Samsung has gone off the grid for a while. Although the impact of the tech firm's Galaxy Note 7 debacle continues to reverberate, it is just a matter of time before the Korean company will be able to get back on track.

With the fiasco in mind, users and enthusiasts are anticipating another blockbuster flagship. It is expected that the Samsung Galaxy S8 will be this breakout device.

While new specifications are due to be integrated into the upcoming product, the display component is the focal point of interest among many. According to rumors, the phone will possess a curved infinity screen.

This means that the Samsung Galaxy S8 will portray an edge-to-edge surface. Within this context, it is likely that the popular home button will be ditched.

Based on leaked pictures of the handset on the Chinese social media environ Weibo, the faultless surface of the Korean smartphone adheres to a fully-functional platform. Users will have the entire surface available for tapping commands or opening applications.

There are speculations that the Samsung Galaxy S8 will have a couple of variations. Both of these brands will depict AMOLED displays. The smartphone will come in 6.2 and 5.8-inch frames.

The clear glass case of the Galaxy S8 has led to a perception that a fingerprint scanner will be incorporated into the unit. It is possible that this element will be situated at the rear portion of the smartphone or it will be implanted under the surface.

Judging from the fact that the home button is nowhere to be found, it is highly likely that a digital screen will be made available near the bottom of the screen. With the full display process in place, users will be able to swipe or press across the end-to-end surface.

In addition, the Samsung Galaxy S8 will be equipped with a USB Type-C port. Aside from data access, the dock can also be used for charging.

Meanwhile, the flagship device will also be equipped with a dual-lens camera system and an iris scanner. Due to a full-screen procedure, images and videos will probably be viewed up to the 3D level.