首页
网站开发
桌面应用
管理软件
微信开发
App开发
嵌入式软件
工具软件
数据采集与分析
其他
首页
>
> 详细
代写program、代做c/c++编程设计
项目预算:
开发周期:
发布时间:
要求地区:
2024.1 Multicore Computing, Project #3
(Due : 11:59pm, May 26)
Submission Rule
1. Create a directory {studentID#}_proj3 (example: 20203601_proj2). In the directory, create
subdirectories ‘prob1’ and ‘prob2’.
2.a For problem 1, write (i)’C with OpenMP’ source code prob1.c, and (ii)a document that reports
the parallel performance of your code into the directory "prob1". Insert the files (i), and (ii)
into the subdirectory ‘prob1’.
2.b For problem 2, write (i) ‘C with OpenMP’ source code prob2.c , and (ii) a document that
reports the parallel performance of your code. Insert (i) and (ii) into the subdirectory ‘prob2’.
2.c For problem 3, insert demo video files (.mp4) into the directory {studentID#}_proj3.
3. zip the directory {studentID#}_proj3 and submit the zip file into eClass homework board.
※ If possible, use quad-core/hexa-core/octa-core CPU (or CPU with more cores) rather than dual-core CPU for
your experimentation, which will better show the performance gains of the parallelism.
[Problem 1] In project 1, we looked at the JAVA program that computes the number of ‘prime numbers’ between 1
and 200000. The parallel implementation of a static approach based on bad work decomposition (i.e. just dividing
the entire range of the numbers into k consecutive sub-ranges, where k is the number of threads) may not give
satisfactory performance because (i) higher ranges have fewer primes and (ii) larger numbers are harder (i.e. taking
longer time) to test whether they are prime or not. Therefore thread workloads may become uneven and hard to
predict. For better performance, we implemented dynamic load balancing approach in project 1 where each thread
takes a number one by one and test whether the number is a prime number.
(i) Write ‘C with OpenMP’ code that computes the number of prime numbers between 1 and 200000. Your program
should take two command line arguments: scheduling type number (1 = “static with default chunk size”, 2 =
“dynamic with default chunk size”, 3 = “static with chunk size 10”, 4 = “dynamic with chunk size 10”), and
number of threads (1, 2, 4, 6, 8, 10, 12, 14, 16) as program input argument. Use schedule(static) ,
schedule(dynamic) , schedule(static, 10) and schedule(dynamic, 10). Your code should print
the execution time as well as the number of the prime numbers between 1 and 200000.
command line execution: > a.out scheduling_type# #_of_thread
execution example> a.out 1 8 <---- this means the program use “schedule(static)” using 8 threads.
(ii) Write a document (in PDF file format) that reports the parallel performance of your code. The graph that shows
the execution time when using 1,2,4,6,8,10,12,14,16 threads. There should be at least four graphs that show the
result of static and dynamic scheduling policies. The document that reports the parallel performance should contain
(a) in what environment (e.g. CPU type, memory size, OS type ...) the experimentation was performed, (b) tables
and graphs that show the execution time (unit:milisecond) for thread number = {1,2,4,6,8,10,12,14,16}. (c) The
document should also contain explanation on the results and why such results can be obtained.
exec time
(unit: ms)
chunk
size
1 2 4 6 8 10 12 14 16
static default
dynamic default
static 10
dynamic 10
performace
(1/exec time)
chunk
size
1 2 4 6 8 10 12 14 16
static default
dynamic default
static 10
dynamic 10[Problem 2] Parallelize prob2.c (see our class webpage project 3 announcement to access prob2.c) using
OpenMP. Your program should take three command line arguments: scheduling type number (1=static, 2=dynamic,
3=guided), chunk size, and number of threads as program input argument. Your code should print the execution time
and the result of PI calculation. Assume the number of steps num_steps = 10000000.
command line execution: > a.out scheduling_type# chunk_size #_of_thread
execution example> a.out 2 4 8 <---- this means dynamic scheduling (chunk size = 4) using 8 threads.
