Thanks, FreeCodeCamp, for showcasing the course! I hope it will help you all understand the fundamentals of Quantum Computing. Thanks, and have a good one!
@@CPILLOWWonderful video hope it helps The Second of Kings 6 The sons of the prophets+ said to E·liʹsha: “Look! The place where we are staying with you is too cramped for us. 2
Really love it... It was really helpful for completing my presentation on Quantum Computing. I couldn't find any other video explaining all these concepts in this much details. All they said was Quantum Computer works on the principle of quantum superposition by only said two particle are interconnected, also transfer information instantaneous and quantum entanglement with help of Schrodinger Cat experiment. That's all. I'm really thankful ❤
@@LasradoRohanquantum superposition doesn’t mean 50 or 50, percentage, it means BOTH good and bad until u finished it, thus I declare u give him the 1 dollar now.
Let's all take a moment to appreciate the amount of hard work put into this. The engaging animations, clear explanations, and more make this just the perfect course on quantum computing. If you are seeing this: Don't give up on this course, it is like a gem on youtube. Good luck to all of you watching this amazing course. And please don't forget or avoid the exercises in the description!!! To understand the course, I suggest you solve all, or at least most of the questions to get a better understanding. (Trust me on this!)
Absolutely, you think you understand it until you try the exercises! The exercises are just what is required. I'm about two thirds through actually doing the exercises and starting to struggle a bit. I'm now looking for a book that explains all this in a bit more detail. The most promising book I've found so far is Michael A. Nielsen and Issac L. Chuang - can anybody recommend this book?
This is by far the best introduction I've found to the mathematics of Quantum Computing. Has anybody got right to the end??? The pace starts really easy, we are enjoying the comfort of being spoon-fed and nurtured, then the pace quickens a bit, then a bit more, then we're racing... equations flash up every couple of seconds and morph into other equations! Getting to grips with the last 5 minutes with lots of pause and rewind is taking me longer to absorb than the first 90 minutes.
Wow, I was looking into various videos and all of them started kind of in the middle. Only this video gradually moves you through the basics into the very point of Quantum Computing. Great thanks to the creators.
I was gonna pick up IBM's quantum computing course but discovered I need to learn the math. At that time I decided I'll leave it for later since I have other things I want to learn and can't allocate much time to learn the math. Now I opened RUclips and this popped up. I would like to call it fate but it is my data being tracked, still I am lucky to find it.
i made slightly more accurate timestamps for my benefit and felt i should share them(I only have time stamps up till the times i have taken notes). 10:10 represent column vector on graph 11:30 inverse matrix =^-1 12:05 conjugate matrix's = * 12:37 transpose matrix = T 12:53 dagger matrix = dagger 13:00 unitary = U 13:40 Hermitian matrix = H 14:05 eigenvectors & eigenvalues 15:24 qubits vs classical bits 15:58 superposition 16:28 mathematical qubits 17:15 system collapse and measuring
you can try the quantuam computing and information course on ibm learning paltform. That is available for totally free of cost and heard that it is realyy very good
Wow. Nice job - clear and succinct. Who is the narrator? Hope you do a series on Linear Algebra! This video is a great example of what educational videos should be: refined to the point that they contain just the right amount of required information, explanation, examples, graphics, and animation - nothing more. For more views, I would suggest splitting this 1.5 hours into a nice playlist - maybe 3-5 minutes each. That would be the best QM / QC playlist ever! Thank you!
finally, finally! waited for this for so long, really wanted to get started on quantum computing and now i can, we need a longer more rigorous and beginner to complete advance video on this ,and also pls consider doing more courses on fine-tuning llms.
