1 Actually Stands

10 / 11
Cadillac team rank
by min-speed gap to
field median (off the bottom)
19 · 22
PER · BOT
driver ranks of 22
across the field
−4.6 km/h
Cadillac avg min-speed
vs the field median
across all corners
−8.1 km/h
Gap to the
field-leading team
(Mercedes) in min-speed

Nine races into 2026, Cadillac still holds 10th of 11 — and Silverstone, the fastest circuit on the calendar, didn't dislodge them. Both cars finished the British Grand Prix (Pérez 15th, Bottas 17th), so unlike asterisked Austria, Britain counts. Its long, flat-out corners nudged the season gaps a touch wider — PER to −3.0 km/h, BOT to −6.2 km/h below the field-median apex speed — but the driver order held (PER 19 / 22, BOT 22 / 22), and Cadillac actually stretched its cushion over Aston Martin from 0.78 to 0.92 km/h. The gap to the field-leading team, now Mercedes, is −8.1 km/h.

Through the first nine 2026 races — Australia, China, Japan, Miami, Canada, Monaco, Barcelona, Austria, and Britain (Saudi and Bahrain were cancelled) — we measured every driver's minimum apex speed at every detected corner, using each driver's single fastest clean lap. The metric is honest: vmin at the apex, in km/h, compared corner-by-corner against the field-median driver. Higher = better grip = more downforce; the driver who carries the most apex speed has the most car under them. Sergio Perez and Valtteri Bottas sit at the bottom of the 22-driver field, with PER averaging −3.0 km/h below the median apex speed and BOT averaging −6.2 km/h — both a touch wider than Barcelona after Silverstone's high-speed corners punished the car's low-downforce trim. The Cadillac team rank is 10 of 11, clear of Aston Martin for the fifth race running — and the margin actually grew to 0.92 km/h, as Aston lost more ground at Silverstone than Cadillac did. The gap to the field-leader (Mercedes) is 8.1 km/h of average minimum apex speed. Britain counts: both cars finished (PER 15th, BOT 17th) and set representative clean laps, so Silverstone feeds the Cadillac averages — unlike Austria. Austria asterisk: both Cadillac cars retired very early with brake fires (PER lap 4, BOT lap 2). Neither set a representative lap, so Austria is excluded from the Cadillac season averages entirely — the rest of the field, who completed the race, do include it, which is why Cadillac's corner count sits at 114 while the busiest field runners reach 122. Canada methodology note: Sergio retired on lap 39 with a smouldering chassis fire; to stop the rest of the field's lower-fuel late-stint laps from inflating their relative pace, we cap every driver's best-5-lap pool at lap 39 for Canada only. Barcelona note: Bottas retired on lap 15 — no cap there (it would discard ~77% of the race on a circuit where clean fast laps come later in the stint), but his 15-lap heavy-fuel sample is flagged. See the methodology page for all three rationales.

How We Read the Telemetry

Cadillac F1 is in their first season as a Formula 1 constructor in 2026, racing alongside ten established teams. Where do they actually stand? V2 of this analysis ranks every driver in the field on a single physics-anchored downforce indicator: minimum apex speed.

For each driver we pick their single fastest clean lap of the race weekend, resample its telemetry onto a uniform 5 m grid, and identify the corners as local peaks in track curvature. At each corner we read off two numbers: the minimum speed they carried through the apex, and the time they spent in the corner phase versus the straight-line phase on that lap. The driver who carries the highest minimum apex speed has the most grip — which on these new 2026 ground-effect-reduced cars correlates almost entirely with how much downforce the chassis produces.

The phase split satisfies a strict closure invariant: cornering_time + straight_time = best_lap_time, exactly. No averaging, no fudge factors. When you add the two phases back together you get the lap. Read the full methodology for detection thresholds, the throttle/brake phase-classification rule, the per-corner κ math, and what the analysis deliberately doesn't capture (banking, weight transfer, dirty air).

Where Cadillac Stands

1 · Driver Downforce Leaderboard

Season avg gap to field median min apex speed (km/h) · 22 drivers · 9 races · 92–122 corners per driver (Cadillac 114 — Austria excluded)

Antonelli holds the individual top spot, and Mercedes now leads on the team metric too. Cadillac's two drivers sit near the bottom in silver with red outlines — PER at #19, BOT at #22. The 3.2 km/h gap between PER's and BOT's apex-speed averages is consistent across races: one driver is reliably extracting more out of the same car.

2 · Per-Corner Minimum Apex Speed

Pick a race · 22 dots per corner · field median = dashed line · Cadillac silver/red

Mercedes Ferrari McLaren Red Bull Cadillac Field median

Click race tabs to switch. The dashed line is the field median for each corner — every driver below the line is losing to the field at that corner. Cadillac's silver and red dots sit below the dashed line at almost every corner of every race; the magnitude of the gap varies by corner type (low-speed hairpins are forgiving, medium-speed sweepers expose the deficit).

