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Feel free to correct the grammar mistakes and unidiomatic expressions in my posts.
Feb 12 
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Mathematica running out of memory
You may be interested in this post :D 
May 6 
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Can I take advantage of parallelization to make this piece of code faster?
Though the answer is "not the most general, modular, extendable, effective, nor efficient", no one can ignore your effort, and, 千金市骨, so, +50 :D 
May 5 
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Can I take advantage of parallelization to make this piece of code faster?
It's worth mentioning that this code only works on v0.3, and the @inbounds has also sped up the code. After adding @inbounds to the unparallelized version, the parallelized code doesn't show its advantage unless I use a steps around 100 , I can't understand this behavior very well. Anyway, thanks for your effort!

Apr 29 
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Factorial function works in Python, returns 0 for Julia
I think you forgot to correct the function name in the last sample :) 
Apr 26 
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Can I take advantage of parallelization to make this piece of code faster?
Well, as mentioned in the question, my second sample is just a naive trial. (I don't understand the somewhat… brief corresponding part of the tutorial very well 囧), and it's a pity that SharedArray isn't available for Windows. The sample in the question is in fact a simplified 1D Maxwell's equations solver, when the lists (ez , hy , and there'll be more in 3D cases) get larger, it may takes days to compute.

Apr 23 
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How to set values to the elements of DArray?
@JeremyWall I see several DArray s in the list, but not sure if they are methods supporting what I want to do. (I'm still not so familiar with the syntax of Julia.)

Apr 21 
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How to improve the performance of this piece of code?
And, though I hate to admit it, but when the steps is bigger, Julia beats Mathematica… for steps=10^7 Mathematica takes about 103 seconds while Julia needs only about 19 seconds.

Apr 21 
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How to improve the performance of this piece of code?
In my computer it takes 0.018759438 seconds. Your answer made that part of manual much clearer! 
Apr 21 
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How to improve the performance of this piece of code?
In my computer your optimized code only takes 0.366747729 seconds. Well, strange, I think the manual has suggested us to devectorize the expressions… 
Jan 4 
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Changing the default font for StandardForm I/O from 'New Courier' to 'Consolas'?
What if I want to remove this selfmade style definition? Does it exist in the menu forever? (It doesn't though…) 
Aug 3 
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I'm trying to solve a very simple heat conduction differential equation with NDSolve in Mathematica, but the solution I get is quite strange…
Well, you're right, that is not the place to discuss it, so I'll comment here. I guess you considered my doubt as something refer to the absolute size(here it's 298) of temperature, right? But, in fact, what puzzles me is the relative size, i.e. the tes can't be smaller than the initial and boundary condition, I want to make some supplement with graphs, but my reputation is still under 10 here…@acl 
Jul 30 
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I'm trying to solve a very simple heat conduction differential equation with NDSolve in Mathematica, but the solution I get is quite strange…
Hehe…so…where's the "best place"? We can go there if you don't mind! 
Jul 29 
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I'm trying to solve a very simple heat conduction differential equation with NDSolve in Mathematica, but the solution I get is quite strange…
Well…I'm sorry, my English isn't that good, maybe I just misunderstand you, but…I'm afraid I don't understand what you mean, in fact the numbers in the original equation (such as 2.04988920646734`*^6）are all in terms of SI units, so…what's the meaning of putting the numbers in terms of dimensionless numbers? 
Jul 29 
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I'm trying to solve a very simple heat conduction differential equation with NDSolve in Mathematica, but the solution I get is quite strange…
Er...do you mean what I should do is to turn to (maybe here I should say create? ) a new system of units to make the coefficient of the PDE simpler? It seems useless...: a = NDSolve[{D[tes[t, x], t] == D[tes[t, x], x, x], tes[t, 0] == 298 + 200/6.588910766757118` t, tes[t, 0.01/Sqrt[2.04988920646734 *^6 ]] == 298, tes[0, x] == 298}, {tes[t, x]}, {t, 0, 0.005/6.588910766757118 }, {x, 0, 0.01/Sqrt[2.04988920646734*^6 ]}] Plot[(tes[t, x] /. a) /. t > 0.0005/ 6.588910766757118 , {x, 0, 0.01/Sqrt[2.04988920646734`*^6 ]}, PlotRange > All]

Jul 26 
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How does this deviation come out after I use Evaluate and Plot in Mathematica？
Thank you for your answer about precision! Then, well, after seeing your graph I rechecked mine and sadly found that I misread the coordinate on the graph…… 