World of Seven - CS3233 - Competitive Programming

Introduction

This module aims to prepare students in competitive problem solving.

It will benefit NUS students who want to compete in ICPC, invited high school students who want to compete in IOI (not just for NOI), and NUS students in general who aspire to excel in technical interviews of top IT companies, especially NUS current (2019/20 + 20/21 - sponsorship frozen due to COVID-19 cancelling/postponing most ICPC-related events) ICPC donors: Indeed Singapore, Sea Group, SenseTime, Jump Trading, Citadel | Citadel Securities, HRT, DRW.

It covers techniques for attacking and solving challenging* computational problems. Fundamental algorithmic solving techniques covered include complete search, divide/reduce/transform and conquer, greedy, dynamic programming, etc. Domain specific techniques like graph, mathematics-related, string processing, and computational geometry will also be covered. Some additional topics may be included depending on how the semester progresses. Programming language libraries that are commonly used in problem solving will also be taught.

*We only study well-known/solved problems, not research problems.

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Course Registration

The quota of this class (Sem 2 AY2020/21) is ... technically only limited by the REDUCED size of COM1-B-PL2 (46 fast Acer Nitro laptops) but I can only have 15 students onsite at PL2 reduced capacity... but not that many NUS students are eligible (or dare enough) to take this extremely competitive module. In recent years, only ~20 NUS students were enrolled and only a few (10 out of 189) are female...

Useful information to help you decide on whether you should offline register for CS3233:

Do you have national (but preferably international) programming competition background before? Examples: NOI (or IDN OSN, VNM VNOI, CHN NOIP, MYS MCO, PHL NOI, IND ICO, etc), IOI (especially IOI 2020 (Online Competition) hosted by Singapore), ICPC (especially ICPC Asia Singapore Regional Contest 2015/2018), Google Code Jam, Facebook Hacker Cup, CodeForces rated rounds, Topcoder Open, etc?

The difficulty of this course is very extreme for those without such background... but typically those that satisfy the next requirement (see question 2) can survive just as well... We will study problems that require (advanced) data structure and/or algorithms that are typically asked in programming competitions, and we have to implement those solutions fast and without bug...
Did you score well (at least A-) in CS2010/CS2040/C/S or equivalent (and preferably score A+ in all CS1101S+CS2020 (senior batch) or CS1010+CS1020+CS2010 (senior batch) or CS1010/CS1101S+CS2030+CS2040 (current batch))?

This module has a very high performance bar and the average CAP of the students enrolled in the past ten academic years excluding last AY (cannot track anymore) were 4.57 , 4.78 (remember, year 1 nowadays have much more S/U options) , 4.3+ (not tracked, I didn't survey that AY) , 4.33, 4.44, 4.43, 4.45, and 4.30 (out of 5.00), respectively. You will need special permission from the instructor (Dr Steven Halim) if you do not satisfy the pre-requisites listed above (the filter is there for your own good).
Are you OK to be tortured for one semester for a mere 4 modular credits (your other modules may also suffer)?

You may have to take lighter set of other modules or be ready to S/U other modules or to rush course project submissions (for project-based modules that have STePS on Wednesday night of Week 13 — no longer clash with CS3233 Monday night classes) or to rush final assessment preparations for other modules only during study week (no final assessment for CS3233). Please do NOT take CS3233 module with another module that is known to be challenging/demanding (e.g., the 5 MC CS3217 in Sem2, among others) unless you are very confident of yourself and have historical academic performance to back that up. Moreover, your ego may be hurt if some of the young NOI trainees (Sec2-JC2 students) beat you in (many) CS3233 contests (probably they still join online only due to COVID-19). Try to ask CS3233 seniors who have taken (and survived) this module before applying, read their public stories, e.g., Lim Jay Ching (exchange from University of Waterloo), or read several NUSWhispers related posts about CS3233!
Are you thinking on applying to top (or emerging) IT companies like NUS current (2019/20 and 20/21) ICPC donors: Indeed Singapore, Sea Group, SenseTime, Jump Trading, Citadel | Citadel Securities, HRT, DRW; or other large IT companies like Google, Facebook, Microsoft, Dropbox, etc in the future?

