Susskind's "Theoretical Minimum" is a great place to start for all modern physics if you want to actually get into the math. If you want to learn Quantum computing, I'd look through that as a primer and then check out a dedicated Quantum Computing book.
The standard Quantum Computing text is "Mike & Ike", but I particularly liked the exposition in Kaye, LaFlamme, and Mosca's text. In particular, it starts by discussing classical computing frameworks (Turing machines, circuit diagrams for gates) and then introduces new math and notation that turns out to be the notation for QM. I didn't come from a CS background, but I suspect that text would be clearer for someone who does.
I never thought I'd surpass the late Ray Wilson's Make: Analog Synthesizers. Here's a link to my book on Amazon.
Alguns livros introdutórios:
Here’s the book on the 555 I mentioned. I’m pretty sure the author posts here I found it from his posts on reddit.
The Ultimate Beginner's Guide to the 555 Timer: Build the Atari Punk Console and Other Breadboard Electronics Projects https://www.amazon.co.uk/dp/1520148038/ref=cm_sw_r_cp_api_glt_i_XNRY10NYCBB4KFX8EH42
Here’s the book on the 555 I mentioned. I’m pretty sure the author posts here I found it from his posts on reddit.
The Ultimate Beginner's Guide to the 555 Timer: Build the Atari Punk Console and Other Breadboard Electronics Projects https://www.amazon.co.uk/dp/1520148038/ref=cm_sw_r_cp_api_glt_i_XNRY10NYCBB4KFX8EH42
There are lots of videos on YT. I personally liked this one:
You can also read: Decode and Conquer: Answers to Product Management Interviews. https://www.amazon.com/dp/B07ZV8BM2S/ref=cm_sw_r_apan_glt_8DZAN5FX2EHNGRA93XZB
If you want to really make your application stand out, you could try reading this book and then simulating a basic quantum computer. There’s a good YT video of the same name, which is a better introduction to the topic. I can DM you my own project if you want to have a look :)
As for Quantum Cryptography, in practice it's not really a new kind of cryptography but a way to exchange keys with a physical theorem ensuring that if anybody snoops in you can detect it, throw away your keys and try again. And it needs a quantum medium such an optical fiber cable between the peers (with some limitations). After that it's just regular cryptography.
However, if transferring an extra amount of data at least as long as your message is acceptable, then nothing prevents you from sharing data first from a real random source (quasars, lava lamps...) and using it to xor your message. It turns out that xoring messages with random data only known to the interested peers is unbreakable because every possible message has the same probability of being correct. And since you can detect if anyone saw your key exchange before sending your encrypted data, then you have the advertised unbreakable encryption.
If you want to learn more about the subject I'd recommend you taking a look to this book. While it does talk about algorithmic complexities most of its content just requires good understanding of complex numbers and linear algebra.
And of course, good luck with your future start-up idea. I'm in no way trying to discourage you, just trying to help dispelling the veil of hype so you can get a better picture of what's behind it.
That book and this one are the two best introductions:
You should get both.
Both will be useless to you unless you know enough math. How far along are you?
Like if you treat it as a black box? Hmmm I think this book (https://www.amazon.ca/Introduction-Quantum-Computing-Phillip-Kaye/dp/019857049X) might get into it, though it has been a while since I read it.
I haven't entirely read this book, but I remember that it explains Grover's algorithm well. It might be what you are looking for because it states that it's target audience is undergraduate computer science students.
Your example sound like you want to do binning of samples; you can definitely not enter ranges on the calculator. Although it sounds like your questions are a little broad for a single Reddit answer, might I be so bold as to do some self-promotion of "Using the TI-84 Plus", 2nd Edition, which explains statistics on the TI-84 Plus CE (and basically everything else you can do with it) in great detail: http://www.amazon.com/dp/1617293156
Try this: 1. Go to the Solver: [MATH][UP] (to go to the bottom of the menu, and the Solver... option), [ENTER]. 2a. If you have a color calculator with E1: and E2: fields in the Solver menu, enter Y1 (from [VARS]->YVars->1:Function->1:Y1 as E1:, and the Y value you want to find in E2:. 2b. If you have a monochrome calculator a 0= prompt, enter Y1-(the Y value you want to find). 3. Press [ENTER], choose an X that you think is near the Y you want, and press [ENTER] again. The calculator should think for a minute, then return a precise X.
Hope this helps. If my Solver... instructions are a little unclear, there's a good guide in section 2.6 of "Using the TI-84 Plus" (http://www.amazon.com/dp/1617293156/)
You still can't use this run N64 emulation utilizing multiple PI cpu's at the same time.
And a google says you are full of shit.
I work in HPC. I know what clusters can and can't do. This is on the CAN'T list.
That RPi cluster github you sent me has some monte carlo tests and a few other things for building KVM based butts and stuff but none of it lets you 'cluster' an emulator.
EDIT: GOOD ONE /u/gorrorfolk you deleted your post claiming I was wrong.
Seems you were full of shit..
The clustering link you posted was for this book
http://www.amazon.com.au/Raspberry-Super-Cluster-Andrew-Dennis-ebook/dp/B00GTE1RXA
You stooge!
I've seen this monkey in my dads house on the book shelf. Can't say I noticed the title though. He works with Oracle, so you might not be too far off. Can we figure out what it is?
Found it: http://www.amazon.com/Unix-Nutshell-Fourth-Arnold-Robbins/dp/0596100299/ref=ntt_at_ep_dpt_3
Check out Starter Kit for the IBM iSeries and AS/400 [http://www.amazon.com/Starter-Kit-IBM-iSeries-400/dp/1583040846/ref=sr_1_1?ie=UTF8&s=books&qid=1282750044&sr=8-1] If they already have a sysadmin that does most of the work on it, you should not have to worry too much.