The Rise of Quantum Computing: A New Era of Computing Power

Since the early days of mainframes and punch cards, the computing world has indeed come a long way. Year after year, computers are becoming a lot more powerful, and as a result, it’s opened us up to a new realm of applications and advancements.

An excellent example of an industry that has rapidly developed due to boosted computing power is gaming. We moved from the now-nostalgic 8-bit computer games in the 80s to the present-day 3D cinematic games and even virtual reality titles.

Owing to these advancements, even casino games that were once strictly in-person affairs can now be enjoyed via computers on licensed platforms such as The same goes for day-to-day activities like shopping and even work, which are increasingly conducted online remotely through computers.

Now, the development of quantum computers is bringing new ground-breaking technology to the table, and it is expected to take things to the next level. If you have ever had questions about this technology and its potential, keep reading to get all your answers and much more.

What Is Quantum Computing?

We are here to discuss a new and emergent technological field that can shake up classic computing as we know it today. While standard computing is hinged on the basic principle of physics, quantum one is powered by the concepts of quantum mechanics –a field that works with particle interactions at the subatomic levels.

These quantum mechanics principles unlock new data processing potential that is exponentially more powerful than what today’s traditional computers can do. Instead of Bits, quantum computers use Qubits, which are usable in different states at once. Qubits, are in a superposition state, meaning that they exist in both the 0 and 1 states simultaneously, unlike classical bits, which use transistors and can only exist as 0 or 1.

Therefore, this modern computing form introduces the ability to manipulate different dimensions of data at a go and perform many intricate calculations at the same time. So, such computers have the capacity to enhance their processing power exponentially and tackle more complex problems that are otherwise impossible to solve in traditional computers. Moreover, a quantum computer’s capabilities increase with more linked qubits.

What Benefits Will Quantum Computing Bring to the World?

Some of the notable fields that will benefit the most when the technology described here hits maturity levels include:

  • Healthcare: Introduction of upgrades such as advanced evaluation of prevailing sickness, enhanced health diagnosis;
  • Pharmaceuticals: Molecular research and development will be revolutionized to hasten and reduce the costs involved in the downstream production of new drugs;
  • Climate: Predictions in meteorology will have unforeseen levels of accuracy even when forecasting weather patterns for longer periods;
  • Big Data: Increased volume and value of information that can be extracted from data, to take the potential for big data to new and unprecedented heights;
  • Artificial Intelligence: Algorithms that power qubit-based computers will have a more advanced self-learning ability for faster digestion of data and deeper learning;
  • Mobility: Optimization of complex traffic patterns to reduce congestion on some specific flows of traffic on road, sea, and air;
  • Logistics: By improving logistical and supply-chain processes, there will be more efficient manufacturing, production, and shipping of goods to different locations;
  • Finance: New doors are already opened for finance, from faster trading to more efficient deep analytics;
  • Chemicals: Operations for chemical companies could be augmented by enhancing the designs of catalysts to reduce energy usage in production and increase sustainability.

Of course, many other industries will benefit from this modern technology to significantly increase revenue, cut down on costs, and reduce the infrastructure needed to get things done.

Challenges the Technology Faces

Of course, like any other emerging technology, there are some negative implications for this form of data processing. They include:

  • Prohibitively expensive initial costs, for instance, one qubit may cost as much as $10,000 at the time of this publication;
  • Susceptibility of the systems to extreme temperatures as they need to operate in near absolute zero temperatures;
  • They could be used for malicious purposes, and thus, traditional security encryption systems may be overwhelmed by qubit-based computers;
  • There may be inaccuracy in results after a specific volume of instructions, as the systems lack error correction features.

Parting Shot

From the benefits discussed above, there’s nearly limitless potential for businesses with this brand-new technology. While some skeptical parties are mostly looking at the demerits, quantum computers will have a significant impact on organizations across the globe.

No doubt, this technology will certainly transform in ways that we haven’t even fathomed yet. However, as this leading-edge form of computing advances, researchers, developers, and even legislators or policymakers need to work hand in hand, so this tech revolution can take place ethically.