Super Copy of Great Power Technology

"In the upper right corner of the keyboard, this round part is the combination of the power button and the fingerprint recognition module. When pressed, there will be an obvious sense of paragraphs, which can be used for laptop startup and fingerprint recognition. Just below the keyboard, there is a glass-like The touchpad is made of high-quality materials and has a first-class sliding feel. In addition to the traditional left and right touchpad buttons and mouse control functions, this touchpad also supports many gesture operations, such as tapping with two fingers, which is equivalent to a double right mouse button. Swipe up and down or left and right to scroll the page, which is equivalent to rolling the mouse wheel up and down. Swipe left and right with two fingers to quickly move forward and backward between web pages in the browser. You can zoom in with two fingers. With the zoom function, you can zoom in on web images or documents. Pinch with two fingers and tap twice with two fingers to achieve smart zoom, which means you can manually control the zoom ratio with three fingers. Drag your fingers, place three fingers on the trackpad at the same time, and then move to drag a window or file. Tap with three fingers and double-click on the text or word to search or translate. Spread one finger to quickly return to the desktop, which will display all windows. Pinch with four fingers to quickly enter the start menu. Swipe up with four fingers to open the "Schedule Center", which will display all windows on the current desktop. Swipe down to shrink the window of the currently used program and quickly switch windows. Swipe left and right with four fingers to switch to full-screen windows. These gesture operations can be customized in the trackpad options in System Preferences. Once you master these operating skills, the touchpad on your MateBook laptop will be no worse than a mouse.

Due to the sunken screen hinge design, when the upper cover is opened, the screen will block the upper side of the fuselage, so the interfaces of the MateBook notebook are all concentrated on the left and right sides of the fuselage. The interfaces on the left include a USB3.0-A interface, an HDMI interface, which can output up to 4K60HZ video, a 3.5 audio and microphone combination jack, and two full-featured TYPE-C interfaces. This TYPE-C interface is a new interface technology exclusively developed by Reda Technology. It integrates many functions such as charging, data transmission, audio and video output, peripheral connection, and adapter conversion. Unfortunately, Luo Ge currently does not have a matching TYPE-C interface converter, so he cannot experience other functions of the TYPE-C interface besides charging. By the way, the gallium nitride charger that comes with the MateBook notebook has a TYPE-C interface. When plugged into any TYPE-C interface, it can achieve 100W charging power. In addition, this TYPE-C interface also supports a variety of charging specifications. After our testing, whether it is the 18W charging head of the first-generation Reda mobile phone, the 40W charging head of the second-generation Reda mobile phone, or even the 3W charging head of the Reda MP10 player It can be charged by plugging it into a MateBook notebook, and the maximum power of the charging head can be achieved.

On the right side of the fuselage, there is a hidden RJ45 network cable socket, a CF memory card interface, a USB3.0-A interface, and a USB2.0-A interface mainly used to plug in a mouse wireless adapter. It is well known that the USB3.0 interface and the 2.4G transmission signal of wireless keyboard and mouse will interfere, which will affect the normal operation of the keyboard and mouse. The purpose of retaining this USB2.0-A interface is to avoid this situation.

The hinge part of the MateBook notebook adopts a sunken design with moderate damping, which can be opened and closed with one hand without being too loose. The screen part can be opened and closed 180 degrees to meet various working conditions. The only design flaw is that after the screen is opened, the air outlet will blow directly towards the screen axis, which will partially affect heat dissipation. However, the M1 chip equipped with the MateBook notebook is built using the most advanced 7nm process. It generates very little heat. In daily use, the cooling fan is too lazy to turn. The impact of this air outlet on the screen axis is really not big. "

After reading the above introductions, Lian Xingyu’s first impression of the MateBook notebook is that it is very light, has a good screen, and has a good appearance, which is in line with his aesthetics as a science and engineering man.

"I just don't know how the performance of this MateBook notebook is. Can it run programming software, 3D modeling and animation software?" Lian Xingyu showed some interest in the MateBook notebook and continued to read.

“After talking about what can be seen from the outside, let’s talk about the hardware configuration of the MateBook notebook. The MateBook we tested is a high-end version. Its processor is an M1 chip based on the ARM architecture, and the memory is two 8G The M.3 interface is a new high-speed hard disk transmission interface exclusively developed by Ruida Technology. It far exceeds the traditional SATA interface. The specific read and write speed will be detailed later. If you buy a basic version of the MateBook notebook, the memory and hard drive will be half seen, with only 16G+2G size, processor and others. The configuration is exactly the same as the high-end version, and there is no excessive shrinkage.

Regardless of whether it is a laptop or a desktop, the CPU is the core component that determines performance. The M1 chip equipped in the MateBook notebook is a new notebook processor developed based on the ARM architecture and instruction set. The CPU part has 8 cores and 8 threads. It adopts a large and small core design similar to mobile phone processors, taking into account energy saving and performance. So what is the performance of this M1 chip? Please see the following test.

Kaitian system is a brand new general-purpose operating system self-developed by Reda Technology. It is really not easy to find a native testing software. We searched through the software mall that comes with Kaitian system and only found one Geekbench testing software built for Android phones. Fortunately, Kaitian system natively supports Android APP, without translation, and there is no performance loss. It is used to test the performance of the M1 processor, which is more objective and true. In the Geekbench ARM processor performance test, the M1 processor scored 1545 in single-core and 6577 in multi-core. In X86 Bionic mode, it scored 1060 in single-core and 4688 in multi-core. The i7-3960X, as a comparison object, scored 686 in single-core and 2841 in multi-core. 1. The test results show that in native mode, the M7 single-core beats the i4; the multi-core score of 4 large, 8 small, and a total of 7 threads can also crush the i3960-86X with four cores and eight threads; in the X1 bionic mode, the M7 single-core is still stronger than the I86; X72 In bionic mode, 75%-% of the native performance can be retained!

In addition, the CPU also has a very traditional indicator, which is decompression performance. Kaitian System has a particularly easy-to-use self-developed decompression software called "Extrude". Here we use it to decompress with the famous compression software WinRAR under Windows. Speed ​​comparison. "(End of chapter)