I applied through college or university. The process took 2 months. I interviewed at Microsoft in Oct 2018
Interview
I got a phone interview by talking to a recruiter at my schools career fair. It was 30 minutes long, but it somehow felt shorter (and a tad impersonal, though the lady was outwardly friendly). If you've never interviewed before (like me) practice giving fast and concise answers so you're not thrown off. The focus was on behavioral questions, and I was talking to someone who specializes in recruiting. Just keep your audience in mind when answering and try to make your answers show why you stand out.
I applied through their website with a referral, after a month or so they sent me a home exam, I think about a month after that i had 3 interviews in the same day, each one around 1:15 hours.
Interview questions [1]
Question 1
implement a dictionary where you have set,get and setAll, all in O(1)
The hiring process consists of a HackerRank home exam, followed by three technical interviews covering LeetCode-style problems and system architecture. Once this is done, you will have a final HR interview.
Interview questions [1]
Question 1
I had a technical interview where I was asked to solve the classic 'Climbing Stairs' problem (LeetCode #70), which is a dynamic programming question based on the Fibonacci sequence.
I applied through college or university. I interviewed at Microsoft (Haifa) in Jun 2026
Interview
The process started with an online HackerRank assessment. The main coding question involved partitioning an array of server capacities into K contiguous groups while minimizing the maximum group sum. The solution required binary search on the answer combined with a greedy validation function. The assessment focused on algorithms, problem solving, and time complexity analysis.
Interview questions [1]
Question 1
Given an array representing server capacities and an integer K, divide the array into K contiguous groups such that the largest group sum is minimized. Return the minimum possible value of the maximum group sum.