The legendary shape that dominated professional golf is upgraded with revolutionary technology. The Odyssey Ai-DUAL Square 2 Square Jailbird Putter brings zero-torque physics to a historic mallet silhouette. By centering the shaft perfectly above the center of gravity plane, this center-shafted mallet naturally balances with the toe pointing up (90∘ Up). The design fundamentally resists twisting, allowing the face to stay completely square to your path from the top of your takeaway through impact.
Combined with artificial intelligence design and high-contrast alignment stripes, the Square 2 Square Jailbird eliminates hand and wrist manipulation, forcing a smooth, effortless pendulum stroke.
By anchoring the shaft directly over the club's center of gravity plane, the Square 2 Square Jailbird sits completely face-balanced with the toe up. Unlike traditional putters that require your hands to actively square the face, this zero-torque build removes rotational twisting so the club stays square to your path automatically.
Designed using advanced artificial intelligence, this premium dual-layer urethane insert features a soft outer layer paired with a firm inner core. It eliminates the distance-control penalty of off-center strikes by delivering highly consistent ball speeds across the entire face with a responsive, tour-preferred feel.
The face features an aggressive groove architecture engineered with a sharp 19∘ slope angle. Working in tandem with the dual-layer insert, these micro-steps grab the ball immediately at impact to minimize skid and maximize pure forward roll.
The shaft is engineered with a preset 2∘ forward lean to optimize your loft delivery at impact and prevent the face from opening. A custom Reverse Taper Grip counteracts this lean, keeping the hands and the clubface parallel for a natural, stress-free setup.
Built to handle the unique physics of a zero-torque stroke, the standard length models are equipped with the stiffened, heavier Stroke Lab 120 steel shaft. This premium black PVD shaft provides maximum stability and structure through transition.