Some of our ex-CS3233 graduates are now in those companies :). See the CS3233 Hall of Fame to see the current known status of CS3233 past top students. Since a few AYs ago, many of these company (HR) reps will visit some of our (mini) contests and give prizes and/or recruitment talks which may be (much) faster than normal application route... Some seniors have cited that this direct connections with top IT companies is actually one of the nicest features of CS3233...
Can you code in C++ (primary language), Java (second choice), and/or Python (third choice)?

We will use C++ (17), Java (11), and Python (3) in CS3233 S2 AY2019/20. In this course, we are expecting students to be multi-lingual :O. Although a few ex-students had survived CS3233 with only Java (nobody survived with only Python), they struggled more compared to those who are well versed in C++ (fastest programming language for programming competitions). Since AY 2018/19, Python (3) has been used and has given some advantage at certain problems for students who master this language. However, Python code is usually slow (albeit usually also shorter). An algorithm written in Python may get TLE while the same algorithm written in C++/Java pass the time limit.

Do you want to learn interesting data structures, algorithms, (other programming language especially if C++ is not your primary language) and more importantly: On how to apply them properly — from teaching staffs who are deeply involved in such programming competitions?

(Senior) Lecturer: Dr Steven Halim, current Singapore IOI team leader, Deputy Director for IOI 2020 in Singapore, NUS ICPC coach, ICPC Asia Singapore Regional Contest Director, the author of Competitive Programming text book (the official text book of this module, we will use CP4 Book 1 and Book 2).

Rating (out of 5.0, SoC avg ~4.1)	Jan-Apr 2020 (n=12)	Jan-Apr 2019 (n=22)	Jan-Apr 2018 (n=21)	Jan-Apr 2017 (n=16)	Jan-Apr 2016 (n=20)	Jan-Apr 2015 (n=22)	Jan-Apr 2014 (n=19)
Module feedback	4.9 (PB) ▲	4.6 ▼	4.8 ==	4.8 ▲	4.563 ▼	4.733 ▲	4.455 ▼
Module difficulty	4.2 ▼	4.3	4.1	4.3	4.563 :O	4.067	3.909
Steven's teaching	4.9 (PB) ▲	4.5 ▼	4.8 ==	4.8 ▲	4.603 ▼	4.863 ▲	4.548 ▲

Qualified Teaching Assistants:

Robin Christopher Yu (confirmed) a.k.a. robinyu (Philippines first Bronze medalist (2x), then Philippines first Silver medalist, and currently an NUS ICPC team member: team 3Sophonomore, 3rd place in ICPC Jakarta 2018).

Nguyen Dinh Quang Minh (TBC again) a.k.a. MoFK (Vietnam NOI, ICPC World Finalist 2018 (rank joint-14th place out of 140 teams), and currently an NUS ICPC team member: team MLG, Champion in ICPC Jakarta 2019)

Usually, CS3233 TAs have teaching feedback rating of around ~4.5 too (i.e., very good).
Both TAs will be mostly available in NUS ICPC Lab (COM1-02-15), especially every Monday, 3.45-5.30pm to answer any CS3233/Competitive Programming queries, if any (or e-consultations via Zoom if necessary).

Are you OK to have your coding style 'somewhat damaged' because of this course?

