GradientDay 30 of #Quantum30 ChallengeToday is the last day of Challenge though I learned a lot from past 29 days it was a great journey and I could dive into further advanced…Sep 30, 2023Sep 30, 2023
GradientWhat are Quantum Computers Good for ?In the ever-evolving landscape of technology, quantum computing stands out as a revolutionary paradigm shift. Unlike classical computers…Sep 29, 2023Sep 29, 2023
GradientReflectionDay 22: Mastercard Ventures into Quantum Technology Mastercard’s foray into the quantum arena took center stage, unveiling a multifaceted…Sep 28, 2023Sep 28, 2023
GradientGoogle’s Quantum AIOne of the central questions addressed in the symposium was the progress toward building a commercially valuable quantum computer. The…Sep 27, 2023Sep 27, 2023
GradientQML and more …Qubits: In classical computing, bits can be either 0 or 1. In contrast, qubits can exist in a superposition of both 0 and 1 simultaneously…Sep 26, 2023Sep 26, 2023
GradientQuantum BiologyThe world of biology, with its complex molecular interactions and intricate processes, has long been a subject of fascination for…Sep 25, 2023Sep 25, 2023
GradientQuantum Simulation and Its Promising HorizonsAmong the numerous exciting applications of quantum computers, quantum simulation stands out as a beacon of promise. In this article, we…Sep 25, 2023Sep 25, 2023
GradientEarth Observation Satellite Missions with Quantum ComputingIn the rapidly evolving world of technology, the integration of quantum computing is creating ripples of innovation across various…Sep 25, 2023Sep 25, 2023
GradientQuantum for FinanceThe 20th century brought us classical computing, which revolutionized the world with its immense computational power. Fast forward to the…Sep 22, 2023Sep 22, 2023
GradientQuantum Cryptography — 2What is Quantum Cryptography and Its Use CasesSep 20, 2023Sep 20, 2023