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.
FPGA is a programmable logic chip, and its full name is programmable logic gate array. It is composed of many programmable logic gates and related circuits, which can realize specific functions according to the needs of users. Due to the flexibility and high performance of FPGA, it has a wide range of applications in many fields, such as telecommunications, video processing and computer networking, etc.
For example, ready-made toy models in shopping malls, cars, castles, etc., you can play with these after you buy them, and they are made for you by the manufacturer. Buy whatever you like, buy a car with four wheels, and find that four wheels are not fun, but actually want a tricycle, so there is no way, you can only buy it again. This is equivalent to an ASIC;
I bought a game console and plugged in another card for some games. Without game cards, it is scrap iron. This is equivalent to CPU or ARM.
FPGA is equivalent to Lego building blocks. What you buy is a lot of parts (IOB, SLICE, blockram, etc. in FPGA), and the parts such as wheels and roof are highly integrated (equivalent to DCM, DSP, etc. in FPGA); , can build a variety of styles of models.
Because of the difference in structure, FPGA and CPLD have their own characteristics. Because FPGA has a large proportion and quantity of internal structure flip-flops, it has more advantages in sequential logic design; and CPLD has the characteristics of rich resources of AND-OR gate array, and the program is not easy to lose when power off, so it is suitable for simple combinatorial logic. circuit. Generally speaking, due to the rich resources and powerful functions of FPGA, the application in product research and development is outstanding. The newly launched programmable logic device chips are mainly FPGAs. With the progress of semiconductor technology, their power consumption is getting smaller and smaller. Integration is getting higher and higher.
The service attitude is not bad, a satisfactory cooperation.
Personally, I think it is very good, and the proposal proposed is very suitable and will continue to cooperate.
Shipping was fast, very good.
After seeing this strength, we will always cooperate as the first choice.
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.