I'm truly fascinated that people need long hours for this learning content, take a pen and a paper and complete this complete video in 1 day . They have actually rolled down everything under 1hr ,beautiful team 👍👍
All this means that this ideology of quantum computing is similar to standard computing except that the first one consumes more resources..! I am saying this because in this video around 18:10 of the video timeline, the presenter said that the quantum computing is only deals with 0&1 not the ratio between both, in fact this means the binary language is still applied
Why there is no course on must advanced and emerging technologies? Neuromorphic computing, Nano and biotechnology, Brain computer interface, Space and satellite technology, Etc. I think you built a solid foundation by teaching cs cources and it's great your included quantum computing. Now take it to the next step by teaching important emerging technologies other than Ai. Thanks
Every computer is a quantum computer, computers compute the Quantity or Quantum of values. Semi conductors of the computers in ROOM TEMPERATURE have reached their operating frequency's speed limit. Transistors are ionic switches that with higher frequency of switching they get hot and create errors / noise. The most practical way of cooling the processors is with Heat Sinks and Fans which we have been using. Quantum Computers are the higher frequency computers with liquified gas cooling pipes. Concept and the technique of parallel processing is as old as the invention of IC (integrated circuit). We can connect multiple fan cooled regular computers in parallel to achieve the same performance of a Quantum Computer, all we need is a synchronization algorithm to compensate for network latency, same as the one for supper computers.
Gemini 1.5 Pro: This course provides a foundation in Quantum Computing. It starts with the basics and goes all the way to explaining how popular Quantum algorithms work. The first section covers essential mathematics, including complex numbers and linear algebra. The second section dives into what qubits are and how to represent them mathematically. It also explores single qubit operations and their properties. The third section introduces how to represent multiple qubits mathematically and explores operations performed on them. This section concludes with entanglement and phase kickback, strange quantum phenomena. The final section uses everything learned to analyze Quantum algorithms. This section explains why quantum computers are revolutionary. Here are the details covered in the first section on complex numbers: * Imaginary numbers: Numbers that contain the square root of -1. Represented by the symbol i. * Complex numbers: Numbers that contain a real number and an imaginary number. Standard complex number looks like a + bi, where a and b are real numbers. * Adding and subtracting complex numbers: Add or subtract the real and imaginary parts separately. * Multiplying complex numbers: We can multiply complex numbers using the distributive property. Before multiplying the imaginary unit terms, we should remember that i * i = -1. * Complex conjugate: The complex number where the imaginary part is negated. Represented with an asterisk. * Modulus/Magnitude of a complex number: The distance from the origin. It is calculated using the Pythagorean theorem. * Polar form: A way to represent complex numbers using magnitude and angle. * Exponential form: Another way to represent complex numbers using Euler's formula.
This video is a solid introduction to quantum computing. But it is still only an introduction. I would like to learn more about it, however I can't find any resources covering this topic further. Does anybody reccomend anything?
At timestamp, 1:04:18 - mention that they need 2^(n-1) + 1 to determine if the function in either a balanced function or a constant function. Does that mean that there is an assumption that f is always either a constant/balanced fn. Because the regular AND, OR functions are not either balanced or a constant functions.
I am school student but actually want to start ta the computer world's journey and i don't know anything about computer. Please suggest me some source and videos in this channel from which i can start from scratch. Please help me 🙏
This certainly sounds good too, but I think it's still worth considering more reliable options like copy trading platforms such as Eledator, for example.
Who else completed this, also you can mention the reasons and your future plans regarding this I did as i wanted to be cool in my class and thus choose the topic of post quantum cryptography for my technical paper. And hell i didn't knew anything about either quantum computing or cryptography but now its just cryptography...
Thanks, FreeCodeCamp, for showcasing the course! I hope it will help you all understand the fundamentals of Quantum Computing. Thanks, and have a good one!
very well done video !!!
@@CPILLOWWonderful video hope it helps
The Second of Kings
6 The sons of the prophets+ said to E·liʹsha: “Look! The place where we are staying with you is too cramped for us. 2
Quantum Soar , please continue making videos on Quantum Computing and Technologies. Your videos are mere blessings for all Quantum tech enthusiasts!!!
I found your channel and save this playlist earlier this semester and then I ran into this this morning 😂Thank you very much!
Really love it... It was really helpful for completing my presentation on Quantum Computing. I couldn't find any other video explaining all these concepts in this much details. All they said was Quantum Computer works on the principle of quantum superposition by only said two particle are interconnected, also transfer information instantaneous and quantum entanglement with help of Schrodinger Cat experiment. That's all.
I'm really thankful ❤
We need a 30-hour on Quantum computing!
😅
Totally agreed
Yes
Yes 😂
Quantum computing needs more than that to really go deep, and understand algorithms and hardware and etc...
I will bet $1 this 1.5hr video is the best overview of quantum computing of all time. GOAT!