Known damages are (illustrations are in C++), but not limited to:
1. One character variable names (why type more than necessary), e.g., int i,j,k,l,u,v,w; (PS: i,j,k,l for up to 4-nested loop counter variables and u,v,w for reading directed edge (u → v) with weight w)
2. Putting all those variables as global variables (so that you never have to pass them as function parameter(s), especially the heavy ones like multi-dimensional arrays — to reduce 'out of stack space'/'stack overflow' issue)
3. Intentional memory wastage by declaring big arrays as global variable (usually DP table) as big (or slightly bigger) as the problem statement says, e.g., int memo[1000][1000][2]; although we may only use parts of it on many smaller test cases
4. If local (loop) variables are needed, use for-loop's initialization part (why waste additional lineS), e.g., for (int i=0,ans=0,flag=1;i<N;++i){...}
5. Using autos everywhere and let the compiler do the variable type deduction work, e.g., for (auto &[v,w]:AL[u]){...}
6. No comment (compiler doesn't need that to compile your code and you won't read your own code after end of contest/max 5 hours, so why write comments?)
7. No function other than int main() unless you need to write a recursive function (your compiler just need this to run your code!)
8. No space unless absolutely necessary (your compiler understands that :O), e.g., for(sum=i=0;i<N;++i)sum+=(A[i]>0?A[i]:0);
9. One-liner-ing selection/repetition command/body if they are short, e.g., if (x>0) ++y,++z;, for (int i=0,j=1;i<N;++i,j*=2) or while (scanf("%d",&N),N){...} (yes, you can use commaS)
10. Use (uhuk... nested...) ternary operation (condition)?(if_true):(if_false); as far as possible if that helps you to one-liner several standard if-elseif-else lines...
11. Inlining (and one-liner-ing) short functions like inline inside(int r,int c){return r>=0&&r<R&&c>=0&&c<C;} for slightly faster speed
12. As we want to shorten SLOC as far as possible, obviously we do not need to use blank line to separate logical blocks of code
13. Excessive usage of constants/macros and typedefs, e.g., const int INF=1e9; const int MOD=1e9+7; typedef long long ll; typedef tuple<int,int,int> iii;
14. Use bitmask operations whenever possible, e.g., printf("%d\n", __builtin_popcount(m));
15. Including all libraries upfront, much more than possibly necessary, to avoid silly compilation errors albeit (slightly) increase compilation time, e.g., #include <bits/stdc++.h>
16. 'Hack' C++ STL defaults to suit our needs, e.g., inserting negated input integers into priority_queue<int> pq; to make it into a Min-PQ instead of default Max-PQ (instead of definining our own comparison function)
17. Intentional memory leaks, e.g., instead of wasting runtime 'free'ing deleted vertices in a pointer based segment tree, we just re-initialize a new segment tree for another test case (especially after seeing memory limit = 2GB, for example)
18. On some rare occassions, we use the 'forbidden' goto statement...
19. Using C++ operator shortcuts as far as possible, e.g., ++i; i*=2; i%=7;
20. using namespace std (as there is no other namespace to consider in a short C++ program)
21. And many scary stuffs that are hated by SE purists, e.g., fellow SE professors in SoC Prof Ben, Prof Damith, et al...
Fortunately, it is known that past CP-ers can somehow undo these damages to return back to normal SE practices, e.g., this one (so don't worry my fellow SoC SE colleagues :).

If you have read all (scary) questions above and are still interested, simply notify Steven for offline registration before round 3B (the last day of application). The offline registration will be closed as soon as the number of students hits 15 accepted NUS students (the current hard limit of the reduced capacity of PL2). This time we will *NOT* be joined ONSITE by about ~20 SG high school students but some of them may join online due to COVID-19 restrictions. To minimize the annual attrition rate on Week 02 (Drop without penalty) and also :O on Recess Week (Drop with a 'W' grade, it happens!), the pre-acceptance selection will be made reasonably rigorous, i.e., by showing Steven that the applicant can score at least 500.0 Kattis points by Thursday, 31 December 2020, 23.59.

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News

Date	News

Class Candidates for S2 AY2020/21

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No	Flag	Name	Course/Year	Qualified?	Kattis points, rank (23 Nov 20)	Remarks
1	SGP	Lim Yong Shen, Kevin	COM/3	Yes, if decide to take	1500.6	3x CS2040/S TA
2	SGP	Ho Kai Lun	ENG/3	probably soon	310.1	doing well in CS4234 S1 AY20/21
3	CHN	Lin Geyu	COM/2	Not yet	0.0	-
98	SGP	Zhang Guangxuan (admin only+[R])	COM/1	Yes	75.2	SGP IOI Silver 17, NUS ICPC 2020
99	SGP	Clarence Chew Xuan Da (admin only+[R])	FOS/1	Yes	777.6	SGP IOI Silver 16, NUS ICPC 2020

