Describing a field in which you think computers will be of great value in the future.

Provide a brief introduction to the current capability of your computing  topic(s) (if there are related capabilities - keep it to a single paragraph). Use the remainder of your paper to describe a specific task (or tasks) in the selected field that you think the computer/technology should be able to do in the future that it cannot do now. 

 

THIS PROJECT IS BASED FROM TEXTBOOK "DISCOVERING COMPUTERS 2018"

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Step-by-step explanation

Field that computers will be of great value in the future
A computer can only analyze one possible response at a time. DNA-based computers could be utilized to do the following;
• Parallel processing applications
• DNA fingerprinting and
• decoding of strategic information such as financial, military, and communications data in the future.
Capability of computing topics
I am well conversant in the following areas;
• Enterprise software
• Accounting software
• Office suites
• Graphics software and
• Media players.
Many application programs are primarily concerned with documents. Apps can be included with the computer and its operating system software, or they can be purchased separately.
My major interest is in cloud computing as briefly described below
Cloud computing
• Cloud computing is the process of storing and accessing data and programs via the internet rather than your computer's hard disk. (As defined by the PCMag Encyclopedia, it is "hardware and software services from an internet provider.") In the end, the "cloud" is really a metaphor for the internet.
Importance of cloud computing
Cloud computing has the ability to save districts and schools money on licensing, hardware, electricity, and support. Furthermore, schools will be able to access online editions of textbooks, saving money and ensuring pupils are learning from the most recent publications.
Google Drive: 
This is a pure cloud computing service, with all storage found online, and it is compatible with the cloud productivity tools Google Docs, Sheets, and Slides. Google Drive is also available on devices other than desktop computers; it may be accessed via tablets such as the iPad or cellphones, which have separate apps for Docs and Sheets. In reality, most Google services, such as Gmail, Google Calendar, and Google Maps, might be called cloud computing.
iCloud by Apple:

Apple's cloud service is largely used for online storage, backup, and synchronization of your mail, contacts, calendar, and other information, as well as file synchronization across Macs and iOS devices. All of the information you require is available on your iOS, iPadOS, macOS, or Windows devices (Windows users have to install the iCloud control panel).
Dropbox:
For years, this business has provided a straightforward, dependable file-sync and storage service. It now includes a plethora of cooperation features (which will cost you and your business, as the free version has grown a bit skimpy).
Slack:
Yes, if you have a community of people with distinct devices who require immediate messaging/communication, it is considered cloud computing. Slack is the poster child for this, while Microsoft Teams, Workplace by Facebook, and others provide similar functionality. Read about them in 17 Slack Alternatives.
Description of  specific tasks where computers will be of great value in the future
Some of the most intriguing breakthroughs are related to the internet of things. Similarly to how we prefer to conceive of computers as rectangular boxes, we tend to think of the internet as some type of ether that floats around us. 
However, researchers have recently made great breakthroughs in providing a means for all objects to connect; for example, your phone may communicate with your refrigerator, which may communicate with the light bulb. In reality, in the not-too-distant future, the light bulb will transform into a computer, projecting information rather than light.
Similarly, biological computing considers how the body can compute, and how we can consider genetic material to be computing. Consider biological computing to be a method of computing RNA or DNA, and biotechnology to be a type of computer. Adam Feinberg, one of my colleagues here at Carnegie Mellon, has begun 3D-printing heart tissue. He's been constructing body parts on a computer using very fine-grained human-body models, and then employing engineering approaches to make living beings. That is a significant shift in what we consider digital infrastructure, and it is supporting a significant transformation in the way we work, live, and define ourselves as humans.
Quantum computing allows us to picture a future in which tremendous scientific advancements will be accomplished by computers that are no longer limited to ordinary binary 0s and 1s.