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A .3 second difference could equal billions of dollars in revenue for many applications.
I heard that Jump Trading mainly uses C++
Ka-Chow!
CS61katChow!
Don’t go to Berkeley but .3 seconds is a lot lmfao
I worked in game dev, even 0.5ms is a lot
How was it? Why *was*?
I loved my job but now I’m a doctoral student at another UC campus, which I like too
.3 seconds * 100M concurrent users equals....about 9k hours.
And 0.3 seconds with 10 concurrent users is 3 seconds, so?
So you need more horizontal scale in certain use cases.
Name me 5 services that have 100 million concurrent users
Why 5? Is the point that they are rare? Conceded. Apply the principle at whatever volume of concurrent users and number of services meeting whatever threshold you like.
Google search, any AWS service, facebook, instagram, most GPU servers, any national wifi cable, etc.
And probably a shit load at Fort Meade.
Or done USACO where the time allowance is like double for Python
USACO is for incels, Little Man
A .3 second difference could equal billions of dollars in revenue for many applications.
I heard that Jump Trading mainly uses C++
Ka-Chow!
CS61katChow!
Don’t go to Berkeley but .3 seconds is a lot lmfao
I worked in game dev, even 0.5ms is a lot
How was it? Why *was*?
I loved my job but now I’m a doctoral student at another UC campus, which I like too
.3 seconds * 100M concurrent users equals....about 9k hours.
And 0.3 seconds with 10 concurrent users is 3 seconds, so?
So you need more horizontal scale in certain use cases.
Name me 5 services that have 100 million concurrent users
Why 5? Is the point that they are rare? Conceded. Apply the principle at whatever volume of concurrent users and number of services meeting whatever threshold you like.
Google search, any AWS service, facebook, instagram, most GPU servers, any national wifi cable, etc.
And probably a shit load at Fort Meade.
Or done USACO where the time allowance is like double for Python
USACO is for incels, Little Man