In my review of ASUS GL553VD, I said that I had found a way to reduce the fan noise produced by the cooling system. With a fresh installation of Windows 10, the cooling system is kicked off every two seconds even for simple tasks like opening a web page. I hate fan noise!
The gaming notebook GL553VD comes with a slow Sandisk Z400s 128GB SSD M.2. This 128GB storage unit is the boot / system disk. Let’s replace this 128GB drive by a faster and larger one: a Samsung SSD 960 PRO 512GB M.2.
Today, a quick review of ASUS ROG Strix GL553VD, a 15-inch gaming notebook.
In a recent review, I tested the PNY GTX 1050. Today, let’s compare it with the titanium version materialized by the MSI GTX 1050 Ti Gaming 4GB.
The Raspberry Pi Sense HAT is a really cool piece of hardware: it’s an all-in-one board that comes with several sensors and even a LED matrix. Let’s discover it.
Rendering Real Time 3D Graphics on a 32×32 RGB LED Matrix Panel with a Raspberry Pi and GeeXLab (**Updated**)
In the previous article, I explained how to control the color of a particular LED of the RGB LED matrix panel. Thanks to that knowledge, you can draw simple graphics: points, circles, lines and so on. But how can we easily draw a rotating triangle? Or a mesh like a torus? Or any 3D scene? Answer in this article!
Today, a quick review of the PNY GeForce GTX 1050.
Today, a quick review of the ASUS GeForce GTX 1080 TURBO.
Recently, EVGA has faced with some overheating issues with its GeForce GTX 1080 and GTX 1070. Since the first November 2016, all new GTX 1080 and 1070 are shipped with a new VGA BIOS and an improved VRM cooling. Today, we’re going to stress test the updated GTX 1070 FTW to check those improvements.
In previous articles (HERE and HERE), we have talked about the RGB LED matrix panel as well as the RGB Matrix HAT which is the hardware interface between the LED panel and the Raspberry Pi. Today we will cover how to draw simple graphics on the LED panel.
Here the second article (first one is HERE) about how to render real time 3D stuff on a RGB LED matrix panel with a Raspberry Pi. In this article, we’ll look at the hardware interface between the Raspberry Pi and the RGB LED matrix display: the RGB Matrix HAT.