That's an interesting point! The design of a car is heavily influenced by safety regulations, including crash test standards. While innovative designs, like those inspired by flatfish, could offer unique aerodynamic benefits,
Yes, that's one way to look at it! Essentially, to make the container mobile and visually appealing. But there's more to it, including functionality and smilistic design considerations. 😄"
Contoured Shapes Inspired by Geology: The natural erosion and weathering processes that have shaped Yosemite’s iconic landscapes could inspire the aerodynamic design of jets. Smooth, flowing lines mimicking the rounded contours of worn rock surfaces might be used to enhance aerodynamics and reduce drag.
I dont know who this Yosemite fellow is, But I do know he is a big fan of rescue heroes you can clearly see the inspiration of his ideas. plus it takes place in mountinace teran such an inspiration
@@balajiramamurthy9105 I'm talking about the scifi flying machine not the national park that you just educated me about and that I bothered to Google it (because it wouldn't make sense for what you said about rescue heros if you Google searched it. For context it's a show/ cartoon that builds a word of people who dedicate their lives in saving people from natural disasters while using advanced scifi technology like the one in this video while constantly using it in terrain like this national park which is why I said what I said.)
It would be interesting to see how experts could refine such a bold concept to meet engineering standards. Always good to challenge the norms and think outside the box!
i see, i want to create a car of my own and was searching for some software to work on with, u think blender is good for designing?@@balajiramamurthy9105
I mean, it covers almost all the questions that i have had since the past 4 years after my Msc final year. To sum it up , the slide that stands out for me was 1) Build your reputation. 2) Build your network. 3) Build your portfolio. 4) Do the job market research. Ty for this excellent video Michal.
Sir can you tell from which paper or resource the flowchart at 34:22 has been taken? And also please tell if it has any code associated with it, which we can refer for implementing by ourselves.
0:00 Introduction on financial portfolio optimization (Jeff) 4:41 What is a QUBO (Clark) 7:49 Algorithm Overview (Clark) 13:37 Simulated Bifurcation Model (Clark) 20:39 CQNS formulation (aka the Hamiltonian that is optimized) (Clark) 24:57 Efficient frontier from quantum annealing and classical (Jeff) 27:05 Steps to using Quantum Annealer: Step 1 Classical Formulation (Alex) 36:20 Question on market fluctuation and answer on CQNS (Jeff) 41:04 Question on balancing portfolios and answer (Jeff) 52:08 Steps to using Quantum Annealer: Step 2 QUBO (Alex) 59:41 Explanation on penalty with market condition (Jeff) 1:03:34 Step 3 Quantum and other hardware and scaling (Alex) 1:07:53 Step 4 Determining the business value of the solution (Alex) 1:16:30 Initial and benchmark results (Jeff) 1:23:15 Technical details, visualization and engineering accomplishments (Jeff) 1:39:34 Questions
Hi Balaji, thank you for sharing this video. You are an excellent facilitator, and I enjoy working with you. Keep up the great work! Jeffrey Cohen, President, Chicago Quantum.
Very interesting, Balaji! The AI-ification of our world definitely requires middle way frameworks to maximise benefits and minimise risks. This seems like a useful way to think about the profound opportunities & challenges ahead -- from smart-medicine to smart-infrastructure and everything in between -- over next 3-5 years & far beyond.
