Reputation
29,815
Next tag badge:
930/1000 score
242/200 answers
Badges
4 56 87
Newest
 Nice Answer
Impact
~983k people reached

Apr
21
answered How can I access the last message which is sent to a processor in MPI?
Apr
17
awarded  Constituent
Apr
17
comment Difference between “linear in” and “proportional to”?
Close-voters - "opinion based?" It may or may not be on-topic, but it's certainly not opinion based.
Apr
17
comment Difference between “linear in” and “proportional to”?
A constant term. y = 5x+3 is linear in x (if x goes from 1 to 2 to 3, y increases by 5 each time), but not proportional to x (if x doubles - increases from 1 to 2 - y does not double.)
Apr
16
revised User Defined Reduction on vector of varying size
added 46 characters in body
Apr
15
revised User Defined Reduction on vector of varying size
added 16 characters in body
Apr
15
revised User Defined Reduction on vector of varying size
added 34 characters in body
Apr
15
revised User Defined Reduction on vector of varying size
deleted 14 characters in body
Apr
15
revised User Defined Reduction on vector of varying size
edited tags
Apr
15
answered User Defined Reduction on vector of varying size
Apr
15
revised User Defined Reduction on vector of varying size
deleted 424 characters in body; edited title
Apr
10
comment Solving a differential equation in python with odeint
This is python 2, right? R and Vi are integers, so Vi/R is an integer division so is 0, and so I is always zero. Make R=1000., Vi=10., and increase your ni. I also feel confident that your default argument for args isn't doing what you want, but that's a different issue.
Apr
7
awarded  Announcer
Apr
7
comment Scatter Matrix Blocks of Different Sizes using MPI
That's a pretty good point. The type creation should be negligible; and if you were doing this often, you could cache the types rather than creating them each time. I'll try to profile this and get a sense where the time is going.
Apr
7
comment Scatter Matrix Blocks of Different Sizes using MPI
I suspect the third method would be best in terms of scaling, eventually, compared to the first, but it would probably need to be running over a lot of processors to win out over the fact that there are two fairly big operations. (And I would expect those two operations to always be more expensive than a single uniform-size scatter). If that's true, the second method would probably have similar performance, and the first might be faster? It's a little difficult to guess, and I confess I didn't get around to do a proper scaling test.
Apr
7
revised Scatter Matrix Blocks of Different Sizes using MPI
deleted 548 characters in body
Apr
7
revised Scatter Matrix Blocks of Different Sizes using MPI
added 3622 characters in body
Apr
7
revised Scatter Matrix Blocks of Different Sizes using MPI
added 468 characters in body
Apr
6
revised Scatter Matrix Blocks of Different Sizes using MPI
added 309 characters in body
Apr
6
revised Scatter Matrix Blocks of Different Sizes using MPI
added 6875 characters in body