Well, if I understand your point you are refering to the fact that in many high level programming languages, the language itself is able to dected the most efficient method to do solve some linaer algebra problems, say…
genius!
I looked at the most cited paper between those who cite the paper in object: https://care.diabetesjournals.org/content/25/2/275.short It states: "Mean BGwas determined using area-under-the curve analysis (10)." where…
Google Scholar currently gives many more citations than 75 (424) source: https://scholar.google.com/scholar?hl=it&as_sdt=0%2C5&q=A+Ma...
"A more correct but less sexy slogan for Julia is that it has the best performance/expressiveness tradeoff you have ever seen." This I almost fully agree
In my modest experience the perfect Julia slogan would be: "fast as C, easy as python, but NEVER the two together" All the sentences: "When you’re writing various algorithms, you don’t necessarily want to think about…
Well, if I understand your point you are refering to the fact that in many high level programming languages, the language itself is able to dected the most efficient method to do solve some linaer algebra problems, say…
genius!
I looked at the most cited paper between those who cite the paper in object: https://care.diabetesjournals.org/content/25/2/275.short It states: "Mean BGwas determined using area-under-the curve analysis (10)." where…
Google Scholar currently gives many more citations than 75 (424) source: https://scholar.google.com/scholar?hl=it&as_sdt=0%2C5&q=A+Ma...
"A more correct but less sexy slogan for Julia is that it has the best performance/expressiveness tradeoff you have ever seen." This I almost fully agree
In my modest experience the perfect Julia slogan would be: "fast as C, easy as python, but NEVER the two together" All the sentences: "When you’re writing various algorithms, you don’t necessarily want to think about…