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COMP 322: Fundamentals of Parallel Programming (Spring

...

2023)

Instructors

Instructor:	Mackale Joyner, DH 2063

Zoran Budimlić, DH 3003

	TAs:

Adrienne Li, Austin Hushower, Claire Xu, Diep Hoang, Hunena Badat, Maki Yu, Mantej Singh, Rose Zhang, Victor Song, Yidi Wang Admin Assistant:Annepha Hurlock, annepha@rice.edu , DH 3122, 713-348-5186

Mohamed Abead, Chase Hartsell, Taha Hasan, Harrison Huang, Jerry Jiang, Jasmine Lee, Michelle Lee, Hung Nguyen, Quang Nguyen, Ryan Ramos, Oscar Reynozo, Delaney Schultz, Tina Wen, Raiyan Zannat, Kailin Zhang
Piazza site:	https://piazza.com/rice/

spring2022

spring2023/comp322 (Piazza is the preferred medium for all course communications)	Cross-listing:	ELEC 323
Lecture location:	Herzstein Amphitheater

(online 1st 2 weeks)

	Lecture times:	MWF 1:00pm - 1:50pm
Lab locations:	Mon (Herzstein Amp), Tue (Keck 100

(online 1st 2 weeks

)	Lab times:	Mon 3:00pm - 3:50pm (

Austin, Claire

Raiyan, Oscar, Mohamed, Ryan, Michelle, Taha)

Wed

Tue 4:

30pm

00pm -

5

4:

20pm

50pm (

Hunena

Tina,

Mantej

Delaney,

Yidi

Chase,

Victor

Hung,

Rose

Jerry,

Adrienne

Kailin,

Diep, Maki

Jasmine)

Course Syllabus

A summary PDF file containing the course syllabus for the course can be found here. Much of the syllabus information is also included below in this course web site, along with some additional details that are not included in the syllabus.

...

Fork-Join Parallelism with a Data-Structures Focus (FJP) by Dan Grossman (Chapter 7 in Topics in Parallel and Distributed Computing)
Java Concurrency in Practice by Brian Goetz with Tim Peierls, Joshua Bloch, Joseph Bowbeer, David Holmes and Doug Lea
Principles of Parallel Programming by Calvin Lin and Lawrence Snyder
The Art of Multiprocessor Programming by Maurice Herlihy and Nir Shavit

Lecture Schedule

...

Week
Day
Date (
2022
2023)
Lecture
Assigned Reading
Assigned Videos (see Canvas site for video links)
In-class Worksheets
Slides
Work Assigned
Work Due
Worksheet Solutions

1
Mon
Jan
10
09
Lecture 1: Introduction


worksheet1 lec1-
slides

slides

WS1-solution


Wed
Jan
12
11
Lecture 2: Functional Programming
GList.java

worksheet2 lec02-slides

WS2-solution


Fri Jan
14
13 Lecture 3: Higher order functions

worksheet3
worksheet3 lec3-slides

lec3-slides

WS3-solution

2
Mon
Jan
17
16
No class: MLK


Wed
Jan
19
18
Lecture 4: Lazy Computation
LazyList.java
Lazy.java

worksheet4 lec4-slides


WS4-solution

Fri
Jan
21
20
Lecture 5: Java Streams

worksheet5 lec5-slides Homework 1

WS5-solution

3 Mon Jan
24
23
Lecture 6: Map Reduce with Java Streams
Module 1: Section 2.4 Topic 2.4 Lecture, Topic 2.4 Demonstration   worksheet6 lec6-slides

WS6-solution


Wed
Jan
26
25
Lecture 7: Futures
Module 1: Section 2.1 Topic 2.1 Lecture , Topic 2.1 Demonstration worksheet7 lec7-slides

WS7-solution


Fri
Jan
28
27
Lecture 8: Async, Finish, Computation Graphs
, Ideal Parallelism
Module 1: Sections 1.
2
1, 1.
3
2 Topic 1.
2
1 Lecture, Topic 1.
2
1 Demonstration, Topic 1.
3
2 Lecture, Topic 1.
3
2 Demonstration worksheet8
lec8
l ec8-slides


