The Internet of Things has altered practically every aspect of daily living. We now live in the twenty-first century, where IoT devices have brought exceptional innovation to information transfer and networking in everyday life. With technology evolving rapidly, the importance of IoT in our lives is also increasing. Examples include connected appliances, autonomous farming systems, smart home security systems, wearable health monitors, and smart factory equipment.
Keep reading further to find out the importance of IoT data storage in today’s tech-driven world and why you should opt for on-chip memory.
What is IoT and its Application?
The goal of these devices is to collect data and drive actions to boost productivity and ultimately reduce or eliminate the need for human intervention in data acquisition, interpretation, and application. When first starting out with IoT, one of the most common questions is, ‘How do I store all this data?’ IoT generates a ton of information, some of which can be evaluated in real-time, but there are many scenarios where you want to run analytics later or have access to previous raw data to run new analytics, which is why they require strong and large storage memory.
Here are some ways IoT has been making our life more convenient:
The widespread use of IoT in the utility sector provides an opportunity to more effectively monitor and manage energy, reduce energy waste, and, ultimately, improve safety and operational efficiency while also allowing for the efficient use of natural resources. Data management solutions in the context of IoT must summarize data online while also offering storage, recording, and auditing capabilities for offline analysis.
The use of IoT-enabled technology has allowed for more efficient and less expensive mass transit that uses sensor networks, digital cameras, and communication systems to increase system capacity and improve passenger safety and comfort while lowering costs and risks.
The deployment of storage structures that adapt to the varied data kinds and frequency of data gathering is at the heart of centralized storage, which is crucial for IoT transportation features.
Away from home and worried if you left your microwave on? The Internet of Things smart home allows you to control domestic appliances through electronically controlled, internet-connected systems masterminded by a central hub and remote-controlled via a mobile app.
Personal data obtained by IoT or a smart home might include camera footage, energy meter data, heart rate, information about when you sleep, etc. As the IoT industry expands and more customers are prepared to convert to networked homes, the market need for storing data features is on the rise, providing manufacturers with the right tools to design more secure systems.
IoT technology improves video surveillance capabilities. Smart cameras and connected applications can process visual data without the need for human intervention, paving the way for the adoption of numerous automated processes. Again, data storage and management are a vital part of safety surveillance as well, and the ability to fast read and write is what is required for recording and extracting videos.
Among other technologies, the Internet of Things provides businesses with tools for planning, monitoring, and enhancing the security of all operations. They are excellent for improving security and theft detection, employee safety, delivery, and product tracking from beginning to end. With an ever-increasing number of connected devices, it is only natural to expect the amount of data they create to increase as well. By 2025, the volume of shared data is predicted to reach 73.1 zettabytes, and logistics play an important part in it.
What Are the Requirements of IoT Data Storage?
Given the massive growth that the IoT industry is experiencing, the amount of data produced is immense. Capturing data is an integral part of the process, but so is ensuring that it can be stored, accessed, and transformed into useful insights.
It is necessary for organizations to consider following the data needs of IoT utilizing technologies to give the customers a smooth and worry-free experience.
Wide Working Temperature
IoT wide-working temperature monitoring solution is highly advantageous in businesses where temperature is critical in determining product quality, such as cold storage or harsh industrial environments. Furthermore, this allows logistic management to check the temperature of the item being delivered in real-time, enabling businesses to focus on having a larger data storage capacity.
To function efficiently, IoT requires specific storage solutions designed with the properties of endurance at the forefront. These offerings include highly reliable and industrial-grade on-chip memory storage. As input from customers is received via IoT devices, it helps to enhance services and boost customer happiness. Thus, there should be no compromise on stability.
In-Time Data Reading and Writing
Most IoT devices require data storage with the capacity to intake real-time data. Smart homes are an excellent example of this. Data storage should be powerful enough to support real-time data transfers and analysis.
Large Storage Capacity
Given the frequent need to store data, IoT requires a small storage device but with a large capacity. Most of the time, manufacturers opt for on-chip memory, integrating them in devices to hold the capacity to bear heavy amounts of data.
To fully capitalize on the evolving IoT landscape and transform data into powerful and valuable insights, a data storage device must be developed, and purpose-built architectures for specific use cases must be considered and adequately deployed. Simply put, one size doesn’t fit all.
For example, some IoT devices, such as hand-held scanners used while scanning packages, are smaller in size to increase portability. This is why the manufacturers opt for on-chip memory, as it is smaller in size but easy to operate and maintain.
Another main requirement of IoT data storage is how it safely secures your data and protects it from being mishandled. For a long time, Cloud technology has been considered the safest storage option; however, on-chip memories are now being integrated more as they eliminate the risk of being hacked easily.
VEIGLO eMMC On-Chip Memory Meets All The Requirements
VIEGLO eMMC on-chip memory brings many advantages to the table for system architects, such as high performance, a future-proof design, multi-source availability, high protection, and large storage capacity. Moreover, this robust on-chip memory data storage device is perfect for miniaturized applications and boasts the following exceptional features:
- Industrial grade JEDEC/eMMC interface.
- SMART support
- Speed of up to 400MB/s
- 200MHz clock frequency
- Support for Trim and Native Command Queuing Command
- Dynamic Power Management
- HS400 high-speed interface timing mode
In short, the resilience and endurance of this eMMC hard drive provide you with a large storage capacity designed to fit any device, protecting your data and making life easier for you.
Are you looking for the perfect IoT data storage for your device?
VIEGLO’s eMMC on-chip memory has got you covered. Committed to providing high-quality storage technologies, VIEGLO offers its customers state-of-the-art, safe, reliable, intelligent, stable, and scalable solid-state storage products that will drastically improve their way of business.