nanometer
US /'nænəˌmi:tə/
・UK /'neɪnəmi:tə/
C2
n. (c./u.)Noun (Countable/Uncountable)One billionth of a meter
Tiny machines are measured in nanometer
Video subtitles
This Is How Huawei Shocked America With a Smartphone
- If you're looking at Samsung's latest Galaxy or, obviously, Apple's iPhone, these devices are going to be based upon chips that are using 3-nanometer technology.
If you're looking at Samsung's latest Galaxy or, obviously, Apple's iPhone, these devices are going to be based upon chips that are using 3-nanometer technology.
- This chip was made with 7-nanometer production,
This chip was made with 7-nanometer production,
iPhone 15/15 Pro Impressions: Not Just USB-C!
- and it's their first three nanometer chip, so it promises some performance and efficiency improvements as a result.
and it's their first three nanometer chip, so it promises some performance and efficiency improvements as a result.
- and it's their first 3-nanometer chip.
and it's their first 3-nanometer chip.
UV light kills viruses. Why isn't it everywhere?
- So this is a far-UV light, predominantly putting out 222 nanometer
So this is a far-UV light, predominantly putting out 222 nanometer
Magnetron sputtering: How does it work?
- Magnetron sputtering sources, or magnetrons in short, are used to produce nanometer-thin layers.
Magnetron sputtering sources, or magnetrons in short, are used to produce nanometer-thin layers.
- Magnetron sputtering sources, or magnetrons in short, are used to produce nanometer thin layers.
Magnetron sputtering sources, or magnetrons in short, are used to produce nanometer thin layers.
Japan's $67B Chip Bet
- In three years time, it's intended there will be an advanced chipmaking foundry on the site, producing cutting edge two nanometer chips.
In three years time, it's intended there will be an advanced chipmaking foundry on the site, producing cutting edge two nanometer chips.
- In three years' time, it's intended there will be an advanced chip-making foundry on this site, producing cutting-edge 2-nanometer chips.
In three years' time, it's intended there will be an advanced chip-making foundry on this site, producing cutting-edge 2-nanometer chips.
Global chip shortage: How microchips became one of the worlds most precious resources
- The cost to build a facility with five nanometer production lines is at least $5.4 billion according to consulting firm McKinsey.
The cost to build a facility with five nanometer production lines is at least $5.4 billion according to consulting firm McKinsey.
- One example of that five nanometer chip is the A 14 bionic Apple says it's the fastest available chip on a smartphone, and it's found in the iPhone 12.
One example of that five nanometer chip is the A 14 bionic Apple says it's the fastest available chip on a smartphone, and it's found in the iPhone 12.
Why Taiwan Makes All The Chips That Beep Boop
- The most advanced chips use 3 nanometer processes, 1 20,000th the width of a strand of human hair, though really, when you get this small, it's more of a marketing term than their actual size.
The most advanced chips use 3 nanometer processes, 1 20,000th the width of a strand of human hair, though really, when you get this small, it's more of a marketing term than their actual size.
- The most advanced chips use 3-nanometer processes—1/20,000th the width of a strand of human hair.
The most advanced chips use 3-nanometer processes—1/20,000th the width of a strand of human hair.
Stanford Nanofabrication Facility: Dry Etching - Introduction (Part 1 of 4)
- So if I go down a nanometer thick, I go sideways a nanometer.
So if I go down a nanometer thick, I go sideways a nanometer.
- So if I go down a nanometer thick I go sideways a nanometer.
So if I go down a nanometer thick I go sideways a nanometer.
How ASML Makes Chips Faster With Its New $400 Million High NA Machine
- But right now, China is really figuring out ways to take things like 7 nanometer, the most advanced nodes that can be done without EUV, and figuring out ways to scale them.
But right now, China is really figuring out ways to take things like 7 nanometer, the most advanced nodes that can be done without EUV, and figuring out ways to scale them.
- But right now, China's really figuring out ways to take things like 7 nanometer, the most advanced nodes that can be done without EUV,
But right now, China's really figuring out ways to take things like 7 nanometer, the most advanced nodes that can be done without EUV,
AMD's 2024 Computex Keynote: Everything Revealed in 12 Minutes
- Turin features 192 cores and 384 threads and has 13 different chiplets built in 3 and 6 nanometer process technology.
Turin features 192 cores and 384 threads and has 13 different chiplets built in 3 and 6 nanometer process technology.
- Turin features 192 cores and 384 threads and has 13 different chiplets built in 3 and 6 nanometer process technology.
Turin features 192 cores and 384 threads and has 13 different chiplets built in 3 and 6 nanometer process technology.