Quantum Computing Inc.A gentle introduction to optimizationThis week’s lesson is a simple tutorial that introduces a few basic but important optimization concepts, which appear in fields like…Oct 21Oct 21
Quantum Computing Inc.Nonlinearity vs LinearityNonlinear systems are those in which outputs are not directly proportional to inputs, unlike linear systems where superposition holds.Oct 8Oct 8
Quantum Computing Inc.Multibody interactions versus many-body problemsWe will contrast two-body interactions, common in physics (like the gravitational many-body problem), with higher-order interactions.Sep 30Sep 30
Quantum Computing Inc.The million-dollar question: does P = NP?If you want to make an easy million dollars, all you have to do is prove that P either does or does not equal NP. Sounds easy right?Sep 23Sep 23
Quantum Computing Inc.The Quantum Zeno EffectWe examine the Quantum Zeno Effect, which allows for interaction between components in a quantum system by repeatedly measuring itSep 3Sep 3
Quantum Computing Inc.An introduction to Unconventional ComputingUnconventional computing explores alternative methods that differ significantly from the conventional approach to computing.Aug 26Aug 26
Quantum Computing Inc.Qudit basicsQudits in Entropy Quantum Computing (EQC) offer a versatile approach to quantum optimization.Aug 19Aug 19
Quantum Computing Inc.Interaction graph connectivityWe discuss the advantages of using optical devices and entropy quantum computing for solving highly connected optimization problemsAug 12Aug 12
Quantum Computing Inc.Ising Models, what are they?Ising models were first developed in the early 20th century as a model for magnetism, but have recently gained a lot of popularity.Aug 6Aug 6
Quantum Computing Inc.Combinatorial optimization problemsCombinatorial optimization problems are difficult because they have many potential solutions, but no practical way to find the best…Jul 29Jul 29