WS8-solution

4
Mon

Jan
31
30 Lecture 9:
Async
Ideal Parallelism,
Finish,
Data-Driven Tasks
Module 1: Section 1.
1
3, 4.5

Topic 1.
1
3 Lecture, Topic 1.
1
3 Demonstration, Topic 4.5 Lecture, Topic 4.5 Demonstration
worksheet9
lec9-slides


WS9-solution


Wed Feb
02
01 Lecture 10: Event-based programming model



worksheet10 lec10-slides

Homework 1 WS10-solution


Fri Feb
04
03 Lecture 11: GUI programming
as an example of event-based,
futures/callbacks in GUI programming
, Scheduling/executing computation graphs

Module 1: Section 1.4 Topic 1.4 Lecture , Topic 1.4 Demonstration worksheet11 lec11
  worksheet11lec11
-slides Homework 2
Homework 1

WS11-solution

5
Mon
Feb
07
06
Lecture 12:
Scheduling/executing computation graphs
Abstract performance metrics, Parallel Speedup, Amdahl's Law Module 1: Section 1.
4
5 Topic 1.
4
5 Lecture , Topic 1.
4
5 Demonstration worksheet12 lec12-slides


WS12-solution


Wed
Feb
09
08
Lecture 13:
Parallel Speedup, Critical Path, Amdahl's Law
Accumulation and reduction. Finish accumulators
Module 1: Section
1
2.
5
3
Topic
1
2.
5
3 Lecture
,
Topic
1
2.
5
3 Demonstration
worksheet13 lec13-slides

WS13-solution


Fri
Feb
11
10
No class: Spring Recess




6
Mon
Feb
14
13
Lecture 14:
Accumulation and reduction. Finish accumulators
Data Races, Functional & Structural Determinism
Module 1:
Section
Sections 2.
3
5, 2.6 Topic 2.5 Lecture , Topic 2.5 Demonstration, Topic 2.
3
6 Lecture, Topic 2.
3
6 Demonstration worksheet14 lec14-slides


WS14-solution


Wed
Feb
16
15
Lecture 15:
Recursive Task Parallelism
Limitations of Functional parallelism.
Abstract vs. real performance. Cutoff Strategy

worksheet15 lec15-slides

Homework 2 WS15-solution

Fri
Fri
Feb
18
17
Lecture 16:
Data Races, Functional & Structural DeterminismModule 1: Sections 2.5, 2.6Topic 2.5 Lecture , Topic 2.5 Demonstration, Topic 2.6 Lecture, Topic 2.6 Demonstration
Recursive Task Parallelism

worksheet16 lec16-slides Homework 3
Homework 2

WS16-solution

7
Mon
Feb
21
20
Lecture 17: Midterm Review
   lec17-slides

lec17-slides

Wed
Feb
23  worksheet18
22
Lecture 18:
Limitations of Functional parallelism.
Abstract vs. real performance. Cutoff Strategy
Midterm Review

lec18-slides

WS18-solution

Fri
Feb
25
24
Lecture 19:
Fork/Join programming model. OS Threads. Scheduler Pattern
Data-Parallel Programming model. Loop-Level Parallelism, Loop Chunking
Module 1: Sections
2
3.
7
1, 3.2, 3.
8
3 Topic
2
3.
7
1 Lecture, Topic 3.1 Demonstration , Topic 3.2 Lecture, Topic 3.
7
2 Demonstration, Topic
2
3.
8
3 Lecture,
Topic 2
Topic 3.
8
3 Demonstration
,
worksheet19 lec19-slides

WS19-solution

8
Mon
Feb
28
27
Lecture 20:
Confinement & Monitor Pattern. Critical sections
Global lock
Barrier Synchronization with Phasers
Module
2
1: Sections
5.1, 5.2, 5.6
3.4 Topic
5
3.
1
4 Lecture, Topic
5.1 Demonstration, Topic 5.2 Lecture, Topic 5.2 Demonstration, Topic 5.6 Lecture, Topic 5.6 Demonstration
3.4 Demonstration worksheet20 lec20-slides