Truly Agreed!
🙌🙌
Since I haven't watched it yet, it is in a superposition of good and bad. I'll take my 50¢ thanks.
@@LasradoRohanquantum superposition doesn’t mean 50 or 50, percentage, it means BOTH good and bad until u finished it, thus I declare u give him the 1 dollar now.
@anmirfan6447 hah, but you can only guess whether he got the dollar from me
Let's all take a moment to appreciate the amount of hard work put into this.
The engaging animations, clear explanations, and more make this just the perfect course on quantum computing.
If you are seeing this: Don't give up on this course, it is like a gem on youtube. Good luck to all of you watching this amazing course.
And please don't forget or avoid the exercises in the description!!!
To understand the course, I suggest you solve all, or at least most of the questions to get a better understanding. (Trust me on this!)
Excellent advice. I am about half way through and getting my hands dirty with the questions is making all the difference.
@@squirrelpatrick3670 Keep it up 💯💯🔥🔥
Absolutely, you think you understand it until you try the exercises! The exercises are just what is required. I'm about two thirds through actually doing the exercises and starting to struggle a bit. I'm now looking for a book that explains all this in a bit more detail. The most promising book I've found so far is Michael A. Nielsen and Issac L. Chuang - can anybody recommend this book?
PLEASE PLEASE BRING MORE QUANTUM COMPUTING HERE ON YT PLEASEEEE!!!!
This is easily the next big thing, dont wanna miss out on this!
This is by far the best introduction I've found to the mathematics of Quantum Computing. Has anybody got right to the end??? The pace starts really easy, we are enjoying the comfort of being spoon-fed and nurtured, then the pace quickens a bit, then a bit more, then we're racing... equations flash up every couple of seconds and morph into other equations! Getting to grips with the last 5 minutes with lots of pause and rewind is taking me longer to absorb than the first 90 minutes.
Next video: Building a nuclear reactor in your backyard. For beginners.
😂😂😂😂
😂😂😂😂
Made my day 😂
😂😂😂
freeCodeCump : The variety is our title.😅
Wow, I was looking into various videos and all of them started kind of in the middle. Only this video gradually moves you through the basics into the very point of Quantum Computing. Great thanks to the creators.
I was gonna pick up IBM's quantum computing course but discovered I need to learn the math. At that time I decided I'll leave it for later since I have other things I want to learn and can't allocate much time to learn the math. Now I opened RUclips and this popped up. I would like to call it fate but it is my data being tracked, still I am lucky to find it.
i made slightly more accurate timestamps for my benefit and felt i should share them(I only have time stamps up till the times i have taken notes).
10:10 represent column vector on graph
11:30 inverse matrix =^-1
12:05 conjugate matrix's = *
12:37 transpose matrix = T
12:53 dagger matrix = dagger
13:00 unitary = U
13:40 Hermitian matrix = H
14:05 eigenvectors & eigenvalues
15:24 qubits vs classical bits
15:58 superposition
16:28 mathematical qubits
17:15 system collapse and measuring
We need a 30hrs course in quantum computing and quantum information. Just 1.5 hr course is not sufficient.
Are there any
I want a 30hrs mini nuclear reactor build tutorial
you can try the quantuam computing and information course on ibm learning paltform. That is available for totally free of cost and heard that it is realyy very good
MIT Open Learning Library courses 8.370 and 8.371
Colleges are offering Robotics Engineering
Thanks! I watched this before my mids and was v helpful! ❤
Thank you for providing an actionable pipeline of steps to begin working with quantum technologies, I hope to see more like this in the future!
Wow. Nice job - clear and succinct.
Who is the narrator? Hope you do a series on Linear Algebra!
This video is a great example of what educational videos should be: refined to the point that they contain just the right amount of required information, explanation, examples, graphics, and animation - nothing more. For more views, I would suggest splitting this 1.5 hours into a nice playlist - maybe 3-5 minutes each. That would be the best QM / QC playlist ever!
Thank you!
finally, finally! waited for this for so long, really wanted to get started on quantum computing and now i can, we need a longer more rigorous and beginner to complete advance video on this ,and also pls consider doing more courses on fine-tuning llms.
