David Schwartz, CTO of Ripple, recently tweeted his opinions on how adopting blockchain-agnostic solutions might hasten the spread of XRP and attract more consumers within the Ripple platform.
The CTO’s perspective is that a blockchain-agnostic solution is a technology that can operate with all digital assets in the cryptocurrency space or blockchain, regardless of their underlying design. This implies that the solution is not limited to any particular blockchain or digital asset and can seamlessly interact with any blockchain technology.
According to Schwartz, several technologies are incompatible with Ripple, making it more challenging for XRP to gain traction in cryptocurrency. He explained that if Ripple becomes a better fit for the needs of these technologies in the future, they may still need help to switch over.
David Schwartz believes that by addressing Ripple’s challenges, XRP can gain more traction among cryptocurrency users worldwide. As Ripple becomes more compatible with a broader range of technologies, more people will be willing to adopt the XRP network, leading to increased adoption and usage of digital assets. This, in turn, will enhance the user experience for all XRP users, making the network more attractive and user-friendly.
In a related report, legal expert Jeremy Hogan has predicted the ongoing legal case between Ripple and the Securities and Exchange Commission (SEC). Hogan believes that the judge presiding over the case may rule that the sale of Ripple’s payment token only violated U.S. securities law for a specific period.
The XRP token is experiencing a bearish trend, with its price decreasing by 1.56% over the last 24 hours. This decline has been accompanied by a drop in trading volume and market capitalization, which have decreased by 29.96% to $545,266,203 and 1.57% to $26,013,446,349, respectively.
Disclaimer: The article above was written by Cryptopolitan. We strongly recommend independent research and/or consultation with a qualified professional before making any investment decision.