Wed

WS20-solution

Wed
Mar
02
01
Lecture 21:
  Atomic variables, Synchronized statements
Module 2: Sections 5.4, 7.2
Topic 5.4 Lecture, Topic 5.4 Demonstration, Topic 7.2 Lecture
Stencil computation. Point-to-point Synchronization with Phasers
Module 1: Sections 4.2, 4.3
Topic 4.2 Lecture, Topic 4.2 Demonstration, Topic 4.3 Lecture, Topic 4.3 Demonstration worksheet21 lec21-slides

WS21-solution

Fri
Mar
04
03
Lecture 22:
Parallel Spanning Tree, other graph algorithms
Fuzzy Barriers with Phasers
Module 1: Section 4.1 Topic 4.1 Lecture, Topic 4.1 Demonstration

worksheet22 lec22-slides
Homework 4
Homework 3

WS22-solution

9
Mon
Mar
07
06
Lecture 23:
Java Threads and LocksModule 2: Sections 7.1, 7.3Topic 7.1 Lecture, Topic 7.3 Lecture
Fork/Join programming model. OS Threads. Scheduler Pattern

Topic 2.7 Lecture, Topic 2.7 Demonstration, Topic 2.8 Lecture, Topic 2.8 Demonstration
worksheet23 lec23-slides

Homework 3 (CP 1)
WS23-solution

Wed
Mar
09
08
Lecture 24:
Java Locks - Soundness and progress guarantees
Confinement & Monitor Pattern. Critical sections
Global lock
Module 2:
7.5
Sections 5.1, 5.2 Topic 5.1 Lecture, Topic 5.1 Demonstration, Topic 5.2 Lecture, Topic 5.2 Demonstration, Topic 5.6 Lecture, Topic 5.6 Demonstration
Topic 7.5 Lecture
worksheet24 lec24-slides


WS24-solution


Fri
Mar
11
10
Lecture 25:
Dining Philosophers Problem
Atomic variables, Synchronized statements Module 2: Sections 5.4, 7.
6Topic 7.6 Lecture
2 Topic 5.4 Lecture, Topic 5.4 Demonstration, Topic 7.2 Lecture worksheet25 lec25-slides

WS25-solution

Mon
Mar
14
13
No class: Spring Break




Wed Mar
16
15 No class: Spring Break




Fri
Mar
18
17
No class: Spring Break




10
Mon
Mar
21
20
Lecture 26:
N-Body problem, applications and implementations
Parallel Spanning Tree, other graph algorithms

worksheet26 lec26-slides


WS26-solution


Wed
Mar
23
22
Lecture 27:
Read-Write Locks, Linearizability of Concurrent Objects
Java Threads and Locks
Module 2: Sections 7.
3
1, 7.
4
3 Topic 7.
3
1 Lecture, Topic 7.
4
3 Lecture worksheet27 lec27-slides

Homework 3 (CP 2) WS27-solution


Fri
Mar
25
24
Lecture 28:
Message-Passing programming model with Actors
Java Locks - Soundness and progress guarantees
Module 2:
6.1, 6.2
Section 7.5 Topic
6.1 Lecture, Topic 6.1 Demonstration, Topic 6.2 Lecture, Topic 6.2 Demonstration
7.5 Lecture worksheet28 lec28-slides

WS28-solution

11
Mon
Mar
28
27
Lecture 29:
Active Object Pattern. Combining Actors with task parallelism
Dining Philosophers Problem
Module 2:
6
Section 7.
3,
6
.4
Topic
6.3 Lecture, Topic 6.3 Demonstration, Topic 6.4 Lecture, Topic 6.4 Demonstration
7.6 Lecture worksheet29 lec29-slides

WS29-solution

Wed
Mar
30
29
Lecture 30: Task Affinity and locality. Memory hierarchy


worksheet30 lec30-slides

Homework 3 (All) WS30-solution

Fri
Apr 01
Mar 31
Lecture 31:
Data-Parallel Programming model. Loop-Level Parallelism, Loop ChunkingModule 1: Sections 3.1, 3.2, 3.3Topic 3.1 Lecture, Topic 3.1 Demonstration , Topic 3.2 Lecture, Topic 3.2 Demonstration, Topic 3.3 Lecture, Topic 3.3 Demonstration
Read-Write Locks, Linearizability of Concurrent Objects
Module 2: Sections 7.3, 7.4 Topic 7.3 Lecture, Topic 7.4 Lecture worksheet31 lec31-slides
Homework 5
Homework 4

