Plan Max Manfrin
From IridiaWiki
History (past work)
http://iridia.ulb.ac.be/wiki/index.php/History_Max_Manfrin
Plan (future work)
Milestone I: Jan - Mar 2006
- Acquire practical experience in explicit parallelization on ACO algorithms
- Start from sequential ACOTSP and implement various MPI variants
- Sync
- Multicolony - fully-connected
- colony 0 identifies the best colony; best colony broadcast its bsf solution
- colony 0 identifies the best colony and the worst colony; best colony send its bsf solution to worst colony
- Multicolony - ring
- unidirectional ring
- Multicolony - hypercube
- 3D hypercube
- Single colony, multi local search
- Multicolony - fully-connected
- Async
- Multicolony - completly-connected
- colony 0 identifies the best colony; best colony broadcast its bsf solution
- colony 0 identifies the best colony and the worst colony; best colony send its bsf solution to worst colony
- Multicolony - ring
- unidirectional ring
- Multicolony - hypercube
- 3D hypercube
- Multicolony - completly-connected
- Sync
- Start from sequential ACOTSP and implement various MPI variants
- Paper submission to ANTS 2006 of "explicit parallelization of ACOTSP"
- By end of March decision if and how to extend the paper for possible Journal article
- By end of March decision if proceed with MPI version of ILK-H + ACOTSP
- Find the sentence that explain what the PhD thesis is about (what is the contribution of this thesis?)
- 1. Parallelization of ACO on multi-core architectures ?
- 2. Parallelization of ACO on collection of interesting problems?
Milestone II: Apr - Jun 2006
- Development and empirical test of different communication schemes among colonies
The i.a.k identify how often we do communication among colonies. The law used to generate the periods is SQRT[(10)^(i+1)], so i = 1 --> T = 10 i = 2 --> T = 31 i = 3 --> T = 100 i = 4 --> T = 316 i = 5 --> T = 1000 i = 6 --> T = 3162 i = 7 --> T = 10000 i = 8 --> T = 31622 i = 9 --> T = 100000 The jth exchange happens at iteration T * (1 - 0.a^j)/(1 - 0.a) IF (int)[x_j - x_(j-1)] > k x_j = k OTHERWISE
- Start from sequential ACOTSP and implement various MPI variants
- Sync
- Multicolony - ring
- unidirectional ring
- 4.8.10
- 4.9.10
- 5.8.10
- 5.9.10
- 6.8.10
- 6.9.10
- 7.6.10
- 7.7.10
- unidirectional ring
- Multicolony - ring
- Sync
- Transfer the knowledge and experience on TSP to other problems
- Identify possible problems for which IRIDIA has expertise and state-of-the-art ACO algo as starting points (Scheduling: Blum, QAP: Thomas)
- QAP: start from sequential MMASQAP and implement various MPI variants
- Factor 1: Connection topology
- Multicolony - fully-connected
- colony 0 identifies the best colony; best colony broadcast its bsf solution
- colony 0 identifies the best colony and the worst colony; best colony send its bsf solution to worst colony
- Multicolony - ring
- unidirectional ring
- Multicolony - hypercube
- 3D hypercube
- Multicolony - fully-connected
- Factor 2: Communication schema
- Sync
- 1.9.10
- 1.8.10
- 1.7.10
- 1.6.10
- 2.9.10
- 2.8.10
- 2.7.10
- 2.6.10
- 3.9.10
- 3.8.10
- 3.7.10
- 3.6.10
- Sync
- Factor 3: Local Search
- 2-opt
- tabu search
- Factor 1: Connection topology
- QAP: start from sequential MMASQAP and implement various MPI variants
- Collaboration with Marco Caserta on parallel ACO for Set Covering Problem
- he doesn't use ACO for SCP, but I've helped him anyway to parallelize his own primal-dual algorithm
- Collaboration with Daniele Catanzaro on parallel ACO for phylogeny reconstruction
- Start from sequential ACO algorithm and implemented MPI variant
- Sync
- Multicolony - fully-connected
- colony 0 identifies the best colony; best colony broadcast its bsf solution
- Multicolony - fully-connected
- Sync
- Start from sequential ACO algorithm and implemented MPI variant
- Identify possible problems for which IRIDIA has expertise and state-of-the-art ACO algo as starting points (Scheduling: Blum, QAP: Thomas)
Milestone III: Jul - Sep 2006
- Tech Report on extended TSP experiments
- decision if and how to extend the paper for possible journal article
- Literature survey on parallel ACO algorithms (version 3)
- Acquire practical experience in implicit parallelization on ACO algorithms
- Start from sequential ACOTSP and implement various OpenMP variants
- Sync ( i.e. implicit barrier in for directives)
- Async (i.e use of the nowait clause)
- Start from sequential ACOTSP and implement various OpenMP variants
- ? Paper on "implicit vs explicit parallelization of ACOTSP"
Milestone IV: Oct - Dec 2006
Milestone V: Jan - Mar 2007
Milestone VI: Apr - Jun 2007
Milestone VII: Jul - Sep 2007
- Write PhD thesis
Goals
- Investigate the effect of parallelization on Ant Colony Optimization algorithms
- Acquire practical experience in parallelization on ACO algorithms (both explicit and implicit parallelism)
- Implicit parallelism is the new trend (multi core CPUs), not much work has been done on them yet
Things to do
Description | Start date | Deadline | Time required | status |
---|---|---|---|---|
Study OpenMP | Jan 9, 2005 | ongoing process | In progress | |
Implicit parallelization of ACOTSP using OpenMP | - | - | - | Need a compiler |
Parallel ACO survey v3 | Jul 1, 2006 | Aug 31, 2006 |
Weekly planning
Description | Start date | Deadline | Completion date | status | Note |
---|
Seminars participation
Title | Author | Location | Dates |
---|---|---|---|
IRIDIA Optimization meeting | Ch. 4 of the book to present | Apr 27, 2006 |
Events participation
Event | Location | Dates |
---|---|---|
Papers to write
Title | Journal/Conference targeted | Submission deadline |
---|---|---|
A Survey of Parallel ACO algorithms | N.A. | N.A. |
Thread-level parallelization of ACOTSP | N.A. | N.A. |
Referee activities
International journals
Journal | # papers | paper received on | review to submit before |
---|---|---|---|
International conferences
Conference | # papers | paper received on | review to submit before |
---|---|---|---|
IRIDIA chores
Chore | assigned | status |
---|---|---|
Update Dorigo website with Master, DEA, and PhD thesis data | Feb 2, 2006 | done |
Create a Wiki page with list of all the software we have for the Mac with #licenses and where they are installed | Apr 21, 2006 |