Introducing SonicX: The Tap-to-Earn Game Taking TikTok by Storm
Tap-to-earn has been dominating the crypto gaming scene, with Telegram-based mini apps attracting over 300 million players simultaneously. However, a new player has entered the arena with a Solana-based project launching a tap-to-earn game called SonicX, aiming to establish itself as the Notcoin of the popular Gen Z social media platform, TikTok.
Sonic SVM, a layer-2 gaming chain built on top of Solana, is set to collaborate with content creators and run ads on TikTok, allowing players to seamlessly access the SonicX game within the TikTok app. Similar to Telegram’s mini apps, TikTok enables users to open webpages within its native browser, where players can start accumulating in-game points using social logins.
SonicX follows the familiar tap-to-earn concept, where players tap their screens to collect rings, upgrade their in-game progress, and invite friends to climb the ranks—all in anticipation of a potential token airdrop in the future.
Screenshots from the SonicX tap-to-earn game. Image: Sonic SVM
The game is themed around the iconic Sonic The Hedgehog series, although it is not officially affiliated with Sega.
An intriguing feature of SonicX is that each in-game tap is recorded as an on-chain transaction. This approach mirrors the success seen with the “tickle-to-earn” cat game Tapos on Aptos, which recorded over 115 million transactions in a single day with just over 63,000 players. In comparison, Ethereum processed only 1 million transactions a few days earlier.
Chris Zhu, CEO and co-founder of Sonic SVM, expressed optimism about the game’s potential, stating, “Even with just 1% of TikTok’s user base, we would have 10 million users. So, I believe this goal is very achievable.”
TikTok boasts 1 billion monthly active users, with projections indicating a rise to 2.35 billion by 2029. In contrast, Telegram, the current hub of tap-to-earn activities, has 950 million monthly active users. Zhu sees TikTok as an untapped market with greater advertising accessibility.
Screenshots from the SonicX tap-to-earn game. Image: Sonic SVM
Sonic SVM, a Solana layer-2 network, acts as a publisher for crypto games, akin to Ronin on Ethereum. While hosting 67 playable games, Sonic SVM chose TikTok as the ideal platform for SonicX due to the team’s experience at Bytedance, TikTok’s developer, allowing them to optimize platform utilization.
As with other tap-to-earn games, SonicX hints at the potential for in-game progress to translate into token rewards, although this aspect is not officially promoted. This cautious approach likely stems from TikTok’s advertising restrictions, which Sonic SVM must navigate to prevent losing its primary distribution channel.
Building on the success of Notcoin on Telegram, SonicX aims to replicate a similar model on TikTok. Zhu envisions onboarding other tap-to-earn games into the Sonic SVM ecosystem, fostering growth through social tasks that reward players for engaging with the platform.
With every in-game action recorded on-chain, SonicX serves as a showcase of Sonic SVM’s scalability potential, should it attract a substantial user base. The game on TikTok is not just a standalone venture but a strategic move to expand the broader Sonic SVM gaming network.
Edited by Andrew Hayward
The rise of artificial intelligence (AI) has been one of the most significant technological advancements in recent years. With its ability to mimic human intelligence and perform tasks that were once thought to be exclusive to humans, AI has revolutionized various industries and transformed the way we live and work.
One of the most notable applications of AI is in the field of healthcare. AI has the potential to revolutionize the healthcare industry by improving diagnosis accuracy, streamlining administrative tasks, and enhancing patient care. With the help of AI, healthcare professionals can analyze large amounts of data and identify patterns that may not be immediately apparent to human eyes. This can lead to more accurate and timely diagnoses, resulting in better outcomes for patients.
AI is also being used to streamline administrative tasks in healthcare facilities. By automating processes such as appointment scheduling, billing, and medical record keeping, AI can help healthcare providers save time and resources, allowing them to focus more on patient care. Additionally, AI-powered chatbots are being used to provide patients with instant access to medical information and assistance, reducing wait times and improving overall patient satisfaction.
In addition to improving diagnosis accuracy and streamlining administrative tasks, AI is also being used to enhance patient care. For example, AI-powered robots are being used to assist healthcare professionals in performing surgeries, reducing the risk of human error and improving patient outcomes. AI is also being used to monitor patients’ vital signs in real-time, allowing healthcare providers to detect any changes or abnormalities early on and intervene promptly.
Despite its numerous benefits, the widespread adoption of AI in healthcare does raise some concerns. One of the main concerns is the potential for AI to replace human healthcare professionals, leading to job displacement and a loss of human touch in patient care. Additionally, there are concerns about the privacy and security of patient data, as AI systems require access to large amounts of sensitive information to function effectively.
Overall, the rise of AI in healthcare presents both opportunities and challenges. While AI has the potential to revolutionize the way healthcare is delivered and improve patient outcomes, it is essential to address concerns about job displacement, patient privacy, and data security. By finding the right balance between the benefits and risks of AI in healthcare, we can harness the full potential of this technology to create a healthier and more efficient healthcare system.