Difference between revisions of "Plan Max Manfrin"

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***** 7.7.10
 
***** 7.7.10
 
* Transfer the knowledge and experience on TSP to other problems
 
* Transfer the knowledge and experience on TSP to other problems
 
** Collaboration with Marco Caserta on parallel ACO for Set Covering Problem
** Identify possible problems for which IRIDIA has expertise and state-of-the-art ACO algo as starting points (Scheduling: Blum, QAP: Thomas)
 
 
*** he doesn't use ACO for SCP, but I've helped him anyway to parallelize his own primal-dual algorithm
*** Start from sequential MMASQAP and implement various MPI variants (for each variant test both classical LS and TS-like LS)
 
 
** Collaboration with Daniele Catanzaro on parallel ACO for phylogeny reconstruction
 
*** Start from sequential ACO algorithm and implemented MPI variant
 
**** Sync
 
**** Sync
 
***** Multicolony - fully-connected
 
***** Multicolony - fully-connected
 
****** colony 0 identifies the best colony; best colony broadcast its bsf solution
 
****** colony 0 identifies the best colony; best colony broadcast its bsf solution
 
** Identify possible problems for which IRIDIA has expertise and state-of-the-art ACO algo as starting points (Scheduling: Blum, QAP: Thomas)
******* 1.8.5
 
 
*** QAP: start from sequential MMASQAP and implement various MPI variants (in total we consider 72 algo)
******* 1.9.5
 
  +
**** Factor 1: Connection topology
******* 2.8.5
 
******* 2.9.5
+
***** Multicolony - fully-connected
 
****** colony 0 identifies the best colony; best colony broadcast its bsf solution
******* 3.8.5
 
******* 3.9.5
 
******* 4.8.5
 
******* 4.9.5
 
 
****** colony 0 identifies the best colony and the worst colony; best colony send its bsf solution to worst colony
 
****** colony 0 identifies the best colony and the worst colony; best colony send its bsf solution to worst colony
******* 1.8.5
 
******* 1.9.5
 
******* 2.8.5
 
******* 2.9.5
 
******* 3.8.5
 
******* 3.9.5
 
******* 4.8.5
 
******* 4.9.5
 
 
***** Multicolony - ring
 
***** Multicolony - ring
 
****** unidirectional ring
 
****** unidirectional ring
******* 1.8.5
 
******* 1.9.5
 
******* 2.8.5
 
******* 2.9.5
 
******* 3.8.5
 
******* 3.9.5
 
******* 4.8.5
 
******* 4.9.5
 
 
***** Multicolony - hypercube
 
***** Multicolony - hypercube
 
****** 3D hypercube
 
****** 3D hypercube
  +
**** Factor 2: Communication schema
******* 1.8.5
 
******* 1.9.5
+
***** Sync
  +
****** 1.x.10 (constant gap of 10 iterations)
******* 2.8.5
 
******* 2.9.5
+
****** 2.9.10
******* 3.8.5
+
****** 2.8.10
******* 3.9.5
+
****** 2.7.10
******* 4.8.5
+
****** 2.6.10
******* 4.9.5
+
****** 3.9.10
 
****** 3.8.10
** Collaboration with Marco Caserta on parallel ACO for Set Covering Problem
 
 
****** 3.7.10
*** he doesn't use ACO for SCP, but I've helped him anyway to parallelize his own primal-dual algorithm
 
 
****** 3.6.10
** Collaboration with Daniele Catanzaro on parallel ACO for phylogeny reconstruction
 
  +
**** Factor 3: Local Search
*** Start from sequential ACO algorithm and implemented MPI variant
 
**** Sync
+
***** 2-opt
  +
***** tabu search
***** Multicolony - fully-connected
 
****** colony 0 identifies the best colony; best colony broadcast its bsf solution
 
   
 
==Milestone III: Jul - Sep 2006==
 
==Milestone III: Jul - Sep 2006==
   
   
* Tech Report on extended TSP experiments
+
* Tech Report on TSP and QAP experiments
 
** decision if and how to extend the paper for possible journal article
 
** decision if and how to extend the paper for possible journal article
 
* Literature survey on parallel ACO algorithms (version 3)
 
* Literature survey on parallel ACO algorithms (version 3)
Line 134: Line 116:
 
*** Async (i.e use of the nowait clause)
 
*** Async (i.e use of the nowait clause)
 
* ? Paper on "implicit vs explicit parallelization of ACOTSP"
 
* ? Paper on "implicit vs explicit parallelization of ACOTSP"
 
   
 
==Milestone IV: Oct - Dec 2006==
 
==Milestone IV: Oct - Dec 2006==

Latest revision as of 21:38, 6 July 2006

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
      • 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
  • 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
  • Transfer the knowledge and experience on TSP to other problems
    • 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
    • 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 (in total we consider 72 algo)
        • 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
        • Factor 2: Communication schema
          • Sync
            • 1.x.10 (constant gap of 10 iterations)
            • 2.9.10
            • 2.8.10
            • 2.7.10
            • 2.6.10
            • 3.9.10
            • 3.8.10
            • 3.7.10
            • 3.6.10
        • Factor 3: Local Search
          • 2-opt
          • tabu search

Milestone III: Jul - Sep 2006

  • Tech Report on TSP and QAP 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)
  • ? 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