(i) submit the OpenMP source code prob2.c
(ii) Write a document (in PDF file format) that reports the parallel performance of your code. Your report should
contain (a) following tables and graphs that shows information in the tables, and (b) brief explanation and
interpretation on the results (including why such results can be obtained).
execution time
(unit:ms)
chunk
size
1 2 4 6 8 10 12 14 16
static
dynamic 1
guided
static
dynamic 5
guided
static
dynamic 10
guided
static
dynamic 100
guided
performace
(1/exec time)
chunk
size
1 2 4 6 8 10 12 14 16
static
dynamic 1
guided
static
dynamic 5
guided
static
dynamic 10
guided
static
dynamic 100
guided
[Problem 3] Create a demo video file (.mp4 format) that shows compilation and execution of your source files
(prob1.c, prob2.c). The size of the demo video file should be less than 50MB.
软件开发、广告设计客服
QQ:99515681
邮箱:99515681@qq.com
工作时间:8:00-23:00
微信:codinghelp
热点项目
更多
代做 program、代写 c++设计程...
2024-12-23
comp2012j 代写、代做 java 设...
2024-12-23
代做 data 编程、代写 python/...
2024-12-23
代做en.553.413-613 applied s...
2024-12-23
代做steady-state analvsis代做...
2024-12-23
代写photo essay of a deciduo...
2024-12-23
代写gpa analyzer调试c/c++语言
2024-12-23
代做comp 330 (fall 2024): as...
2024-12-23
代写pstat 160a fall 2024 - a...
2024-12-23
代做pstat 160a: stochastic p...
2024-12-23
代做7ssgn110 environmental d...
2024-12-23
代做compsci 4039 programming...
2024-12-23
代做lab exercise 8: dictiona...
2024-12-23
热点标签
mktg2509
csci 2600
38170
lng302
csse3010
phas3226
77938
arch1162
engn4536/engn6536
acx5903
comp151101
phl245
cse12
comp9312
stat3016/6016
phas0038
comp2140
6qqmb312
xjco3011
rest0005
ematm0051
5qqmn219
lubs5062m
eee8155
cege0100
eap033
artd1109
mat246
etc3430
ecmm462
mis102
inft6800
ddes9903
comp6521
comp9517
comp3331/9331
comp4337
comp6008
comp9414
bu.231.790.81
man00150m
csb352h
math1041
eengm4100
isys1002
08
6057cem
mktg3504
mthm036
mtrx1701
mth3241
eeee3086
cmp-7038b
cmp-7000a
ints4010
econ2151
infs5710
fins5516
fin3309
fins5510
gsoe9340
math2007
math2036
soee5010
mark3088
infs3605
elec9714
comp2271
ma214
comp2211
infs3604
600426
sit254
acct3091
bbt405
msin0116
com107/com113
mark5826
sit120
comp9021
eco2101
eeen40700
cs253
ece3114
ecmm447
chns3000
math377
itd102
comp9444
comp(2041|9044)
econ0060
econ7230
mgt001371
ecs-323
cs6250
mgdi60012
mdia2012
comm221001
comm5000
ma1008
engl642
econ241
com333
math367
mis201
nbs-7041x
meek16104
econ2003
comm1190
mbas902
comp-1027
dpst1091
comp7315
eppd1033
m06
ee3025
msci231
bb113/bbs1063
fc709
comp3425
comp9417
econ42915
cb9101
math1102e
chme0017
fc307
mkt60104
5522usst
litr1-uc6201.200
ee1102
cosc2803
math39512
omp9727
int2067/int5051
bsb151
mgt253
fc021
babs2202
mis2002s
phya21
18-213
cege0012
mdia1002
math38032
mech5125
07
cisc102
mgx3110
cs240
11175
fin3020s
eco3420
ictten622
comp9727
cpt111
de114102d
mgm320h5s
bafi1019
math21112
efim20036
mn-3503
fins5568
110.807
bcpm000028
info6030
bma0092
bcpm0054
math20212
ce335
cs365
cenv6141
ftec5580
math2010
ec3450
comm1170
ecmt1010
csci-ua.0480-003
econ12-200
ib3960
ectb60h3f
cs247—assignment
tk3163
ics3u
ib3j80
comp20008
comp9334
eppd1063
acct2343
cct109
isys1055/3412
math350-real
math2014
eec180
stat141b
econ2101
msinm014/msing014/msing014b
fit2004
comp643
bu1002
cm2030
联系我们
- QQ: 9951568
© 2021
www.rj363.com
软件定制开发网!