Every year, iGaming continues to be at the forefront of discussion due to its increased use and revenue growth. According to the American Gaming Association's (AGA) Commercial Gaming Revenue Tracker, every legal iGaming market, with the exception of Delaware, has reported annual growth. Year-to-date iGaming revenue has reached a staggering $3.94 billion, marking a robust 22.7 percent increase compared to the same period in 2022. With this impressive iGaming growth, Pavilion Payments is taking the lead in ensuring that it remains an essential partner for operators, especially in the iGaming sector.
Pavilion Payments is committed to providing innovative and user-centric solutions for the iGaming industry. There was a need for iGaming technology that can save operators time and money while also catering to the need of the patron. Pavilion Payments developed the iGaming Software Development Kit (SDK) as an innovative way to empower operators by offering a toolkit that simplifies the implementation of the VIP PreferredĀ® payment option, ultimately enhancing player satisfaction and streamlining transactions. The iGaming SDK is set to redefine the online gaming experience for both operators and players with its seamless integration capabilities and user-friendly interface.
With an emphasis on security, Pavilion Payments ensures patrons' funds are secure for all iGaming transactions. The iGaming SDK offers a range of customization options, allowing patrons to use online bank credentials for enhanced security and efficiency while maintaining control over their deposit limits.
With the introduction of the iGaming SDK, operators can streamline their processes, enhance the player experience and future-proof their platforms. As the iGaming industry evolves, Pavilion Payments remains committed to supporting its partners with targeted innovative solutions that are safe, responsible and secure.
Click here to learn how Pavilion Payments is enabling gaming and entertainment leaders to create amazing consumer experiences across their physical and digital properties.