Research and development efforts are constantly taking standards forward, and these new standards in turn help drive product development. Data exchange between devices, whether that’s sending photos from a consumer’s camera to their laptop hard drive via a card reader, or sharing data between an array of smart sensors and edge computing facilities in a citywide project, relies on interoperable standards. Setting the standardsĪll of these developments take place in a market where reliability and interoperability are crucial. Lightning-fast data exchanges, whether for edge or remote cloud processing, can’t be held up by flash memory bottlenecks. Add in the growth and development of edge computing, where data is processed close to its source rather than being sent to a central server – saving both time and technology resources – and the ingredients for exponential IoT growth are in place. Typically, a complete film is downloadable in seconds over 5G rather than minutes over 4G. The advent of 5G is central to the development of the IoT, allowing data to be shared faster than ever before. Flash memory plays a key role in data storage and exchange for IoT based systems like these. Your home thermometer talks to your heating system to regulate household temperature, while on a far larger scale, soil monitors across a farm can instruct automated water and nutrient systems on precisely how much resource to deploy, and when. This has to be stored somewhere, and much of it needs to be analyzed so that it can inform actions. Nowhere is that more apparent than in the development of the Internet of Things (IoT), a category of device which is only now at its very earliest stages of development.Īnalyst firm IDC forecasted that connected IoT devices will generate 79.4ZB of data in 2025. They open up the possibility of entirely new categories of devices too. Input/output speed and data storage capacity don’t just help existing types of devices grow their capabilities. If flash memory development stopped tomorrow, the Raspberry Pi’s onward march would also stop. Increasingly capable flash memory cards work alongside developments in device processing speed, additions to the range of on-board connectors and growth of the types and functions of peripherals to add capabilities – and possibilities – to the Pi over time. Initially using SD cards, the Pi moved to microSD relatively early in its life, but it is the principle, rather than the card format, which is key to the Pi’s success. The Pi relies on bootable flash memory to start up, to run its operating system and programming languages, to store data, and to run programs. Launched in 2012 the Pi has sold more than 30 million units and has encouraged countless people to get a greater understanding of computing by completing all manner of projects. They rely on fast flash memory as much as faster graphics and data processing chipsets to serve their users.Īnother excellent example of how flash storage benefits device development is the Raspberry Pi computer. Meanwhile developers of gaming technology are challenged with meeting ever-rising demand for high resolution graphics delivered in real-time. Drones serve a myriad of uses from construction to disaster relief, all while saving high resolution footage to cards for later use. We are already seeing consumer cameras capable of capturing at 8K video.Ĭameras are far from the only products that developments in flash memory have affected. Put another way, 4K video can only exist because flash memory cards can accommodate the data transfer speed it requires. A camera simply couldn’t shoot 4K video if it were unable to save that video to a card at the required speed. Better flash memory means better device performanceĭigital cameras are one of the most visible types of device where developments in flash memory enable more advanced features. The continuing evolution of SD and microSD memory cards illustrates this point well. Flash memory cards are a vital component of any device they are a part of, and advances in flash memory capability contribute significantly to the development of device features.
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