Trojita, the fastest Email Client - Gmail Setup Guide

 I had recently switched to KDE from Gnome and was looking for an Alternative for Geary. I really liked how fast Geary was and neither Thunderbird nor KMail could act as a replacement for my need(Simple and fast). Before giving up for another Electron app, I gave a try to Trojita and immediately fell in love with its speed. It was blazingly fast to the extent even Geary could never match! This is a simple guide to setup Trojita for Gmail.  Sources: OMG Ubuntu Google Support Overview: You need to make use of App Passwords in Google Account in order to access Trojita through Gmail (The other way is to enable Less Secure App Access which doesn't sound inviting!). App Passwords, in turn, need 2-Factor Authentication turned on. After installing Trojita, you need to setup IMAP servers for Gmail. Turn on 2- Step Verification Set up App Passwords Install Trojita Logging in with Gmail 1. Turn on 2-StepVerification Open your Google Account . In the navigation panel, select Security . Un

Next Generation Of Computers - The Carbon Era


Once upon a time, a geek named Gordon E. Moore (who is now an American businessman and co-founder and Chairman Emeritus of Intel Corporation) observed that the number of transistor in an integrated circuit is doubling of every 18 months and soon people made this as a law called Moore's law.

This Moore's law seemed obvious once the silicon chip's size changed from 'hand size' to 'thumb size' to 'Where's-that-magnifying-glass size'. But in the next decade or thereabouts, silicon is expected to reach a roadblock miniaturization. 


Smaller to much Smaller - The desirable choice:


At some point, we simply will not be Able to make silicon transistors any smallerSo, when they can't make something smaller, they moved on to something that exists as smaller and that smaller thing is carbon (whose radius is about only 62% that of silicon).

While they could have moved on to some brother of silicon in the transistor industry, most notably gallium arsenide, they didn't. Because, in theory, computer chips made ​​from Carbon nanotubes are massively desirable - They would be many times faster than silicon, use less power, and can scale down to just a couple of nanometers. Totally, a 5 to 10 times increase in performance is expected.


The problems faced:

But, this does not come that much easy. To see the Carbon nanotubes and nanowires itself, it takes the most powerful electron microscope. To work with them, it needs electron beam lithography and other not-even-in-science-fiction methods.


But IBM has accomplished something. They had successfully fabricated and evaluated 10,000 carbon nanotube transistors on a single chip by precisely positioning nanotubes on designated sites on a substrate. There's still a lot of work to be done, though.

  • The nanotubes transistors are not close enough like silicon transistors in silicon chips and it has to go a long way to attain it.
  • The present stage of carbon transistors still needs silicon. They use a single silicon wafer as gate to an entire chip of 10,000 transistors. So, every transistor turns on and off at the same time which is not the way it is expected to be.
  • To fix this, the IBMers are currently trying to add electrodes to each carbon nanotubes which is a devil of the Job. Probably, this is the step that keeps IBM from savaging the victory.

If the problem the problems IBM is facing to accomplish this is like hell, the problems the computer programmers will face once they accomplish that will be more than that. Because, as an unsaid part of Moore's law, the problems faced by the computer programmers also doubles every 18 months.

What we can expect?


The first place we’ll expect to see carbon nanotube logic chips is in the high performance space, such as server chips and business transaction machines that need high single-thread performance. 

But, soon they might make their way into our smartphones too. Already Graphene, the single layer of carbon they use to make those tubes, had shaken up the touch industry with their high flexibility and, at the same time, stronger-than-steel properties.

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