A few tickers to check out (*not recommendations. DYOR*)
RGTI, QUBT, QBTS
The best way to understand this, perhaps, is to compare QC to traditional computing. Where today’s computers use bits and binary code composed of 1s and 0s, a quantum computer would use a similar language, but with limitless possibilities, meaning a bit could simultaneously be a 0 and a 1 at the same time.
This unlocks limitless possibilities when it comes to processing information, and would completely change how we think about computing.
While this may sound like science fiction, it is simply applying principles of the very well-researched field of quantum physics.
Superposition: A quantum object can have multiple states at any given time.
Interference: These states can coexist without cancelling each other out
Entanglement: Though they are independent, different states of a quantum object are deeply connected.
Measurement: As soon as quantum objects are measured, they are “forced” to adopt a measurable physical state.
Quantum Computing Vs. Artificial Intelligence
QC and AI are both revolutionary technologies, but very different in reality. The simplest way to understand it is that AI is a software revolution, while QC is a hardware revolution.
Of course, the lines between software and hardware are becoming more blurred in today’s world.
Yes, AI could be defined as a computer program, but the AI we’ve come to know today would not be possible without the hardware (GPUs) that has been developed, mainly by Nvidia (NVDA).
And while QC would take the abilities of computers to the next level, the true benefits would no doubt come from the software that we would be able to run on these machines.
#History #Math
HOW DID THE ROMANS REPRESENT "ZERO" YOU ASK?
https://historyfacts.com/science-industry/article/how-did-the-romans-represent-zero/
QUANTUM IS HERE~!
A few tickers to check out (*not recommendations. DYOR*)
RGTI, QUBT, QBTS
The best way to understand this, perhaps, is to compare QC to traditional computing. Where today’s computers use bits and binary code composed of 1s and 0s, a quantum computer would use a similar language, but with limitless possibilities, meaning a bit could simultaneously be a 0 and a 1 at the same time.
This unlocks limitless possibilities when it comes to processing information, and would completely change how we think about computing.
While this may sound like science fiction, it is simply applying principles of the very well-researched field of quantum physics.
Superposition: A quantum object can have multiple states at any given time.
Interference: These states can coexist without cancelling each other out
Entanglement: Though they are independent, different states of a quantum object are deeply connected.
Measurement: As soon as quantum objects are measured, they are “forced” to adopt a measurable physical state.
Quantum Computing Vs. Artificial Intelligence
QC and AI are both revolutionary technologies, but very different in reality. The simplest way to understand it is that AI is a software revolution, while QC is a hardware revolution.
Of course, the lines between software and hardware are becoming more blurred in today’s world.
Yes, AI could be defined as a computer program, but the AI we’ve come to know today would not be possible without the hardware (GPUs) that has been developed, mainly by Nvidia (NVDA).
And while QC would take the abilities of computers to the next level, the true benefits would no doubt come from the software that we would be able to run on these machines.
-source AWS