You always can learn anything, just be curious and investigate, don't wait for someone to make a course
Loved the instructor. Speaks with such clarity and precision. Even the editing of the video makes everything much easier to understand.
Thank you so much you guys, this youtube channel is such a blessing.
as a quantum machine learner im grateful for widening my scope of learning,, make this video 96 hrs !
I'm truly fascinated that people need long hours for this learning content, take a pen and a paper and complete this complete video in 1 day . They have actually rolled down everything under 1hr ,beautiful team 👍👍
This video is short tho
This a truly fantastic course - great job! Thank you so much!
My first time learning the course
All my years of hard work payed off
This illustrations are gold and illustrator teachings skills are exceptionally good❤
RUclips algorithm has not disappointed me. Subscribed.
Thanks for sharing 💕👍🙂i have learned and understood the basic Quantum computing. 💞
Excellent introduction & theory. Very helpful.
All this means that this ideology of quantum computing is similar to standard computing except that the first one consumes more resources..!
I am saying this because in this video around 18:10 of the video timeline, the presenter said that the quantum computing is only deals with 0&1 not the ratio between both, in fact this means the binary language is still applied
Great video. Finally finished watching it. Now my main question is, will there be a part 2?
Amazing Course helped me to undertand the Quantum Computing
super amazing and super easy video understood almost everthing thanks for this video need more videos
At 1:27:18 , even the instructor couldn't hold back and yawned during the video , guess quantum computing is exhausting for everyone 😂😂😂
Why there is no course on must advanced and emerging technologies?
Neuromorphic computing,
Nano and biotechnology,
Brain computer interface,
Space and satellite technology,
Etc.
I think you built a solid foundation by teaching cs cources and it's great your included quantum computing. Now take it to the next step by teaching important emerging technologies other than Ai.
Thanks
Every computer is a quantum computer, computers compute the Quantity or Quantum of values.
Semi conductors of the computers in ROOM TEMPERATURE have reached their operating frequency's speed limit.
Transistors are ionic switches that with higher frequency of switching they get hot and create errors / noise.
The most practical way of cooling the processors is with Heat Sinks and Fans which we have been using.
Quantum Computers are the higher frequency computers with liquified gas cooling pipes. Concept and the technique of parallel processing is as old as the invention of IC (integrated circuit). We can connect multiple fan cooled regular computers in parallel to achieve the same performance of a Quantum Computer, all we need is a synchronization algorithm to compensate for network latency, same as the one for supper computers.
This RUclips channel is goldmine
Op op! My physics days at university nostalgia is real! 😁
Good Afternoon
Glad to be taking this course
16 minutes in
I'm excited to see this course, thank you for your contribution!
bro plz make this course a certified one it will help millions.
You people are doing good for development of humanity
This is amazing. It reminds of plotting graphs in mathematics especially algebra and more. It's learn who's with!e
The most awaited video at just the right time ❤
I am so inspired just by watching the title of video!👍
its 1am the night before an exam that's totally unrelated to this.. and here we are..
That's where our love for Computer has lead us to.
Thank You!!! FCC for this, please upload the more advance part of it.
I highly appreciate you guys and am thoroughly grateful. Please keep them coming. Much love truly. More speeeeedddddddddd
Gemini 1.5 Pro: This course provides a foundation in Quantum Computing. It starts with the basics and goes all the way to explaining how popular Quantum algorithms work.
The first section covers essential mathematics, including complex numbers and linear algebra. The second section dives into what qubits are and how to represent them mathematically. It also explores single qubit operations and their properties.
The third section introduces how to represent multiple qubits mathematically and explores operations performed on them. This section concludes with entanglement and phase kickback, strange quantum phenomena.
The final section uses everything learned to analyze Quantum algorithms. This section explains why quantum computers are revolutionary.
Here are the details covered in the first section on complex numbers:
* Imaginary numbers: Numbers that contain the square root of -1. Represented by the symbol i.
* Complex numbers: Numbers that contain a real number and an imaginary number. Standard complex number looks like a + bi, where a and b are real numbers.
* Adding and subtracting complex numbers: Add or subtract the real and imaginary parts separately.
* Multiplying complex numbers: We can multiply complex numbers using the distributive property. Before multiplying the imaginary unit terms, we should remember that i * i = -1.
