What's inside the microprocessor chips
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- Опубліковано 4 жов 2024
- @MakeGold What's inside the microprocessor chips
👉 / archimedeschannel
Microprocessor chips are made up of millions of tiny electronic components such as transistors, resistors, and capacitors, all etched onto a single piece of silicon using a process called lithography. These components are organized into logic gates that perform the basic operations of computing, such as adding and comparing numbers. - Наука та технологія
Don't open the chips, you'll attract flies.
😂😂😂
*Bugs* in general
A bug in the hardware 🥲😂
I was scared by unexpected fly
Same
A bug in the hardware 😮
That fly is for scale
Americans will use anything but the metric system
good one
Author: ...........so this is inside the microprocessor
FLY : okay, let me check
😂😂😂
This has ChatGPT vibes...
Microprocessor is the wonder of the world 🌎😲
Caps and resists (capacitors and resistors) are not put into the CPU using lithography. The lithography just makes the transistors and other processes add those components (usually microsoldering from my understanding).
Caps I don't know, but resistors they do. Same way they make the "wires" just in a squiggly line instead if a direct connection
@@loligesgame They generally don't make resistors on digital integrated circuits.
The value in ohms of a resistor on an integrated circuit die is determined by the ratio of the length to height of a rectangle.
Resistors take up a lot of area.
Yes it is possible to take a very long thin rectangle and make it more compact by having it create a line which turns left and right repeatedly but it generally is not done.
It is a more efficient use of the area to use a transistor and tie two of its pins together and design the dimensions of transistor to give you the resistance you need.
The wiggling of traces on dies is more likely to be an interconnect trace carrying a digital signal which we then wiggle back and forth along its length to introduce extra timing delay to fix a timing problem.
Capacitors we certainly don't put on to a digital integrated circuit die, because they take up far too much area.
And we generally don't need them.
If you remember your capacitor formula,
C= (Aε0.εr)/d
you will see that the capacitance is directly proportional to the area of the parallel plates.
They are too costly in the amount of area they need.
@@deang5622 Mostly true, but don't forget about trench capacitors used in CMOS logic and some memory circuits. Since we usually only use high and low values, the resistors between gates usually arent that important and are mostly not considered. The only example I can think of is inside an ADC, but I would be surprised if they actually use resistors with precise (+-5%) values in there
@@gaelas4853 DT's aren't used in CMOS logic but for DRAM memory cells.
They refer to the process technology as CMOS but CMOS logic uses both P channel and N channel MOSFETs and doesn't require capacitors to operate.
The DT capacitors are a way to reduce the surface area required for the capacitor of and keep the die area down, as the die size is a major element of the manufacturing cost.
DT's didn't exist when I was in the semiconductor industry.
@@gaelas4853 You don't need resistors from the output of one logic gate to another. The FETs are voltage controlled devices with a high input impedance.
Fly visiting our advanced technology 🤣
That fly is also want to know how it works😅
What is this precision instrument you used to delid? 🤨
crownose :)
Don't leave us hanging, inquiring minds want to know what the chip is! Looks to me like a Symbios 53C141 "LVD SCSI Bus Expander" that "attaches single-ended SCSI devices to a Low Voltage Differential (LVD) SCSI bus."
Fairly exotic part, probably only found in upscale equipment, which makes sense for a channel that's about recovering gold.
“Yer a wizard harry”
These chips don’t contain capacitors or resistors. Even though you can argue that transistors have an internal resistance thus can act as resistors, but they certainly do not contain capacitors. Misleading.
You can argue that the terminals on transistors have capacitance across each other 🤔
looks buggy to me
The fly is open
Actually capacitors and resistors are not used in digital integrated circuit chips. They take up too much area.
If they need resistors they can use a transistor and tie two of its pins together. It is a more efficient use of the area.
decoupling caps are always used
@@arnecl9566 Not on the die of the chip they are not. They are mounted externally.
@@deang5622 You need decoupling on chip to avoid voltage drops. Due to the inductance of the bonding wires and the frequency at which power (and thus current) fluctuations happen it is not possible to do this off chip.
@@arnecl9566 You clearly don't understand the difference between "chip" and die.
They don't put decoupling capacitors on the semiconductor die. They place surface mount caps external to the die.
@@deang5622 sure keep telling that to yourself ;)
This video hurts me physically
Why??
Capacitor?!
Good brief about chips
Isn't that gold!?
I see gold
But why the carnage ?
Bru did you create your text with chatgpt?
after crash the mold, inside have dia or chip wire gold wire.
so much gold
Killer chip. What kind of board?
thanks to the fly we now know the scale 😂
The Fly," I'm faster "
So gold wire 😍
Nice very nice charlie
I know it has 730 billion transistor
Every one know there is magic smoke inside.
Breaking it hurts me inside
Fly ❌ Bug ✅. 😂😂😂😂
Just one scratch, it will still work fine
Ughh hopefully that was a common chip.
Au Reclaim 😮
Is there any flip flops situated or not...
Fly: wait let me introduce my self to your subscribers. 😎
what insinde a potato chips?
Special appearance by ; The Fly
😂
what the fly doing?
Huh wow
Fly: wu gwan🗿
Fly 💸
І муха на золото сіла😂
замена чипа по импортному - импортозамещение
There's GOLD in those chips I tell ya!
Si le das con una masa le haces menos daños.
modern cpu and gpu have gold ports and millions of transistors inside, covered with silicon outside.The parts that power and regulate the processor happen to the motherboard, such as the capacitor and resistor. not found in the processor.
Đả quá bạn
Microprocessor chips are made up of millions of tiny electronic components such as transistors, resistors and capacitors - 🤖🤖🤖
Humans are extremely intelligent, there’s no way we evolved from apes, God our creator blessed us by making us like him. And when you study the human body and realize it’s more complex than a microprocessor that’s when you truly know a brilliant mind made us. Imagine live organisms that are working together to allow complex life. Jesus is the greatest mind I love God
Bugs
mujhe bhi bataiye chipka milati Hai China Mein Mujhe Bhi chij chahie mein baat bonding machine hai aur Steel wire chahie iska Jo Taka Lagati Hai
i see gold there
this is the most complex thing ever existed
Entirely wrong
What was wrong?
Thats why i didnt study ... Doing Apprentice under Baba Dhaam baba... One day i too scam whole soceity and become millioner ... If luck support billionaire
Narrated a whole lot of nothing.
Fuq that fly
Lol capacitor & resistor🤭
Gyuj
Wow🥹🫡
Hey there! Thanks for watching the video!
Jesus Christ Is Our Only Living God and the Only way to get to Heaven is through Him.
He gave His Life for us, at lest we can do is take time to find out why He would do that for Us.
He Loves us, and only ask to Believe in Him, and turn away from the sinful ways, We all sin weather wishing someone died or actually killing them, it is the same in Gods eyes. He loves us and will help us change our ways just by asking. He is coming real soon for His followers, Please don't be left here for the wrath to come upon the wickedness of this world. Just look around. He died for our sins, He lived a sinless life and we killed Him, hung Him on a cross tell he died, then buried Him, and He rose up on the third day then ascended to Heaven. Please Believe in Him
Except that the SYM53C141 shown is a SCSI Buss Expander that operates in Extender or Converter mode. it is not a microprocessor chip.
Worst UA-cam Video!
Marvel of human intelligence..