Coding Games and Programming Challenges to Code Better
Send your feedback or ask for help here!
Created by @BleedingWithin,validated by @Sasso_Stark and @FredericLocquet.
If you have any issues, feel free to ping them.
Hello, how can I more optimize my code to succed last test pls ?
I’m in c# and I used several function with list like .min and .InstanceOf to find the min more faster but it’s not enough
I can show my code if you want.
Guess i am a bit late.
However, if you tried a solution searching for the min in the vector and adding +1 to it, it will run k times, k being the number of tasks to distribute, and this number can be very high.
Maybe some tricks could help your solution work for big k tests, but i suggest to you to find “shortcuts” in the task distribution to avoid doing k runs of your code 
Aaargh! What is Validator 4? 
I think I have a pretty good load balancing algorithm, and I pass all testcases, but I can’t get past Validator 4. Any hints?
Sorry, we can’t give out validators like this
Maybe tell us what are the steps of your algorithm and we will try to help.
P.S.: i suspect a timeout in your solution, because validator 4 has the highest number of servers
1 Like
I created script in python3. In IDE validator 4 did not pass. I gave up to provide better solution and decided to submit code. Then, it turned out all tests passed and I got 100%.
My solution makes use of dictionary holding information how many executors runs 0, 1 … num of jobs. So, in first scenario I create dictionary {0: 1, 1: 1, 2: 1, 3: 0, 4:0, 5:1}.
I do not do any sorting, just O(1) dictionary operations and additions.
After realizing, I can’t just run it k times it really became a challenge.
I figured it out though. (The only one in GoLang, that has shared the code so far )
I basically did, what you would do, if you would run those kind of tasks by hand.
Only had to sort the vector once at the beginning and turned the number of loops down to around .02k in the final Test.
Thank you to the creators.
1 Like
Hi, I wonder whether this puzzle or your solution is related to binary search. I think the right time complexity is O(N log K) or something.
I solved this with binary search with time complexity of O(N log K). I do not do sorting too.
General steps:
- Find
min_loadwith binary search by checking whetherKis enough ( Consider if every server holds jobs more thanmin_load, do you really have that much jobs to distribute ? ). Search range is set to[0, K]. - Distribute them in such a way that every server holds jobs more than
min_load. and find themax_load. - Print
max_load - min_load.
This figure may be helpful when implementing the binary search.