3 · Cornering Time vs Straight Time

Each driver = one dot on best clean lap · diagonals are constant-lap-time iso-curves

Each dot is one driver's best lap. X + Y = lap time exactly (closure invariant). Drivers down-and-left have shorter total laps. Drivers up are corner-fast but straight-line-slow; drivers right are straight-fast but slow through corners. Cadillac's two silver-with-red dots sit up-and-right — slower in both phases than the field's frontrunners.

4 · Cadillac Driver Comparison — PER vs BOT

Per-corner min-speed gap to field median (km/h) · 114 corners across 8 scored races · Austria excluded (both DNF'd) · PER silver / BOT shadow

PER outpaces BOT in 75 of 114 corners (66 %). Both drivers are below the field median at most corners (bars below zero), but PER's bars are consistently shorter — he's squeezing 3.2 km/h more apex speed out of the same car. Where they invert (BOT bar above PER) is usually a corner where Bottas's experience and smoothness pays. Canada corners are sampled from the same fuel window as the rest of the field (lap 1–39); BOT's Barcelona corners come from his 15 laps before retirement, all on heavy fuel. Austria contributes nothing here — both cars were out by lap 4 with brake fires.

5 · Speed Trace · All 22 Drivers

Median best-lap speed across the lap · pick a race · 20-driver gray hairball · Cadillac silver/red bold

The gray hairball is the rest of the 20-driver field. Cadillac's two drivers and the field median are pulled out in bold. Look for the dips — that's where the field is in corners and Cadillac's lines fall below the dashed median. The deficit is at the bottom of every dip, not at the top of the straights.

6 · Cadillac's Worst Corners vs the Field

Top 12 corners across all 8 scored races (Austria excluded — both DNF'd) where Cadillac's median apex speed lags the field median most

Albert Park (Australia) Shanghai (China) Suzuka (Japan) Miami Montréal (Canada) Monte Carlo (Monaco) Catalunya (Barcelona)

Albert Park (sky blue) and Suzuka (red) still dominate the worst-corners list — high-load circuits where downforce deficit hurts most. The gap at the worst corner can be 25+ km/h. Monte Carlo (gold) lands just one corner on the list despite being wall-to-wall corners — at low speed the whole field is slow, and the deficit compresses. The pattern holds: the team's deficit is biggest where lateral grip matters most.

What It Means

Holding 10 / 11 — and Silverstone Didn't Break It

Cadillac stays 10 / 11 for the fifth race running. Silverstone — the fastest track on the calendar — nudged the season figures a touch wider (PER −3.0 km/h, BOT −6.2 km/h), but the driver order held and the cushion over Aston Martin actually grew from 0.78 to 0.92 km/h, as Aston lost more ground on the day than Cadillac did.

Austria — Reliability, Not Aero

Austria's story wasn't downforce, it was brake fires. Both MAC-26s retired inside four laps — PER on lap 4, BOT on lap 2 — before either set a representative clean lap. A two-lap, full-fuel, cold-brake sample tells us nothing about the car's cornering pace, so Austria is asterisked and excluded from the Cadillac season averages. The field, who ran the full distance, still counts it.

Silverstone — a High-Speed Aero Test — Says the Same

Silverstone is wall-to-wall fast, sustained-load corners — the kind that can't hide a downforce shortfall. Cadillac's biggest Britain deficits came at exactly the quickest turns: Farm (T2) at −10.9 km/h and Abbey (T1), both taken near 270–280 km/h. PER's Britain average was −4.1 km/h and BOT's −7.1 — the structural deficit shows up right where aero load matters most, which is why the season gap to the field-leaders now sits at −8.1 km/h.

PER Beats BOT, Consistently

PER outpaces BOT in 66 % of detected corners (75 / 114) and averages 3.2 km/h more apex speed across the field. Same car, same setup, same engineers — Perez is extracting more out of the platform than Bottas. With this kind of car, that 3.2 km/h is meaningful.

The Aero Deficit Is the Real Story

This isn't a power-unit story or a setup story. The phase split shows Cadillac's slowest moment is consistently the apex, on every track type, against every team. The car needs more downforce. Eight races in, the picture is unchanged — and Barcelona, the truest aero test on the calendar, still confirms it loudest (Austria was lost to brake fires before either car could run).

What's Next — Britain

Austria gave us no Cadillac pace data — both cars were out by lap 4 with brake fires before they could run, so the downforce picture is frozen at Barcelona. That makes Silverstone (R9) the next real aero test, and a demanding one: the British GP is wall-to-wall high-speed, sustained-load corners — Copse, Maggotts–Becketts, Stowe — the kind of layout that exposes a downforce shortfall even more ruthlessly than Barcelona. The questions for Cadillac are simple: can the cars finish, and does the structural aero gap look any different on the calendar's fastest corners? We'll re-run the pipeline after the race and update the leaderboard.