Lesson Plan

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Week	Self Reading from CP4 before class (Flipped Classroom)	Homework (Mon, 10.00am)	Contest + Debrief (Mon, 5.50-7.05-7.35pm, PL2)	Class Topics (Mon, 7.50-9.20pm, PL2)
Past classes more than one week ago are hidden so that we can focus on the current and future classes, but you can restore them by clicking 'Show Past' button above
-06/-05/ -04/-03/ -02/-01	As many pages from CP1/2/3/3.17a/b/3.18a/b/3.19a/4.beta/4-1+4-2; At least from preface up to the end of Chapter 4; Note: For the actual semester, you must have a copy of CP4 (both book 1+2) to go through this course successfully	Lots of preparatory work especially for those who do not have competitive programming background yet	No contest yet; But if you are not a multi-lingual programmer yet, pick up both C++11 (and C++17) (main), Python3 (secondary), and Java11 (tertiary) by yourself during holiday time	At home: Set up a (free) Kattis account (open), solve first few easy ≤ 3.0 pointer problems @ Kattis, then use Dec20+early Jan21 holiday (~2-3 weeks) to get ≥ 500.0 points (~250 AC of ~2 pointer problems (first ~3+ pages sorted based on Kattis difficulty ratings :O), use Steven's classification here) in Kattis by Mon, 11 Jan 21, 09:00 (or earlier) to ensure module acceptance, familiarize yourself with Ubuntu 16 (or 18) LTS with GNOME desktop, or self-read the older teaching materials in this public website
01 11 Jan	Preface to Chapter 1 (all pages) plus simple Ad Hoc problems in Chapter 9	Optional Kattis set #00 due Do Kattis set #01 :)	Mock Ad Hoc (after first lecture)	Let's Talk CP Introduction; Brief Course Admins; Focus on delivering some "Wow Moments"; A Bit of C++11/C++17, Python3, Java11, Mock/Preview Contest (not graded, but has high standard)
02 18 Jan	Chapter 2; Focus on Section 2.2, 2.4.3, and 2.4.4; Read the rest of Chapter 2 by yourself Decision to Drop CS3233/R without penalty by Fri, 22 Jan 21 (email UG office for manual drop, cc to Dr Steven Halim; avoid weekend >.<)	HW01 due Kattis set #01 due	Mini 01 "~Linear" Algorithms Money Contest sponsored by [all 7 ICPC donors]	Be A Librarian Mastery of Libraries (C++ STL, Java API, & Python Standard Library); Focus on Bit Manipulation and Binary Indexed (Fenwick) Tree VisuAlgo: bitmask, segmenttree (optional), fenwicktree
03 25 Jan	Chapter 3, 4, 8, and 9; Focus on Section 3.1-2, 4.2.3, 4.4.2-3, 8.1-8.2, 8.6 (some NP-hard/complete problems with complete search solution), 9.3; Read Section 3.3 (DnC) and 3.4 (Greedy) by yourself	HW02 due Solve Mini 01 B/C Kattis set #02 due	Mini 02 Libraries Money Contest sponsored by [all 7 ICPC donors]	Searching for Answers Iterative Techniques (the fancier ones); Recursive Backtracking (bitmask-based, reverse thinking, data compression, etc); State-Space Search (harder form of SSSP, Graph modeling + BFS/Dijkstra's) with Meet in the Middle (Bidirectional Search) VisuAlgo: bitmask, recursion
04 01 Feb	Chapter 3, 4, 5, 6, 8, and 9; Focus on Section 3.5, 4.6.2, 5.4, 5.6, 5.9, 6.5, 8.3, 8.4, 8.6 (some NP-hard/complete problems with DP solution), 9.7, 9.31, and 9.42 Re-Read Section 3.4 (Greedy) by yourself	HW03 due Solve Mini 02 B/C Kattis set #03 due	Mini 03 Complete Search Money Contest sponsored by [all 7 ICPC donors]	The Art of Stenography Dynamic Programming; "Instant" review of CS3230 DP Materials; Focus on relationship between DP and DAG; Discussion of a few non-classic DP examples; Formulating non trivial DP states + transitions VisuAlgo: bitmask, recursion

This lesson plan is from S2 AY2019/20 and will be updated for the S2 AY2020/21 version and to take into account COVID-19 restrictions

Hall of Fame

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This table records the previous top students of CS3233 under Dr Steven Halim (rank 1 up to at most rank 3) of that Academic Year and their current known affiliation as per last contact with Dr Steven Halim.

