Artificial Intelligence (AI) and Quantum Computing, two of the most innovative and influential technologies of the 21st century, are recognized individually for their potential to revolutionize the world. Both stand as wavefront technologies pushing the boundaries of what is possible, captivating the interest of experts from every corner of industry and academia. This blog post will delve into the exciting intersection of these two colossal technological domains and assess the potential implications on our future.

AI is an expansive area of computer science that simulates human intelligence processes in machines. It involves learning, reasoning, problem-solving, perception, and language understanding. Machine Learning, a subset of AI, makes the application of AI possible where a machine can learn on its own without being explicitly programmed.

On the other hand, Quantum Computing utilizes aspects and principles of quantum mechanics, a branch of science that explains phenomena on the microscopic scale. Quantum Computing, still largely in its developmental stage, builds on quantum bits or qubits, unlike classical computers that use bits. This translates into unparalleled processing power.

The convergence of AI and Quantum Computing promises advancements that are beyond our comprehension. But how exactly does Quantum Computing amplify AI?

1. **Enhanced Machine Learning:** Quantum Computing could drastically cut down the time taken to process complex calculations, which often form the basis for machine learning applications. Quantum machine learning could revolutionize fields from cryptography to materials science by performing complex computations and data sorting at staggering rates.

2. **Better Optimization:** Many real-world problems, in genetics, logistics, or business strategy, for example, revolve around optimization. Quantum Computing promises to improve our capacity for finding the best solutions by handling multiple variables simultaneously.

3. **Expediting Complex Problems:** Deep learning, a branch of machine learning, consists of algorithms inspired by the structure of the human brain called artificial neural networks. Quantum computing’s massive processing ability could train these networks more speedily and efficiently.

The potential benefits offered by the convergence of AI and Quantum Computing are substantial, but several hurdles stand in the way of full realization. Quantum computing is beset by technical challenges, such as maintaining ‘Quantum Supremacy’ or ‘Quantum Advantage,’ terms referring to a quantum computer’s ability to perform a task no classical computer can achieve in any reasonable amount of time.

Moreover, the area of quantum machine learning is still an emerging field, and the theoretical basis is being actively researched and developed. In addition, the practical implication of quantum systems is still faced with significant obstacles, including issues with scale, error correction, and maintaining quantum states.

Regardless of these challenges, it is impossible to overlook the substantial possibilities hidden in the union of these scientific siblings. Just as airplanes remodeled transportation, and the internet transformed information exchange, the intersection of AI and Quantum Computing has the potential to redefine the edges of technological capability. Harnessing the power of this convergence could bring about a new era of discovery, churning out solutions to problems we just trade as unsolvable today.

In conclusion, the fusion of AI and Quantum Computing promises a meteoric boost in our capability to process and interpret massive amounts of data, solving complex problems with greater ease and efficiency. This symbiosis of super-technologies could lay the roadmap to discoveries previously considered beyond the scope of human ability. Yet, the road to this high tech synthesis is a challenge-laden one, and the journey promises to be as enthralling as the destination. This pioneering intersection might be just the catalyst needed to catapult us into the future that till now, has only been within the realms of science fiction.