The importance of a robust technology infrastructure is too hard to ignore in today’s cutthroat business industry. As business operations expand, leaders and executives must add new services, accommodate more employees, and manage increasing data. With a robust technology stack, businesses can eliminate slow and manual tasks, keep critical data safe, and scale their operations effectively.
However, simply having a solid tech stack is no longer enough nowadays as the life cycle of technology becomes shorter. New competitors disrupt industries annually by using powerful digital practices and processes. With customer expectations evolving constantly, businesses are under unrelenting pressure to support cutting-edge capabilities such as automated processing and data analytics to deliver advanced and seamless experiences.
Advanced and seamless customer experiences are crucial for businesses looking to shift back into growth mode following a year or more of decreased revenues due to the pandemic. Such an undertaking often requires businesses to seek out the help of computer scientists to improve their technology infrastructures. Through algorithmic simplification, computer scientists can enhance a technology’s infrastructure efficiency for machine learning, cloud computing, and other applications.
Computer scientists help build and maintain a concrete architecture
Like a building, your technology infrastructure needs a clear structure, including directions, planning, and execution, to prevent it from crashing down. However, the amount of planning and organization that goes into creating a sustainable technology infrastructure is tricky and requires deep technical and administrative know-how. If that is not challenging enough, solid technology infrastructure management is not a “set it and forget it” setup, as it needs ongoing maintenance and continued development for maximum performance.
Computer scientists with an online computer science master’s from leading academic institutions such as Baylor University are often skilled in collecting and analyzing data and monitoring and measuring the performance of your digital systems. They are also trained to identify areas where improvement can be made. This is especially essential for businesses adopting digital transformation since the shift is an ongoing journey that requires continuous attention and optimization.
Data extracted from this can also be invaluable as you move forward with your digital transformation initiatives. Depending on your computer scientists, maintaining a concrete technology infrastructure begins by establishing key performance indicators such as lead times, cross-departmental communication, and customer satisfaction scores. Setting these benchmarks helps you identify ways to improve existing technologies to deliver value-added services to your customers and target audience.
Computer scientists implement robust security protocols to improve data security
Data security is a prevalent issue in the American business industry. According to recent Pew Research Center data, roughly 52% of American employees have experienced some form of data theft. The advantage of bringing on board a computer scientist is they can implement security protocols and authentication measures to protect your data.
Computer scientists conduct a comprehensive data analysis of your existing technologies to identify threat and security levels. Considering that IBM estimates a data breach can cost more than $150,000, building the proper defenses is essential in avoiding reputational damage and ensuring your business runs smoothly. Once computer scientists are done evaluating the quality and security of your technology infrastructure, they subsequently find and fix security vulnerabilities.
Depending on your existing technologies, computer scientists can create a secure infrastructure using virtual private networks, firewalls, and intrusion detection systems to stop online criminals in their tracks. But their work improving your organization’s technology infrastructure does not end there. Should the unfortunate occur, and your business is attacked, computer scientists will partition and encrypt your data to ensure nothing gets out.
Computer scientists can scale your technology
Scalability is no longer a buzzword within business circles. By achieving scalability, businesses can grow and generate revenue without being held back by their structure or lack of technological resources. However, to achieve scalability, businesses must first create systems and processes to support their operations as they grow.
Without these systems and processes, your business might be overwhelmed by the increased demand that comes with growth. This is where computer scientists can help as they can scale your technology to solve existing issues and anticipate growth. To improve performance, computer scientists use technology to help business leaders think more methodically and solve problems more efficiently.
Although it can differ, computer scientists often begin the scalability process by auditing your existing technologies to ensure they align with your requirements. These audits can effectively create a baseline for what you consider as value-added technological advancement.
Such baselines allow you to make minor adjustments rather than time-consuming and sweeping changes. By building the foundations of future technological decisions, business leaders can better understand the technological improvements they need to make to deliver what their customers want and need.
How to become a computer scientist
Computer scientists have the power to make a difference. So, it is no surprise that enrollment is growing year-over-year. According to reports, the workforce’s number of computer science graduates has grown by 5.06% annually.
Although there are several routes to becoming a computer scientist, aspiring professionals often follow a variation of earning a bachelor’s degree, pursuing an advanced degree, finding a specialization, and landing their first job. While everyone’s goals and objectives differ, computer scientists must have proper education and practical experience to stand out in such a niche market.
Depending on your chosen academic institution, you will tackle several courses, such as the comparisons of artificial intelligence and human intelligence, software engineering, machine learning, and computer programming, while working towards your degree. In short, the study of computer science involves learning systems to help gather, represent, process, communicate, and access information. This is especially important considering computer science professionals deal primarily with software, tools, and systems such as their theory, design, development, and application.
Building the future by studying computer science today
The business industry constantly evolves as new technologies and innovations emerge to reduce manual workload and improve processes. As a computer scientist, you will be at the forefront of these changes, allowing you to build the future of business.