set PROD; # products
param T > 0; # number of weeks
param rate {PROD} > 0; # tons per hour produced
param inv0 {PROD} >= 0; # initial inventory
param commit {PROD,1..T} >= 0; # minimum tons sold in week
param market {PROD,1..T} >= 0; # limit on tons sold in week
param avail_min {1..T} >= 0; # unpenalized hours available
param avail_max {t in 1..T} >= avail_min[t]; # total hours avail
param time_penalty {1..T} > 0;
param prodcost {PROD} >= 0; # cost/ton produced
param invcost {PROD} >= 0; # carrying cost/ton of inventory
param revenue {PROD,1..T} >= 0; # revenue/ton sold
var Make {PROD,1..T} >= 0; # tons produced
var Inv {PROD,0..T}; # tons inventoried
var Sell {p in PROD, t in 1..T}
>= commit[p,t], <= market[p,t]; # tons sold
var Use {t in 1..T} >= 0, <= avail_max[t]; # hours used
maximize total_profit:
sum {p in PROD, t in 1..T} (revenue[p,t]*Sell[p,t] -
prodcost[p]*Make[p,t] - invcost[p]*Inv[p,t])
- sum {t in 1..T} <> Use[t];
# Objective: total revenue less costs in all weeks
subject to time {t in 1..T}:
sum {p in PROD} (1/rate[p]) * Make[p,t] = Use[t];
# Total of hours used by all products
# may not exceed hours available, in each week
subject to initial {p in PROD}: Inv[p,0] = inv0[p];
# Initial inventory must equal given value
subject to balance {p in PROD, t in 1..T}:
Make[p,t] + Inv[p,t-1] = Sell[p,t] + Inv[p,t];
# Tons produced and taken from inventory
# must equal tons sold and put into inventory