LG’s next big smartphone – the LG V30 is all set for a launch on August 31. We already know some key details about the upcoming handet thanks to details in the form of leaks and official teasers. Now, the latest leaked render comes popular tipster Evan Blass which shows off LG’s upcoming handset from pretty much every angle.

In terms of design, the new leak reveals a full screen display similar to the one found on last year’s LG G6. That being said, the size of both top and bottm bezels have been shaved off even further, as the latest render seemingly shows an edge to edge, bezel free display on LG’s upcoming flagship. Also, the edges appear to be more curved compared to the LG G6 which featured rather straight edges.

The back of the phone reveals horizontally arranged dual-lens camera setup with lenses placed next to each other. A fingerprint sensor is also housed below the primary camera unit, but there’s sufficient gap so that users do not  smudge the camera lenses accidentally.

Finally, the leaked renders reveal volume rockers on the handset’s right edge along with the Power button on handset’s left edge. Not to mention, there’s still confusion over wherther the LG V30 will get a 3.5mm jack and a microSD slot as the latest renders do not show either.

As per earlier leaks, the LG V30 is expected to sport a 6-inch OLED display with an aspect ratio of 18:9. Under the hood, the handset is rumored to run Qualcomm’s latest Snapdragon 835 processor bundled with 4GB of RAM and 64GB of built-in storage. The handset is also said to offer support for Google’s Daydream VR headset so that users can enjoy VR content on the device right out-of-the-box.

Last week, LG let us on more details about the smartphone’s camera capabilities. According to the company, the LG V30 will feature an f/1.6 aperture – the widest aperture ever featured on a smartphone camera. The company asserts that the combination of f/1.6 aperture the phone’s Crystal Clear lens will allow the camera to absorb 25 percent more light and offer improved color accuracy.