AY (Iteration)	Rank	Flag and Name	Best ICPC Record	Current Job
2008/09 (1)	1	Ngo Minh Duc	World Finalist 2009 (HM) & 2010 (HM)	Addepar (US)
2008/09 (1)	2	Nguyen Hoanh Tien	World Finalist 2009 (HM) & 2010 (HM)	Microsoft (US)
2009/10 (2)	1	Trinh Tuan Phuong	World Finalist 2012 (HM) & 2013 (joint-48)	Quantcast (SG)
2010/11 (3)	1	Koh Zi Chun	World Finalist 2012 (HM)	Microsoft (US)
2010/11 (3)	2	Harta Wijaya	World Finalist 2012 (HM) & 2013 (joint-48)	Facebook (US)
2011/12 (4)	1	Yang Mansheng	N/A	Dynamic Technology Lab (SG)
2012/13 (5)	1	Nguyen Tan Sy Nguyen	World Finalist 2013 (joint-48) & 2016 (joint-14)	Anduin Transactions (VN)
2013/14 (6)	1	Nathan Azaria	World Finalist 2014 (joint-19) & 2015 (joint-28)	Facebook (US)
2013/14 (6)	2	Jonathan Irvin Gunawan	World Finalist 2014 (joint-19) & 2015 (joint-28)	Google (SG)
2014/15 (7)	1	Stefano Chiesa Suryanto	Fourth place in Regional Asia Singapore 2015	Improbable (UK)
2014/15 (7)	2	Vu Dinh Quang Dat	World Finalist 2015 (joint-28) & 2018 (joint-56)	Dynamic Technology Lab (SG)
2015/16 (8)	1	Nguyen Quang Dung	Tenth place in Regional Asia Phuket+Singapore 2015	Graduated (pls update me)
2015/16 (8)	2	Truong Ngoc Khanh	Twentieth place in Regional Asia Singapore 2015	Sea Group (SG)
2016/17 (9)	1	Tan Jun An	Sixteenth place in Regional Asia Singapore 2018	Google (SG)
2016/17 (9)	2	Agus Sentosa Hermawan	World Finalist 2017 (joint-20)	Sirclo (ID)
2017/18 (10)	1	Robin Christopher Cham Yu	Third place in Regional Asia Jakarta 2018	4th year UG
2017/18 (10)	2	Sergio Vieri	Third place in Regional Asia Jakarta 2018	4th year UG
2017/18 (10)	3	Bay Wei Heng	World Finalist 2019 (joint-62) & 2020 (result TBA)	Graduated (pls update me)
2018/19 (11)	1	Nguyen Dinh Quang Minh	World Finalist 2018 (joint-14)	2nd → 3rd year UG
2018/19 (11)	2	Tran Tan Phat	Champion in Regional Asia Jakarta 2019	3rd year UG
2018/19 (11)	3	Herbert Ilhan Tanujaya	N/A	Graduated (pls update me)
2019/20 (12)	1	Vuong Hoang Long	Sixth place in Regional Asia Jakarta 2018 and Kuala Lumpur 2019	2nd year UG

Scoring Scheme for CS3233 S2 AY20/21 (TBC)

There are two big scoring components: SP(eed) (from live contests, up to 63%) and DI(ligence) (from non-speed-related stuffs, up to 54%).
The theoretical max is therefore 117%, with just 60% needed to secure at least a B+ grade in this extremely competitive module.
The SP(eed) component is further divided into two sub-components: M(ini)C(ontest) (up to 36%) and T(eam)C(ontest) (up to 27%).
The DI(ligence) component is further divided into four sub-components: H(ome)W(ork) (up to 15%), (Problem)Bs (up to 9%), K(attis)S(ets) (up to 12%), and Ac(hievements) (up to 18%).

MC = Weekly Mini Contest (36%)

9 Weekly Mini Contests, three problems in 75 minutes, using Mooshak.
(9 weeks x (3%+0.5%+0.5%)/week = 36%).

very easy/easy/warm-up/1-2 simple CP technique(s): 1%.
medium/last week material, 2%; may have weakened subtask for 1%.
usually very hard and from topics not specifically taught in class (or taught in latter part of the class -- suitable for senior students only), for CS3233R students, bonus 0.5% for CS3233/R students who can get this AC in contest time.

