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Technology for a Sustainable Future: Let's Build it Together!

Welcome to our non-profit blog, where we share publications in the form of newsletters! In this space, we focus on digital circuit design at the Register-Transfer Level (RTL) based on SystemVerilog.

Our mission is to provide comprehensive information on the latest advancements, offering a complete understanding of digital circuit design methodologies. From innovative RTL development techniques to practical applications of SystemVerilog/VHDL, we explore the intricacies that drive technological progress and sustainability. Join us on this journey towards a more advanced and sustainable world!

Our areas of expertise include:

SystemVerilog for RTL Design and Simulation

Customer Requirements Gathering and Analysis.
RTL Design Architecture: Define the RTL design architecture, identifying modules, design hierarchy, and connections between them.
SystemVerilog Coding: Write SystemVerilog code to implement the RTL design, using modules, registers, and combinational and sequential logic as per specifications.
Functional Verification: Conduct functional verification tests to ensure the RTL design complies with specifications and produces expected results.
RTL Simulation: Perform RTL simulations to verify the design's behavior under various input conditions. This may include simulations of normal and edge cases.
Debugging: Identify and correct any errors or unexpected behavior that arises during simulations, using debugging and visualization tools.
Coverage Testing: Perform coverage analysis to assess the percentage of the RTL design exercised during simulations. Ensure adequate coverage.
Logical Synthesis (Optional): If necessary, perform logical synthesis to convert the RTL design into a netlist that can be implemented on a specific device.
Post-Synthesis Simulation (Optional): Conduct post-synthesis simulations to verify the design's behavior after logical synthesis and before physical implementation.
Documentation: Create detailed documentation of the RTL design, including module descriptions, design structure, and any significant design considerations.
Delivery to Customer: Deliver design files, simulation reports, and any associated documentation to the customer.
Post-Delivery Support: Provide post-delivery support to address any issues that may arise after the RTL design is delivered.

Got questions or thoughts to share? Feel free to connect with us at asnzsystems@gmail.com. Additionally, our ASNZ SYSTEMS YouTube channel is dedicated to sharing knowledge through our newsletters, offering dynamic visual content that enhances your understanding of these topics.

Embark on this enlightening journey with us, where knowledge meets innovation, and together, we pave the way for a greener, more sustainable future. Join the conversation, expand your horizons, and subscribe to our channel at https://www.youtube.com/@asnzsystems. Let's build a better tomorrow – hand in hand!

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▷ The Social Cognitive Theory #SCT applied to reduce sedentarism in citizens

➡️ #SCT #SocialCognitiveTheory #Sedentarism Sedentarism is a growing concern in today's society due to its negative effects on health and well-being. However, the Social Cognitive Theory offers a solution to reduce it through a series of strategies based on human behavior. ➡️ According to this theory, human behavior is influenced by social perception, that is, how we perceive others and how they perceive us. In the case of sedentarism, one way to reduce it is through the creation of a social culture that values and promotes physical activity. ➡️ One way to achieve this is through education and awareness about sedentarism, physical activity, nutrition, quality of life, among other health-related aspects. Creating awareness campaigns about the importance of maintaining an active lifestyle can help influence social perception and motivate people to change their sedentary behavior. ➡️ Another strategy is the creation of programs and physical activities that are accessible and attracti...

▷ Display of last 24 hours of Temperature, Humidity and Temp. CPU

For this post, two sensors have been deployed for real-time data collection, currently operational in the city of Guayaquil: one for humidity and another for temperature. Both sensors utilize LoRA technology to transmit collected information to a Gateway. This Gateway serves as a central connection point, receiving data from the sensors and forwarding it to the Google Cloud platform via LTE cellular connectivity. Leaflet viewer with OpenStreetMap Leaflet viewer with OpenStreetMap Once the data is stored on the Google Cloud platform, a customized web interface has been developed. This interface facilitates the visualization and analysis of the sensor-collected data, offering users a clear and easily accessible representation. In today's interconnected world, the ability to gather and visualize real-time data is essential for understanding and making informed decisions. On this occasion, we will explore how to visualize the data from the last 24 h...

▷ Data visualization: of Temperature, Humidity, and CPU Temp.

For this post, two sensors have been deployed for real-time data collection, currently operational in the city of Guayaquil: one for humidity and another for temperature. Both sensors utilize LoRA technology to transmit collected information to a Gateway. This Gateway serves as a central connection point, receiving data from the sensors and forwarding it to the Google Cloud platform via LTE cellular connectivity. Leaflet viewer with OpenStreetMap Leaflet viewer with OpenStreetMap Once the data is stored on the Google Cloud platform, a customized web interface has been developed. This interface facilitates the visualization and analysis of the sensor-collected data, offering users a clear and easily accessible representation. In this post, we'll explore how to visualize real-time data from Google Cloud using JavaScript and the powerful charting library, Chart.js. The goal is to create an interactive environment that visually...

▷ SD3031 Precision #RTC Module for #Arduino

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▷ What is the MQTT protocol?

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▷ The Importance of Soft Processors in #FPGAs for Customized Digital Circuits

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▷ Advancements in Device-Free Indoor Localization Using Machine Learning and 28 GHz Band Technology

✅ Keywords : ➡️ #MillimeterWave #MMwave #28GHz #IndoorLocation #WirelessInSite #Remcom #Matlab #ML #MachineLearning #AI #ArtificialIntelligence #RegressionLearner #Classification ✅ Introduction: In this edition of our newsletter, we delve into groundbreaking research exploring the realms of device-free indoor localization techniques. Utilizing the power fluctuations in a communication link due to the presence of a human body, our researchers have employed advanced machine learning methods in the 28 GHz band. This innovative approach aims to redefine indoor positioning, offering unprecedented accuracy and efficiency. ✅ Content: In our quest to enhance indoor localization technology, our research team conducted comprehensive studies. Through meticulous simulations and experiments, we evaluated the potential of machine learning algorithms in the 28 GHz band, focusing on the effects of human presence within an enclosed space. 1. Database Construction and Simulati...

▷ The Importance of Energy Consumption Prediction in Data Centers

➡️ #EnergyConsumption #EnergyPrediction #DataCenter In the digital age, data centers are a key piece of the technological infrastructure that drives the global economy. From managing large databases to cloud services, these centers consume large amounts of energy, making it crucial to have a good energy consumption prediction. Here we will explain why it is important to have a good energy consumption prediction in data centers. ➡️ Reducing Costs Energy consumption in data centers can be a significant cost for companies. Therefore, it is important to have a good energy consumption prediction to be able to plan and control costs efficiently. A good energy consumption prediction will allow companies to allocate budgets and plan appropriately, which will help reduce long-term costs. ➡️ Reducing Environmental Impact In addition to costs, data centers also have a significant impact on the environment. Generating energy for data centers often involves burning fossil fuels, contribut...

▷ #SoCs in Digital System Designs

➡️ #SoC # System-on-Chip #Processor #FPGA In the world of digital electronics, the use of #SoCs or System-on-Chip is becoming increasingly common in digital system designs. These integrated circuits contain everything needed to implement a complete system on a single chip, greatly simplifying the design process and reducing the size, cost, and power consumption of the final system. A typical SoC includes multiple functional blocks such as a processor, memory, peripheral controllers, communication interfaces, and other specialized circuits. Depending on the system's needs, the designer can choose from a wide range of SoCs available in the market, which vary in size, processing capability, and features. The advantages of using SoCs in digital system designs include: ➡️ Integration of multiple functions in a single chip: SoCs allow integration of everything needed to implement a complete system on a single chip, reducing the size and cost of the final system. ➡️ Simplified desi...

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