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Competition 2024
Competition: Hardware Implementation
Accelerated Tiny-Transformer IP

FPGA-Powered Acceleration for NLP Tasks

Project Overview:

Competition 2024
Competition: Hardware Implementation

Sensing for Precision Agriculture

Our innovative SoC design for precision agriculture revolutionizes field management by deploying a robust mesh network of sensor-based devices, capable of detailed monitoring and swift response to variations in soil health, erosion, drought, and pest activities. This system not only ensures reliability through its mesh architecture—eliminating single points of failure—but also incorporates diverse sensors for comprehensive data acquisition. It's engineered for energy efficiency to sustain operation throughout an entire crop season, significantly optimizing resource use and reducing waste.

Competition 2024
Competition: Hardware Implementation

Monitoring and enhancing plant growth in space ecosystems

This project focuses on developing a plant growth monitoring system for space exploration missions using the ARM Cortex-M0 microcontroller core. The projects aim to develop a SOC based on ARM M0 core for interactive plant monitoring by interfacing AHB lite, GPIO, timers, and communication protocols such as UART, I2C, SPI, and co-processors.  This project also proposes two co-processors for interactive plant monitoring and control. One AI co-processor for classification and prediction of plant and environmental data.

Competition 2024
Competition: Hardware Implementation
Smart Machine Box for Industrial IoT with High Performance ASIC Prototyping System

Nowadays, rotating machine is the power source for most production equipment and is widely used in manufacturing factories. Common rotating machinery mainly includes bearings, gears, shafts, and the others. However, rotating machines suffer from frequent collisions and vibrations which lead to wearing and aging, which increases the chance of failure in the overall system operation. This make the cost of factories increase and the quality of production deteriorate. Therefore, the industries gradually value the usage of accurate and efficiency predictive maintenance system.

Competition 2024
Competition: Collaboration/Education

IMPLEMENTATION OF FIXED TIME BASED TRAFFIC LIGTH SYSTEM USING FPGA WITH VERILOG HDL.

This Project is to develop traffic light system that can reduce traffic congestion with the aid of counters for each lane and acts wisely with the intersection in real time based with a fixed time constrain, include both hardware and software requirements using SOC FPGA technology with fundamental specification for the Register Transfer Level (RTL).

Competition 2024
Competition: Hardware Implementation

ARM Cortex M0 Based SoC for Biomedical Applications

Conventional healthcare is expensive and reliant on the physical presence of the patients. Continuous health monitoring tracks vital health parameters like heart rate, blood pressure, etc. While these work well in measuring the parameters, modern-day devices rely on the cloud to compute and interpret data. This results in an increase in data transfer between the device and the cloud, and if this connection breaks, there can be no interpretation of data. Hence, there is a need to shift the computation to the hardware, referred to as "Edge Computing".

Competition 2024
Competition: Collaboration/Education

Low-Cost and Low-Power Data Acquisition System(DAQs) for Real-time Data Collection

The development of a Low-Cost and Low-Power Data Acquisition System(DAQs). The DAQs will be made up of end-terminal and a gateway. The end-terminal will be micro-controller-driven device built on a SoC FPGA technology with built-in capability for machine learning. The end-terminal will be able to transmit and receive data using the Low Power Wide Area Networking (LPWAN) communication protocol that functions on LoRA.LoRa is a wireless radio frequency technology that operates in a license-free radio frequency spectrum.

Competition 2024
Competition: Hardware Implementation
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Interference Detection and Mitigation Accelerator for Automotive Radar SoCs

Advancements in electronics, wireless communications, and sensing technologies have made possible a multitude of smart sensing features in automotives. Integrating high-frequency sensors, digital signal processors and hardware accelerator engines on a single system on a chip (SoC) enhances sensing computation potential of radar sensors utilized in automotives.

Competition 2024
Competition: Hardware Implementation

Arrhythmia Analysis Accelerator : A-Cube

We propose the A-Cube design methodology to create medical decision support on the edge. The design and implementation of an atrial fibrillation detector hardware core was selected as a proof-of-concept study. To facilitate the required atrial fibrillation functionality, we adopted an established AI model, based on Long Short-Term Memory (LSTM) technology for hardware implementation. The adaptation was done by varying design parameters such as data window and the number of LSTM units.

Competition 2024
Competition: Hardware Implementation

Battery Management System-on-chip (BMSoC) for large scale battery energy storage

Battery storage systems are an important source for powering emerging clean energy applications. The Battery Management System (BMS) is a critical component of modern battery storage, essential for efficient system monitoring, reducing run-time failures, prolonging charge-discharge lifecycle, and preventing battery stress or catastrophic situations. The BMS performs functionalities such as data acquisition and monitoring, battery state estimation, cell equalization, and charge protection, making it computationally intensive to manage large scale battery storage.