* Complex conjugate: The complex number where the imaginary part is negated. Represented with an asterisk.
* Modulus/Magnitude of a complex number: The distance from the origin. It is calculated using the Pythagorean theorem.
* Polar form: A way to represent complex numbers using magnitude and angle.
* Exponential form: Another way to represent complex numbers using Euler's formula.
great content just what I needed , I was really lost.
Would love to see a Qiskit tutorial after that 👏👏👏👏👏
I’m really excited for this. ✌💕
This video is a solid introduction to quantum computing. But it is still only an introduction. I would like to learn more about it, however I can't find any resources covering this topic further. Does anybody reccomend anything?
Check out qiskit's lecture series on quantum computing
Thank you. I really needed this.
Thank you, this is great consolidation ahead of my exam:)
I have completed the theory and coding of the basics, mentioned here, and now i want to start qml, does anyone knows what roadmap should i follow?
guys note at 36:34 the last term he forgot a + sign
thanks a lot for the video.
36:34 the last entry misses a + sign
thank you for the problem sets it bangs 👌👌
Need a course on Qiskit 🙌🏾
We need a 30hr course on Quantum computing
Thank you for the efforts and for sharing.
THANKS GREAT INTRO,,,,,,
Great video to gain surface level understanding of subject.
Exact video , i have been looking for ,
thanks its really an amazing course
thank you really thank you for this amazing video
There is just 15 minutes have passed and people are like... we need full course! 😂
I really really really wanted this kingmd of video, thanks.
At timestamp, 1:04:18 - mention that they need 2^(n-1) + 1 to determine if the function in either a balanced function or a constant function. Does that mean that there is an assumption that f is always either a constant/balanced fn. Because the regular AND, OR functions are not either balanced or a constant functions.
Yes, it is assumed that the function is either constant or balanced
This is why I love math because math is everywhere
imagine loving God
@@Risen_Glory you are right bro
@@Risen_Glory imagine loving spiderman ❤
Me too
Imagine that the god is math.
If it's that is the only thing I can trust.
I need a similar type of video on Quantum Error Corrections..plzz😮💨
Love this channel!
thank you! really helpful
quantum computing course 🤯
Thanks for the video 🎉
I am school student but actually want to start ta the computer world's journey and i don't know anything about computer. Please suggest me some source and videos in this channel from which i can start from scratch. Please help me 🙏
You can refer to CS50 classes for the starter, you'll find on the youtube.
19:31 you say that the probabilities add up to more than one, but IMHO it's less than one. (2÷3)^2+(√2÷2)^2 = 0.94
As an 16yr old who suffer with class 10th maths 😂 it's going above my head but the theory is veey interesting
This certainly sounds good too, but I think it's still worth considering more reliable options like copy trading platforms such as Eledator, for example.
39:35 u dont have to swap the coefficients of 3rd and 4th terms?
This is very valuable!
This channel is the GOAT
bn waitng 4 ths 4 a long time. thx 😘😘😘
may I can't uderstood this (my heart is broking) ,but I like this channle ,guys U R the best
36:35: The "+" is missing before the 8th qubit
are those quantum computers in the room with us right now?
Please make a long video on quantum computing
It's a wonderful content sir Thank you
A video is a nice to have extra to a written tutorial. I much prefer written to YouTubs stuff. Will there be a decent tutorial??????
I just bought one from the market!!
Outstanding thanks
We need more
30 hrs Quantum Computing course, please.
25:33 ***** important aspect in gate operations
Who else completed this, also you can mention the reasons and your future plans regarding this
I did as i wanted to be cool in my class and thus choose the topic of post quantum cryptography for my technical paper.
And hell i didn't knew anything about either quantum computing or cryptography but now its just cryptography...
Thank you for sharing.
in the problem set 2.2 question 1c, does that have the correct answer?
Didn’t even opened RUclips but some how this video started playing while I was at work
You are using youtube quantum
Schrodinger's video
Wonderful ❤❤
third :) Love from INDIA and waiting for more of these videos.
Cool video! I'd like to add that there are other investment options in copy trading platforms like Eledator as well.
I wanted t join this course but couldn't be in two classrooms at the same time 🤪
Nice 😁😁😁
I hope free code camp never become paid !!!!!!!
I love it .