Occasionally (if Steven is not that lazy), we may open problem D (or even E) which is (are) the easier form of problem B/C. We give bonus 0.5% for top 3 in each mini contest. We use strict binary grading (Accepted or not Accepted: Wrong Answer, Time Limit, Memory Limit, Runtime Error, etc) for our contests.

Two Team Contests (27%)

1 Midterm Team Contest (13%+0.5%=13.5%, 13 "original" problems, worth 1.0% each).
1 Final Team Contest (13%+0.5%=13.5%, 13 "original" problems, worth 1.0% each).
Bonus 0.5% for top 3 teams in both team contests.
Team size is three students.
If the class size is not divisible by 3, the last team can have 4 or 5 members.

Weekly Homework (15%)

10 Weekly Homework (10 weeks * 1.5%/week = 15%).
CP4 book 1+2 review + solve certain written exercises + update the lecturer, 1.5%.
Scoring scheme: 0% = no submission, 0.5% = poor, 1% = default score, 1.5% superb.

Problem Bs (9%)

Solve problem B of last week's mini contest at home, on your own pace, by next Mon 05.15pm (closed by the time Robin's consultation hour is over), if you fail to solve it during the live Mini Contest. Simply submit your code to Mooshak, TA will check your last submission @ Mooshak.

Scoring scheme:
0% = not AC in the actual mini contest and not attempted after one more week.
1% = managed to solve problem B during mini contest itself or before deadline.
There is no additional marks for solving problem C at home (for CS3233R students).

Kattis Set (12%)

We use Kattis@NUS for this semester.

Steven selects twelve targeted Kattis problems related to CS3233 topic of that week (that he has solved before). To get 1% per week, student has to solve at least three (of any preferred difficulty level as indicated in Kattis) of the selected problems within the stipulated deadline (Monday night 09:15pm SGT of that week until Monday 05:30pm SGT of the following week). Note that Steven can see all CS3233 class submissions at nus.kattis!

Set #00, Competitive Programming Preview (not graded)
Set #01, Ad Hoc
Set #02, Graph 1 (CS2040/C/S level/Basics: Traversal, MST, etc; CNY period)
Set #03, Data Structures and Libraries
Set #04, Complete Search
Set #05, Dynamic Programming
NUS recess week (nothing is due this week)
Set #06, Graph 2 (CS2040/C/S level++: SSSP)
Set #07, Greedy and Graph 3 (Network Flow)
Set #08, Graph 4 (Graph Matching) and Easier Mathematics
Set #09, NP-hard Problems
Set #10, Harder Mathematics
Set #11, String Processing and BSTA+others
Set #12, Computational Geometry and Other Problem Decomposition

Achievement System of CS3233 (18%)

One star = 1%, most achievements are manual entry:

***** Active in class: Subjective title for student who participated well during various class activities (answering in-lecture questions, asking/answering questions in real life or in our Facebook group, consultations (with Steven/Robin/Ming on Mon 4.00-5.15pm), active in Kattis, etc), awarded by Steven/Robin throughout the semester (max claim: 4 times/student; updated on Week 10: 5 times/student).
*** Surprise us: Managed to surprise the teaching staffs by giving a better/more elegant solution/pinpoint bug in lecture, etc anytime during the semester (max claim: 3 times/student).
* High determination: Objective title for student who always diligently solve (AC) problem B of all 9 weekly contests, be it during contest time or as homework assignment. This achievement will be auto updated by this system at the end of the semester.
* Bookworm: Subjective title for student who diligently study and review CP4 book 1+2 by the end of Week12 (at least 10*1.5% - 0.5% = 14.5% score, i.e., at most one 1.0 with the rest 1.5). This achievement will be manually updated at the end of the semester.
***** Kattis apprentice: Be in top 8 (5% — it is not impossible, e.g., matthewng)/30 (4%)/100 (3% — appear at ranklist page)/175 (2%)/250 (1%) of Kattis ranklist by Sat, 09 May 2020, 23:59 (this achievement will NOT be updated instantly as this will keep changing every week).
*** CodeForces Specialist: Given to student who also join CodeForces contests and attain rating of at least 2200 (Orange color) (3%)/1900 (Violet color) (2%)/1600 (Blue color) (1%) by Sat, 09 May 2020, 23:59 (this achievement will NOT be updated instantly as this will keep changing every week).

CS3233 - Competitive Programming