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Highlights from the latest #nvidia keynote at GTC 2024. Topics include @NVIDIA's insane Blackwell B100 GPUs, the Grace Blackwell GB100 superchips, NVIDIA's new AI supercomputer and AI factories, and how they will power generative AI technologies like #chatgpt and #sora by #openai and reshape computing as we know it.
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Timestamps for this Nvidia GTC Keynote Supercut:
00:00 NVIDIA B100 GPU for AI - Overview
07:58 NVIDIA Blackwell AI Supercomputer
12:28 NVIDIA Robotics ChatGPT Moment
15:53 NVIDIA GR00T Humanoid Robots
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📝 Resources & References 📝
@NVIDIA GTC March 2024 Keynote with NVIDIA CEO Jensen Huang: https://www.youtube.com/watch?v=Y2F8yisiS6E
🙏 Thanks for watching!
Vermutlich steckt unsere Technologie auch in dem elektronischen Gerät, das du gerade benutzt. Triff ASML in Berlin – den weltweiten Zulieferer der Halbleiterindustrie ➡ http://ms.spr.ly/6055jBBEW
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What does it take to print billions of transistors with nanometer precision?
It's a joint effort, one that brings together both hardware and software to produce the microscopic circuitry for today’s advanced microchips.
Our computational lithography software is powered by physical models and algorithms enabled by cutting-edge machine learning and data science techniques. From early design to high-volume manufacturing, it lets us use our unique knowledge about the inner workings of lithography systems to optimize the chip patterning process. Layer by layer, chip by chip, wafer by wafer, computational lithography is enabling chipmakers to push microchip technology to new limits.
Learn more about computational lithography: https://www.asml.com/en/produc....ts/computational-lit
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In a Dutch factory, there’s a revolutionary chipmaking machine the whole world has come to rely on. It takes months to assemble, and only one company in the world knows how: Advanced Semiconductor Materials Lithography.
CNBC got an exclusive tour inside ASML’s cleanrooms to see how these $200 million EUV systems print minuscule designs on advanced microchips using exploding molten tin, the flattest surface in the world, and light so narrow it’s absorbed by air.
Once ASML is done building and testing an EUV lithography machine, it’s so big that it needs to be disassembled and loaded on 20 trucks or three 747s for shipment. Only five customers can afford EUV machines, the biggest being TSMC, Samsung and Intel - and ASML export controls keep ASML from sending any to China.
Here’s a rare, inside look at how nearly 800 suppliers come together to create the technology required to print every advanced chip powering the digital world, from data centers to iPhones.
Chapters:
00:00 -- Intro
1:58 -- Dutch company with U.S. roots
6:18 -- How lithography works
8:52 -- How EUV revolutionized chipmaking
11:24 -- Why there’s no competition
14:45 -- Geopolitical risks and what’s next (edited)
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why The World Relies On ASML For Machines That Print Chips
Go to http://brilliant.org/BranchEducation/ for a 30-day free trial and expand your knowledge. Use this link to get a 20% discount on their annual premium membership.
Integrated Circuits, CPUs, GPUs, Systems on a Chip, Microcontroller Chips, and all the other different types of microchips are the brains of all the devices and technology that we use on a daily basis. But have you ever wondered how these microchips are made? Well, in this video, we're going to take a tour of a microchip fabrication plant or fab and walk you through the dozens of steps used to make a microchip. Specifically, we focus on how CPUs are made. CPU, GPU, and Smartphone Microchip manufacturing is a multi-trillion dollar industry, and each factory costs in the tens of billions of dollars. This is an overview of all the processes used to make a microchip, as well as an overview of a microchip factory. We're planning more videos on microchip manufacturing, such as a 3D animated factory tour.
This is the MOST complicated video we've made by FAR!! 4 different animators have been working on this video non-stop for the past 5 months, for a total of 1300 hours of research, modeling, script writing, animating, editing, animating again, rendering, and then more editing. Support us on Patreon is you want more videos like this one.
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Website: https://www.branch.education
On Facebook: https://www.facebook.com/BranchEducation/
Shoutout to Asianometry YouTube channel https://www.youtube.com/@Asianometry. This YouTube channel is filled with tons of information on the semiconductor industry, and Microchip Fabs.
Table of Contents:
00:00 - How are Transistors Manufactured?
02:06 - The nanoscopic processes vs the microchip fab
02:34 - What's inside a CPU?
04:31 - What are FinFet Transistors
05:06 - Imagine Baking a Cake
05:44 - Simplified Steps for Microchip Manufacturing
07:51 - 3D Animated Semiconductor Fabrication Plant Tour
09:54 - Categories of Fabrication Tools
10:26 - Photolithography and Mask Layers
11:52 - EUV Photolithography
13:39 - Deposition Tools
15:02 - Etching Tools
16:02 - Ion Implantation
17:03 - Wafer Cleaning Tools
17:29 - Metrology Tools
18:16 - Detailed Steps for Microchip Fabrication
20:29 - Research and Hours Spent on this Video
22:18 - Silicon Wafer Manufacturing
23:19 - Wafer Testing
23:42 - Binning
24:59 - Explore Brilliant
27:20 - Thank you to Patreon Supporters
Key Branches from this video are: How do Computers Work? How do SoCs Work?
