Abundant global procurement channels and customer resources, differentiated price advantages.
In-depth cooperation with original factories such as NXP/ST/INFINEON, and has exclusive supply resources of automotive, industrial and other product lines.
Cooperate with global agents of Arrow/ AVNET/ WPI/ WT to make in-depth cooperation in the whole area and multiple dimensions, allocate their global inventory resources.
Fast and timely delivery ability to satisfy customer production and delivery.
2 hours quick quote response
2-7 days for timely delivery of actions
Timely after-sales feedback
Professional quality control and service mechanism: Ensure the quality of delivered materials.
Professional supplier introduction mechanism and strict supplier qualification assessment mechanism.
Professional incoming inspection mechanism.
In-depth cooperation with professional third-party testing institutions.
Positive Guardian/Taitao team: Consistently efficient and dynamic.
The senior leadership team has over 20 years of rich experience, offering customers professional information integration resources.
Young sales team always maintains a passionate state to provide customers with more efficient and high-quality services.
Guardian International Electronics Co., Ltd./Shenzhen Taitao Electronic Technology Co., Ltd. is located in Shenzhen, Guangdong Province, China. It is an automotive -grade chip supply chain service provider integrating agency and distribution.
We are committed to providing electronic component solutions for global automotive electronic product manufacturers, it involve new energy, communication, medical, industrial and other fields.
The biggest feature of FPGA is flexibility, it can realize any digital circuit you want to realize, and you can customize various circuits. Reduce the constraints of special-purpose chips, truly tailor-made for your own products, you can flexibly change the design during the design process, and have field programmability, so it is especially suitable for applications that require continuous changes in physical operation logic, such as Artificial intelligence algorithm optimization, data center applications, etc.
FPGA chips can change the running hardware design on the chip every few seconds, while chips such as CPUs and ASICs are solidified when they leave the factory and cannot be changed. If ASCI, CPU, and GPU are built buildings, and the routes of rooms, corridors, and stairs in the building have been fixed, then the interior of the FPGA is similar to the magic stairs in Hogwarts, which can change the route from room to room at any time. route relationship.
In addition, FPGA does not need instruction system compilation at the software application level like CPU and GPU. FPGA programming uses hardware description language, and directly compiles and burns it as a combination of transistor circuits, that is, directly uses transistor circuits to implement user algorithms.
Before the advent of FPGAs, all integrated circuits could be regarded as a built house. After the house was built, there was no way to change the main structure of the house. At the same time, a lot of material is wasted during construction.
FPGA is like all kinds of materials needed to build a house. You can freely combine what kind of house you want to build. You can build whatever you want. If it is not well built, you can rebuild it. That's why it's called programmable.
The service attitude is not bad, a satisfactory cooperation.
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ASIC and FPGAs have different value propositions, and they must be carefully evaluated before choosing any one over the other. Information abounds that compares the two technologies. While FPGAs used to be selected for lower speed/complexity/volume designs in the past, today’s FPGAs easily push the 500 MHz performance barrier. With unprecedented logic density increases and a host of other features, such as embedded processors, DSP blocks, clocking, and high-speed serial at ever lower price points, FPGAs are a compelling proposition for almost any type of design.
Nothing can beat a dedicated a piece of hardware designed to perform a single function. Therefore, a well-designed FPGA will always execute faster than a software code running on a general-purpose CPU chip.
FPGAs. Field programmable gate arrays (FPGAs) are types of integrated circuits with programmable hardware fabric. This differs from graphics processing units (GPUs) and central processing units (CPUs) in that the function circuitry inside an FPGA processor is not hard etched.