I applied through college or university. The process took 1 day. I interviewed at Amazon (Raipur, Chhattisgarh) in Aug 2019
Interview
There were two rounds. First-round consists of 28 MCQ questions related to DS and programming and 2 coding questions.
The second round was an interview. 1:1 interview, questions were related to BST and time complexities.
It is important to keep discussing your approach with the interviewer and he will help with some tips.
Interview questions [1]
Question 1
Find a pair in BST with a given sum. If not present return -1.
Applied online and received an Online Assessment. It consisted of two LeetCode-style coding problems with a time limit . The process was straightforward and fully automated with no human interaction at this stage.
Interview questions [1]
Question 1
Solve a coding problem involving array manipulation under a timed online assessment
There were 2 rounds- one DSA round and one HR round.
In the first round they asked me a DP + trees question which was of medium to hard difficulty.
In the second round the interviewer asked me about my resume, my projects, some computer fundamental questions.
I applied through college or university. I interviewed at Amazon in May 2026
Interview
This was an On Campus opportunity. First was the Online Assessment, which consisted of 2 questions, solved both. Then they scheduled two rounds of mandatory interviews, both focusing on DSA, Problem Solving, Behavioral Questions and GenAI Fluency,
Interview questions [6]
Question 1
The first question was standard Longest Common Subsequence, interviewers expected me to first explain the brute force solution and then move on to the optimal approach.
"Tell me a time when you worked on a problem which was difficult for you".
"How do you use GenAI in your day to day work?"
"Tell me about a project where you've used GenAI"
Given an array, you can do a merge operation where you merge (or sum) two adjacent equal numbers, remove both the numbers, and replace with the new merged number. For example, [3 1 1] becomes [3 2]. Now you can operate infinite number of times, and you need to return the smallest final array after doing all the possible operations optimally, e.g. for [1 1 1 1] the answer will be [4] and not [1 2 1].