Animation: Mike Radjabov, Prakash Kakadiya, Adrei Dulay, Parvesh Khatri
Research, Script and Editing: Teddy Tablante
Twitter: @teddytablante
Modeling: Mike Radjabov, Prakash Kakadiya
Voice Over: Phil Lee
Sound Design: https://www.drilu.world/
Sound Effects and Music Editor: Raúl Núñez, David Pinete
Supervising Sound Editor and Mixer: Luis Huesca
Erratum:
Animation built using Blender 4.1 https://www.blender.org/
Internet References:
WikiChip Fuse https://fuse.wikichip.org/ is an amazing resource for the specs of different technology nodes.
Semiconductor Engineering https://semiengineering.com/ is an amazing resource for news in the semiconductor industry.
TechPowerUp https://www.techpowerup.com/ is an amazing resource for tech specs of various technology devices.
Wikipedia contributors. "FOUPs", "Integrated Circuits", "Photolithography", "Semiconductor Devices", "Semiconductor Device Fabrication", " Silicon". Wikipedia, The Free Encyclopedia. Wikipedia, The Free Encyclopedia, Visited May 13nd 2024
Internet References:
Tool Model reference images acquired from: https://www.appliedmaterials.c....om/il/en/semiconduct
https://www.tel.com/product/al....l/index.html#localna
Textbooks:
Handbook of Semiconductor Manufacturing Technology By Robert Doering and Yoshio Nishi
Microchip Fabrication: A Practical Guide to Semiconductor Processing. Peter Van Zant
Semiconductor Microchips and Fabrication: A Practical Guide to Theory and Manufacturing by Yaguang Lian
Semiconductor Manufacturing Handbook. Second Edition By Hwaiyu Geng
#microchip #manufacturing #cpu
On this feature of the FRAME, we explore the methods behind the construction of the versatile capsule houses.
Do you have a great product to showcase? We can film at your facility! Simply send an email to contact@theframe.one
About FRAME:
When business meets engineering, FRAME is your new source of information.
From designing, Prototyping, building, or even destroying, our daily life is surrounded by processes of all kinds, each more interesting than the next.
But have you ever wondered what's behind all of this?
In our videos, you will find:
-Explanation and infographics of how things are built, from the most simple pencil to the most complex digging machine.
- Stories behind the world's most successful companies
-Analysis of future trends in the world of industry, exclusive interviews with industrial specialists, and many more !
We publish four videos a week. Make sure to subscribe to the FRAME YouTube channel to catch us on our next episode.
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Watch How are BILLIONS of MICROCHIPS made from SAND? | How are SILICON WAFERS made?
Microchips are the brains behind almost everything we use in our increasingly electronic world.
Here's how they are engineered.
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Behind Every Product is a Story - Welcome to our YouTube channel dedicated to showcasing the fascinating process of how things are made! From everyday objects to technological marvels, we bring you behind the scenes to witness the magic of creation.
Our videos take you step-by-step through the mesmerizing processes involved in transforming raw materials into finished products. From the initial design and prototyping stages to the precise machinery and skilled hands that bring ideas to life.
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Nvidia's New Computer Has Released A Terrifying WARNING To ALL Other Computers!
In a world where the laws of physics reign supreme, one company has dared to defy them. Nvidia, the titan of technological innovation, has unleashed a game-changer: an AI chip that not only breaks boundaries but exceeds them. How does this advancement challenge the fundamental principles of physics? And what implications does this hold for the future of artificial intelligence and beyond? Join us on this captivating adventure as we unveil Nvidia's breakthrough AI Chip that defies physics.
Only four companies worldwide have achieved a staggering market value of over $2 trillion: Microsoft, Apple, Alphabet - Google's parent company, and the computer chip manufacturer Nvidia. Based in California, Nvidia's stock market value skyrocketed from $1 trillion to $2 trillion in just eight months. This surge was fueled by the relentless demand for its cutting-edge technology, which powers today's artificial intelligence revolution. It's intriguing how a company established in 1993 to enhance video game graphics transformed into a 21st-century AI powerhouse. In March 2022, Nvidia introduced the Hopper architecture, specially designed for data centers to power AI accelerators. The release of Hopper generated immense excitement in the AI community, and demand for these products soared during the AI frenzy of 2023. Due to shortages and overwhelming demand, customers faced a waiting period of 36 to 52 weeks for H100-based servers to be delivered after ordering. Remarkably, in the third quarter of 2023 alone, Nvidia reportedly sold a staggering 500,000 Hopper-based H100 accelerators. Nvidia's unrivaled position in the AI market with its Hopper products played a pivotal role in the company's market capitalization.
