Oleg Zabluda's blog
Sunday, February 18, 2018
 
"""
"""
Встречаются два друга:
— Как дела?
— Да вот, основал новый стартап, очень быстро растём, развиваемся.
— Круто! А в чём суть стартапа?
— Я провёл исследование рынка и за счет уберизации предлагаю интимные услуги сильно дешевле.
— Ого, интересно, и какие цены?
— Анал — $100, орал — $50.
— А классический секс?
— Понимаешь, это ж стартап. В общем, я пока один работаю…
"""
https://www.facebook.com/anatolix/posts/10156457224182871?comment_id=10156457353127871
https://www.facebook.com/anatolix/posts/10156457224182871?comment_id=10156457353127871

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TL;DR: Fermi got his 1938 Nobel prize in part for discovery of transuranium elements 93 and 94.
TL;DR: Fermi got his 1938 Nobel prize in part for discovery of transuranium elements 93 and 94. Both discoveries were fake.

Fermi Nobel Prize in Physics 1938
"""
This general pattern that Fermi has found to be the rule when heavy substances are subjected to irradiation by neutrons, took on special interest when applied by him to the last element in the series of elements, viz. uranium, which has rank number 92. Following this process, the first product of disintegration should be an element with 93 positive electric charges and a new element would thus have been found, lying outside the old series. Fermi's researches on uranium made it most probable that a series of new elements could be found, which exist beyond the element up to now held to be the heaviest, namely uranium with rank number 92. Fermi even succeeded in producing two new elements, 93 and 94 in rank number. These new elements he called Ausenium and Hesperium.
"""
https://www.nobelprize.org/nobel_prizes/physics/laureates/1938/press.html

ENRICO FERMI | Artificial radioactivity produced by neutron bombardment
Nobel Lecture, December 12, 1938
"""
We concluded that the carriers were one or more elements of atomic number larger than 92
"""
https://www.nobelprize.org/nobel_prizes/physics/laureates/1938/fermi-lecture.pdf
https://www.nobelprize.org/nobel_prizes/physics/laureates/1938/press.html

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CUB is a flexible library of cooperative threadblock primitives and other utilities for CUDA kernel programming.
CUB is a flexible library of cooperative threadblock primitives and other utilities for CUDA kernel programming.

https://github.com/NVlabs/cub
http://nvlabs.github.io/cub/
https://github.com/NVlabs/cub

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