WS31-solution

12
Mon
Apr
04
03
Lecture 32:
Barrier Synchronization with PhasersModule 1: Section 3.4Topic 3.4 Lecture, Topic 3.4
Message-Passing programming model with Actors Module 2: Sections 6.1, 6.2 Topic 6.1 Lecture, Topic 6.1 Demonstration, Topic 6.2 Lecture, Topic 6.2 Demonstration worksheet32 lec32-slides

WS32-solution

Wed
Apr
06
05
Lecture 33:
  Stencil computation. Point-to-point Synchronization with PhasersModule 1: Section 4.2, 4.3Topic 4.2 Lecture, Topic 4.2 Demonstration, Topic 4.3 Lecture, Topic 4.3
Active Object Pattern. Combining Actors with task parallelism
Module 2: Sections 6.3, 6.4
Topic 6.3 Lecture, Topic 6.3 Demonstration, Topic 6.4 Lecture, Topic 6.4 Demonstration
worksheet33 lec33-slides

WS33-solution


Fri
Apr
08
07
Lecture 34:
Fuzzy Barriers with PhasersModule 1: Section 4.1Topic 4.1 Lecture, Topic 4.1 Demonstration
N-Body problem, applications and implementations

worksheet34 lec34-slides

WS34-solution
13
Mon
Apr
11
10
Lecture 35:
Scan Pattern. Parallel Prefix Sum
Eureka-style Speculative Task Parallelism

worksheet35 lec35-slides



WS35-solution

Wed Apr
13
12 Lecture 36: Scan Pattern. Parallel Prefix
Sum applications
Sum

worksheet36 lec36-slides


WS36-solution

Fri Apr
15
14 Lecture 37:
Eureka-style Speculative Task Parallelism
Parallel Prefix Sum applications

worksheet37 lec37-slides


14 Mon Apr
18
17 Lecture 38: Overview of other models and frameworks


lec38-slides


Wed Apr
20
19 Lecture 39: Course Review (Lectures 19-38)


lec39-slides


Homework 4

Fri Apr
22
21 Lecture 40: Course Review (Lectures 19-38)


lec40-slides
Homework 5

Lab Schedule

Lab #	Date (

2022

2023)	Topic	Handouts	Examples
1	Jan

10

09

Infrastructure setup

lab0-handout

lab1-handout


-	Jan 16	No lab this week (MLK)
2	Jan

17

23

Functional Programming

lab2-handout

3

Jan 24

Java Streams

lab3-handout
4

	Jan

31

30

Futures

lab45

lab3-handout

4	Feb

07

06	Data-Driven Tasks

lab56

lab4-handout

5	Feb

14

13	Async / Finish

lab6

lab5-handout


-	Feb

217

20	No lab this week (Midterm Exam)

6	Feb

28

27

Loop Parallelism

lab6

Recursive Task Cutoff Strategylab7

-handout

image kernels

8

7	Mar

07

06

Recursive Task Cutoff Strategy

lab7

Java Threadslab8

-handout


-	Mar

14

13	No lab this week (Spring Break)

9


-	Mar

21

20	No lab this week
8	Mar 27	Java Threads	lab8-handout
9	Apr 03	Concurrent Lists	lab9-handout
10	Apr 10	Actors	lab10-handout
-	Apr 17	No lab this week

Concurrent Listslab9-handout 10Mar 28Actorslab10-handout 11

Apr 04

Loop Parallelism

lab11-handout

-

Apr 11

-

Apr 18

Grading, Honor Code Policy, Processes and Procedures

...

Child pages

Versions Compared

Old Version 1915

New Version 2102

Key

COMP 322: Fundamentals of Parallel Programming (Spring

2023)

Course Syllabus

Lecture Schedule

Lab Schedule

Grading, Honor Code Policy, Processes and Procedures

Child pages

Page History

Versions Compared

Old Version 1915

New Version 2102

Key

COMP 322: Fundamentals of Parallel Programming (Spring

2023)

Course Syllabus

Lecture Schedule

Lab Schedule

Grading, Honor Code Policy, Processes and Procedures