The agriculture field is entering a new era. The technological shift to AI-driven, big DATA influenced operations was not lost on the farmers of the world. Crop maturity, crop health and production waste are fields now ripe for the taking for the AI tech wave. Like any other aspects of the AI tech, big DATA requires big space, in terms of memory tech. Sometimes, conditions will require the tech to be highly durable. In particular, the agriculture and horticulture worlds.
Tech changes often the catalyst for social change. Apart from all the ways we have conducted ourselves before. From the first agricultural revolution some ten thousand years BCE, as humans began to settle and to forsake their hunter-gatherer lifestyle, the field of agriculture has seen many twists and turns. As the last revolution in the field came along the industrial revolution in the 19th century. Now, it seems, a third agricultural revolution may be upon us. A non-human revolution.
As some call it “disruption”, the new agriculture revolution is producing a expanding ventures of implementing Big DATA, Artificial Intelligence (AI) and Machine Learning (ML) tech in farming sectors. Especially towards autonomous farming vehicles and movable units. Such systems integrate sensors data, geolocation, computer vision and analysis and AI operability. Thus, producing an ever-expanding amount of data.
As a result, the demand for reliable storage solutions, especially solid-state drives (SSDs), is growing rapidly. Counting all these in mind, E.D.E. Electronics is proud to present the most suited SSD components for the Smart agriculture field. By some estimates, this development is projected to exceed the 1.8 Billion USD mark by 2032.
Designed and manufactured by memory tech revolutionary Swissbit, a wide array of their PCIe solutions, such as the M.2 PCIe solutions family, is highly suited for integration in harsh operating, connectivity-challenged environments. Additionally, these PCIe solutions series, such as the N-3000 or the X-78 address the core issues of smart agriculture demands. Such as reliability and durability, fast write speeds to prevent data loss and ensure continuous operation, ability to withstand a spectrum of highly demanding environments and a very capable interface.
Alternatively, in the solutions we purpose, there is another underpinned concern for safety and protection. Namely, as the world is getting more connected-the threat of unauthorized access or tampering is increasingly on the rise. Likewise, these components are especially designed with AES-256 Encryption and TCG Opal 2.0 standards. In order to counter these very real new world threats.
Furthermore, advanced edge computing platforms and robust data storage are becoming increasingly essential for seamless operations due to needs for on-site real-time data processing and analysis. Thus, the quality of the memory component within is key for flawless flow of operations.