TechSpective’s Quantum Computing section tracks the slow, technically demanding march toward practical quantum advantage — covering the foundational concepts, leading research efforts, and enterprise implications of a technology that remains years from mainstream deployment but is already reshaping how organizations think about cryptography, AI, and computational limits.
IBM is the dominant presence in the coverage, which reflects the company’s sustained lead in applied quantum research. Articles trace IBM’s progress from early qubit volume records through error-correcting code breakthroughs to current timelines for achieving quantum advantage. The Korea Quantum Computing and IBM collaboration illustrates how quantum and AI are beginning to converge in production-adjacent contexts.
Coverage also includes accessible explanations of what separates quantum computing from classical systems — qubits, superposition, entanglement — aimed at enterprise technology decision-makers who need to understand the technology without a physics background. A piece on Switzerland’s quantum and AI leadership connects national research culture to competitive positioning in the global quantum race.
Contributors include industry analyst Rob Enderle, who has followed IBM’s quantum roadmap closely, alongside other enterprise technology writers. The section is well-suited for CISOs beginning to evaluate post-quantum cryptography requirements, enterprise architects thinking about long-term infrastructure planning, and technology leaders tracking the timeline to quantum-relevant computational capability.
Coverage is measured and grounded — focused on what quantum computing can actually do now, what milestones matter, and what enterprises should be watching.
For decades, classical computers have powered everything from simple calculators to complex global networks. They operate on a straightforward principle: processing information as bits, which can be either 0 or 1. This binary system has proven incredibly effective, fueling advances […]
What Makes Quantum Computing So Different from Classical Systems? Read More »
When the world’s lens was on the Olympic Games, Swiss precision was once again on full display. From the quiet pinpoint accuracy of Swiss curling teams firing a rock across 150 feet of ice to the powerful control of its
How Swiss Precision and Discipline Translates into Quantum and AI Leadership Read More »
IBM has been at the forefront of quantum computing research and development for several decades. As one of the leaders in applied quantum computing, IBM has indicated that it expects to achieve a quantum advantage within the next two years.
Arthur C. Clarke once said “Any sufficiently advanced technology is indistinguishable from magic.” We may see that play out when the collaborative effort between Korea Quantum Computing and IBM matures into a product offering. This week, let’s explore how Quantum
Korea Quantum Computing and IBM Collaborate to Create AI Magic Read More »
Quantum computing is one of a number of game-changing technologies that IBM is driving towards along with generative AI, and like generative AI, quantum computing is years from being ready. However, one of the elements that will delay the use
IBM Advances Viable Quantum Computing One Big Step with Error Correcting Codes Read More »
This week IBM announced they were able to get one of their most potent quantum computers, a 27 -qubit client deployed system to achieve a quantum volume of 64. This advancement shortens the potential timeline till “quantum advantage,” the time
IBM Breaks Quantum Computing Record Read More »
