Raspberry Pi is one of the most popular single-board computers. It was launched in 2012, and since then it has gained a lot of popularity. The success of Raspberry Pi is due to its low price tag, high performance, and wide range of uses. But now there are several XPI boards that can replace Raspberry Pi at https://www.geniatech.com/product/raspberry-pi-form-factor/. These boards have better features and better performance than Raspberry Pi.
XPI boards have been designed from scratch and offer superior performance compared to Raspberry Pi. Today most programmers opt to use the XPI boards as alternatives for Raspberry Pi boards. The XPIs are also a great upgrade for anyone who wants better performance for their next project or product.
Here are some such boards:
· Rockchip RK3566 Computer Board XPI-3566
The XPI-3566 is a high-performance computing platform, which provides 4K video decoding, decoding and encoding of video. It supports various operating systems such as Android 11.0, Linux 10/ buildroot.
The XPI-3566 contains a Rockchip RK3566 CPU with an ARM Cortex-A55 + G52 + NPU quad-core processor running at 1.6GHz, 8GB DDR3 RAM, and 128GB eMMC storage space for the OS and data storage.
· Rockchip RK3128 Development Board XPI-3128
Rockchip RK3128 is a high-performance quad-core Cortex A9 processor with a 1.5G frequency. The XPI-3128 board uses the RK3128 chip and integrates the functions of memory, network, video, and audio systems. The board also has rich interfaces such as an SD card slot, USB host interface, 2 USB device interfaces, Ethernet port, and HDMI port. Moreover, it comes with an NPU, 128GB, 1000M LAN interface, GPIO interface, and HD video input/output interface (HDMI/DVI/VGA), etc.
· Rockchip RK3288 ARM Board XPI-3288
The latest XPI-3288 board is a new generation of powerful ARM boards developed by XPI Embedded Solutions. It comes with an NPU, 128GB, 1000M LAN interface, GPIO interface, and a wide range of interfaces. The high performance of the RK3288 processor enables it to support HEVC/H.265 4K video decoding, which is an ideal choice for smart home applications such as security surveillance, intelligent home appliances, video surveillance systems, and so on.
What to Look for in XPI Boards
- The CPU: The CPU or central processing unit (CPU) is the brain of your device. It’s what makes it run programs and display graphics on the screen. Some CPUs are better suited to certain tasks than others; for example, an ARM CPU would be great for wireless devices but not so good at high-performance computing.
- Memory: Memory is where data is stored while it’s being worked on by your computer’s processor(s). More memory means that more programs can run at once without slowing down your computer.
- Storage: Storage refers to removable and non-removable media that hold data for long-term use (or permanently). Storage can include hard drives (HDD), solid-state drives (SSD), USB drives, SD cards, and even floppy disks!
- Connectivity: Connectivity refers to how well connected your device is with other devices over a network connection such as Wi-Fi or Bluetooth.
There are two main reasons why you might consider researching XPI boards over the Raspberry PI model. First, they’re much more powerful, allowing you to run a full version of Linux and handle more complex hardware projects. Second, they’re also more readily available. There are tons of 3D printable cases for the Raspberry PI board, but XPI boards and accessories can easily be purchased online at geniatech.
The new generation processor provides XPI with higher performance and faster speed, which is just as vital to keep up with the new generation of smart home devices. Talking about processors, it is hard to focus on this part alone, since there are many other boards based on Raspberry Pi 2 out on the market. But you can say that at the moment, Amlogic S905 is still a hot chip! For example, it supports 4K H 3.0 video decoding and up to 4K 30fps encoding; or, supports 4K video decoding and up to 1080p 60fps H.265 video encoding(video quality can be sharper than 1080p).