Cyber ​​Security Semiconductor team members hope that the topic "Designing AES-128 IP core on ASICs using 45nm technology" will contribute to the development of a green, sustainable and information-secure city. Photo: TV

Enhanced security

Sharing about the topic “Designing an AES-128 IP core on ASICs using 45nm technology”, student Nguyen Vu Thinh Anh, Team Leader of Cyber ​​Security Semiconductor, said that in the context of information security being the top concern to protect data, the team designed an AES IP core to optimize encryption processing performance on FPGA or ASICs hardware. This brings many benefits compared to software solutions running on traditional microprocessors. The topic aims to research and develop an efficient hardware core for the AES algorithm, meeting the requirements of performance, resources and flexibility when integrating into real systems.

The AES IP core will be integrated into data transmission application chips and communication chips to secure data transmission of data packets. In addition, the AES IP can be integrated into IoT devices that sense the environment, smart electricity meters, energy and traffic monitoring systems. These devices play an important role in data collection, transmission, processing, security and energy saving. In parallel, the AES IP core can be integrated into hardware systems at a reasonable cost and is more efficient when mass-produced thanks to its high reusability.

According to student Hoang Bao Long, a member of the Cyber ​​Security Semiconductor team, the disadvantage of the project is that the initial development cost is quite high. However, mastering and optimizing the AES IP core brings long-term benefits to protect data and build energy-saving electronic systems, contributing to the development of green, sustainable and information-secure cities.

Building smart healthcare solutions

With the topic "Design of an ADC to convert analog signals to digital signals used in ECG electrocardiogram signals, using 90nm CMOS technology", student Ho Nguyen Tam, Team Leader of BKDN.Pioneers, said that among many topics on smart urban development, the team is particularly interested in the medical field. The team was suggested and guided by Associate Professor Dr. Vo Tuan Minh, Deputy Head of the Department of Science, Technology and International Cooperation (University of Science and Technology) on the topic of electrocardiogram signals (ECG), a medical application with great potential to optimize the performance of mobile medical devices or remote health monitoring systems.

According to Tam, designing an integrated ADC converter in the ECG electrocardiogram system helps reduce size, low power consumption, suitable for mobile devices, medical IoT devices, thereby realizing a continuous and accurate health monitoring model. From this purpose, the team chose to design an Analog Front-End block for the ECG system including an amplifier and an analog-to-digital converter (SAR ADC), using 90nm CMOS technology, helping to access and use the Cadence Virtuoso tool to simulate the circuit.

This is a modern technology that ensures performance and low energy consumption for deployment in an academic environment. The team hopes that the project will contribute to building smart, sustainable medical solutions that are aligned with real needs.

According to the student group, using 90nm CMOS technology is a feasible option because of its low manufacturing cost but still meets the requirements of performance, resolution and energy consumption. However, competition is still a big challenge due to limitations in integration density, performance and energy consumption. In the coming time, the team will continue to perfect the Analog Front-End system for the ECG device and improve the noise filtering, amplification and signal conversion blocks with higher accuracy.

Currently, both teams are focusing on completing the topic, as well as researching how to connect the blocks into a complete system, aiming to complete the simulation and evaluate the actual performance before the upcoming national final round in Ho Chi Minh City.

TUONG VY

Source: https://baodanang.vn/channel/5433/202504/thiet-ke-vi-mach-phat-trien-thanh-pho-xanh-4003537/