Products & Services

Standard timekeeping process, using all types of timekeeping equipment including cameras to recognize faces and other biometrics, smart formulas, easy-to-change processes, fast and compact, and a new scale is solved neatly, save.

Integrating from simple to complex equipment, from hand-made to high-tech equipment to ensure security - safety at all times for factories, houses, farms, schools, hospitals, etc. ..there is remote monitoring and control software on your computer or phone

FPGA (Field-Programmable Gate Array) is a type of reconfigurable digital integrated circuit that allows users to customize the hardware logic structure after manufacturing. Unlike ASICs, which have fixed designs, FPGAs offer high flexibility, making them ideal for prototyping, experimentation, or applications that require frequent hardware updates. Key advantages of FPGA: • Can be reprogrammed multiple times after production • Well-suited for prototyping and R&D • Accelerates time-to-market • Lower initial investment cost compared to ASICs

ASIC (Application-Specific Integrated Circuit) is a type of integrated circuit customized for a particular use or application—unlike general-purpose chips like CPUs or reprogrammable devices like FPGAs. Key advantages of ASIC: • Optimized performance for the specific task • Lower power consumption • Reduced unit cost for mass production • Enhanced security and reliability

IP Core Development is the process of creating reusable hardware design blocks—known as IP cores—for use in integrated circuit design (ASIC or FPGA). IP stands for Intellectual Property, referring to pre-designed functional modules that perform specific tasks such as processors, communication interfaces (e.g., SPI, USB, DDR), or encoding/decoding logic.

AuraChips offers a comprehensive suite of FPGA-based System-on-Chip (SoC) design services to meet the diverse demands of industries such as consumer electronics, automotive, industrial automation, medical devices, and communications.

AuraChips is committed to training the future workforce for the semiconductor industry through specialized programs that equip participants with essential skills and knowledge in VLSI and FPGA design, aiming to develop a high-quality engineering talent pool for the semiconductor sector.

The goal is to provide students with a strong theoretical foundation to support more advanced hands-on technical skills.

AuraChips organizes workshops, classes, and specialized programs to train these "trainers" to be proficient in EDA tools, ASIC/FPGA design processes, student guidance skills, and effective training organization capabilities.

AuraChips provides instructions on how to use specialized tools to help trainers have practical practice tools, thereby improving training quality and transferring technology more effectively, including: • Electronic Design Automation (EDA/CAD tools): such as Cadence, Synopsys, Mentor Graphics... • Component Libraries: including IP blocks, standard cell libraries, and transistor models • Device Models: describing the electrical and logical behavior of semiconductor elements

These are training events, workshops, hands-on seminars, bootcamps, or academic forums organized by AuraChips that aim to create lasting impact and disseminate knowledge throughout the engineering and academic community. The objectives include: • Equipping both instructors and learners with critical thinking, analytical skills, and a mindset for lifelong learning • Fostering independent thinking and the ability to explore and solve problems autonomously • Creating a collaborative environment for knowledge exchange among experts, educators, engineers, and students • Building a connected ecosystem of training, research, and practical applications in the semiconductor industry