Latest rumors about the Samsung Galaxy S5 suggest a 5.25-inch QHD AMOLED display for the unannounced smartphone that has now entered mass production.

Several reports have hinted that Samsung will showcase its rumored Galaxy S5 early next year and with the New Year approaching, the rumor mill has started churning again. The flexible display for the Galaxy S5 may not be a very favored option, but latest reports suggest that the upcoming flagship smartphone will boast a 5.25-inch QHD AMOLED display with 560 ppi density.

A Korean publication DDaily reported that Samsung Display has started producing a 5.25 inch display for the Galaxy S5 on a large scale. The report also suggests that the smartphone will be officially announced early next year. If the reports are true, then the Galaxy S5 display will offer screen resolution up to 1440 x 2560 pixels (2K).

Besides the fresh rumors on the S5 display, earlier reports have suggested that the South Korean phone maker will use its signature plastic body for the upcoming smartphone and diamond pixel arrangement for its display, just like what was seen in Galaxy S4 and Galaxy Note 3.

Several other features are likely to debut in Galaxy S5. The phone will reportedly be waterproof, dustproof and feature the popular fingerprint scanning technology as seen in the Apple iPhone 5S. Some reports have also suggested that the S5 will be powered by a 64-bit Exynos chipset or a Snapdragon.

While it is widely speculated that the S5 will feature 3GB RAM, the company's latest announcement of the industry's first 8 gigabit low power DDR4 memory chip may probably squeeze in a monstrous 4GB RAM. The smartphone will feature a 16-megapixel camera, 4,000 mAh batter and run on Google's latest Android 4.4 KitKat with Samsung's very own TouchWiz interface.

Another report in October suggested that Galaxy S5 will also boast of an eye scanning app, which will make it the first smartphone to ever feature such technology.

These rumors can only be taken with a pinch of salt unless Samsung makes some noise.