FICO Xpress Optimization Examples Repository: Drawing results of multiple optimization runs

This model produces a simple plot of solution values against different amounts for the security reserve, each point of the graph represents the solution to one optimization problem instance.

Further explanation of this example: 'Mosel Language Reference', Chapter 'mmsvg'

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a6electrg.mos

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(!****************************************************** Mosel Example Problems ====================== file a6electrg.mos `````````````````` Production of electricity. Plotting parametrics in the reserve capacity. (c) 2008 Fair Isaac Corporation author: S. Heipcke, Oct. 2004, rev. Sep. 2017 *******************************************************!) model "A-6 Electricity production (with graph drawing)" uses "mmxprs", "mmsvg" declarations NT = 7 TIME = 1..NT ! Time periods TYPES = 1..4 ! Power generator types LEN, DEM: array(TIME) of integer ! Length and demand of time periods PMIN,PMAX: array(TYPES) of integer ! Min. & max output of a generator type CSTART: array(TYPES) of integer ! Start-up cost of a generator CMIN: array(TYPES) of integer ! Hourly cost of gen. at min. output CADD: array(TYPES) of real ! Cost/hour/MW of prod. above min. level AVAIL: array(TYPES) of integer ! Number of generators per type bas: basis ! LP basis start: array(TYPES,TIME) of mpvar ! No. of gen.s started in a period work: array(TYPES,TIME) of mpvar ! No. of gen.s working during a period padd: array(TYPES,TIME) of mpvar ! Production above min. output level end-declarations ! Time period data LEN:: [ 6, 3, 3, 2, 4, 4, 2] DEM:: [12000, 32000, 25000, 36000, 25000, 30000, 18000] ! Power plant data PMIN:: [ 750, 1000, 1200, 1800] PMAX:: [1750, 1500, 2000, 3500] CSTART:: [5000, 1600, 2400, 1200] CMIN:: [2250, 1800, 3750, 4800] CADD:: [ 2.7, 2.2, 1.8, 3.8] AVAIL:: [ 10, 4, 8, 3] ! Objective function: total daily cost Cost:= sum(p in TYPES, t in TIME) (CSTART(p)*start(p,t) + LEN(t)*(CMIN(p)*work(p,t) + CADD(p)*padd(p,t))) ! Number of generators started per period and per type forall(p in TYPES, t in TIME) NumStart(p,t):= start(p,t) >= work(p,t) - if(t>1, work(p,t-1), work(p,NT)) ! Limit on power production above minimum level forall(p in TYPES, t in TIME) Limit(p,t):= padd(p,t) <= (PMAX(p)-PMIN(p))*work(p,t) ! Satisfy demands forall(t in TIME) Demand(t):= sum(p in TYPES) (PMIN(p)*work(p,t) + padd(p,t)) >= DEM(t) ! Security reserve (reserve initially at 0%) forall(t in TIME) Reserve(t):= sum(p in TYPES) PMAX(p)*work(p,t) >= DEM(t) ! Limit number of available generators; numbers of generators are integer forall(p in TYPES, t in TIME) do work(p,t) <= AVAIL(p) work(p,t) is_integer end-do ! Uncomment the following line to see the Optimizer log ! setparam("XPRS_verbose", true) ! Solve as an LP problem and save the basis setparam("XPRS_PRESOLVE", 0) minimize(XPRS_LPSTOP, Cost) savebasis(bas) setparam("XPRS_PRESOLVE", 1) ! Define a user graph svgaddgroup("Graph", "Reserve %") ! Solve the problem with different values of reserve (from 0% to 20%) forall(r in 0..20) do forall(t in TIME) ! Redefine the reserve constraints Reserve(t):= sum(p in TYPES) PMAX(p)*work(p,t) >= (1+r/100)*DEM(t) loadprob(Cost) ! Load problem into the Optimizer loadbasis(bas) ! Load the saved basis minimize(Cost) ! Solve the modified problem writeln(r, "%: ", getobjval) ! Print solution value svgaddpoint("Graph", r, getobjval/1000) ! Display solution in user graph end-do ! Scale the size of the displayed graph svgsetgraphscale(10) svgsetgraphpointsize(3) svgsetgraphlabels("Reserve %", "Cost") svgsave("a6electr.svg") svgrefresh svgwaitclose("Close browser window to terminate model execution.", 1) end-model