Speed in motion

Built For Sprinters · Powered By Science

Stop Leaking
Power.
Align Your Speed.

Precision biomechanics analysis built for sprinters who refuse to leave milliseconds on the track.

Scan Your Biomechanics
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20+ Biomechanical Checkpoints

Sprint Biomechanics Expertise

Event-Specific Analysis

Founder Story

Why This Exists.

I was fast enough to compete at varsity level as a freshman in both football and track. But I never reached my potential. Not because I didn't work hard — I did everything right. What nobody told me was that my mechanics were silently capping my speed the entire time. An ankle issue I didn't even know about was creating a pelvic tilt, killing my power output, and eventually tearing my hamstring twice. I wasn't losing to athletes who trained harder. I was losing to a biomechanical problem nobody caught.

I built Speed Aligned because somewhere right now there's an athlete just like me — talented, hardworking, and running at 60% of their actual potential without knowing it.

Created by a Sprint Biomechanics Analyst and former competitive sprinter who lost years of potential to an injury nobody caught.

The Method

From How You Stand
To How You Sprint.

01

Scan

Upload a standing photo for instant posture analysis or a sprint video for full mechanical breakdown — no equipment needed, just your phone.

02

Analyze

AI identifies your specific force leaks across 20+ biomechanical checkpoints, calibrated to your event and body type.

03

Correct

Get a personalized report with your weak links ranked by speed impact, plus a full progression workout plan built specifically for your event.

The Science

The Science of
Alignment.

Six critical checkpoints. Where your power is won — or quietly lost. Hover the markers to inspect each one.

Elite sprinter silhouette in mid-stride showing biomechanical checkpoints

Cervical Stack

Neck

A stacked head keeps your center of mass over the drive leg, eliminating the braking forces that quietly cap your top-end speed.

Shoulder Drive Mechanics

Shoulders

Symmetrical arm drive counters rotational torque in the torso, channeling every ounce of force straight down the track.

Pelvic Force Vector

Pelvis

A neutral pelvis fires the glutes and unlocks backside mechanics, driving a cleaner recovery and a faster turnover rate.

Hip Power Transfer

Hips

Full hip extension finishes the drive phase — the propulsive triple-extension that lengthens stride without sacrificing frequency.

Knee Drive Efficiency

Knees

A high, punching knee loads the hip flexor and primes a powerful front-side strike — the engine behind acceleration and stride length.

Ankle Elasticity

Ankle

A stiff ankle stores and returns elastic energy on contact, shortening ground time and converting it into explosive flight.

AI-driven analysis covers 20+ biomechanical checkpoints including hip oscillation, knee drive height, and arm drive symmetry.