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Multivariate Minimization

Multivariate minimization

The default multivariate minimizer is multidimensional-minimize, which is a heavily sugared call to the Nelder-Mead minimizer. The function f being minimized is a function of a Clojure vector. The search starts at the given initial point, and proceeds to search for a point that is a local minimum of f.

When the process terminates, the continuation function is called with three arguments. The first is true if the process converged and false if the minimizer gave up. The second is the actual point that the minimizer has found, and the third is the value of the function at that point.

(multidimensional-minimize f initial-point continuation)

Thus, for example, to find a minimum of the function

(defn baz [v]
  (* (foo (ref v 0))
     (bar (ref v 1))))

made from the two polynomials we constructed before, near the point [4 3], we can try:

(multidimensional-minimize baz [4 3] :info? true)
;; {:result [2.99997171081307 2.5312072328438284]
;;  :value 0.42583261986962734
;; :converged? true
;; :iterations 37
;; :fncalls 74}

Indeed, a minimum was found, at about [3 2.53] with value 0.4258.

Of course, we usually need to have more control of the minimizer when searching a large space. ALl minimizers act on functions of Clojure vectors. The simplest minimizer is the Nelder Mead downhill simplex method, a slow but reasonably reliable method.

(nelder-mead f start-pt start-step epsilon maxiter)

We give it a function, a starting point, a measure of the acceptable error, and a maximum number of iterations we want it to try before giving up. It returns a map telling whether it found a minimum, the place and value of the purported minimum, and the number of iterations it performed.

For example, we can allow the algorithm to perturb each point by 0.05 as a starting step, and it will find the minimum after 43 steps:

(nelder-mead baz [4 3] {:simplex-tolerance 0.00001 :nonzer-delta 0.05 :maxiter 100})
;; {:result [3.000001515197215 2.531198812861102]
;;  :value 0.42583261929212135
;;  :converged? true
;;  :iterations 43
;; :fncalls 86}

or we can let it scale each point by a factor of 3, which will allow it to wander off into oblivion:

(nelder-mead baz [4 3]
  {:simplex-tolerance 0.00001 :nonzero-delta 3 :maxiter 100})

;; {:result [-4.440321127041113E10 5.194986411837181]
;;  :value -5.531848706349067E20
;;  :converged? false
;;  :iterations 101
;;  :fncalls 200}

See the documentation for nelder-mead for the full menu of options and an accounting of the available defaults.

The following section describes algorithms that aren’t yet implemented in SICMUtils. If you need these, please file an issue and we can help you get started.

If we know more than just the function to minimize we can use that information to obtain a better minimum faster than with the Nelder-Mead algorithm.

In the Davidon-Fletcher-Powell algorithm, f is a function of a single vector argument that returns a real value to be minimized, g is the vector-valued gradient of f, x0 is a (vector) starting point, and estimate is an estimate of the minimum function value. ftol is the convergence criterion: the search is stopped when the relative change in f falls below ftol or when the maximum number of iterations is exceeded.

The procedure dfp uses Davidon’s line search algorithm, which is efficient and would be the normal choice, but dfp-brent uses Brent’s line search, which is less efficient but more reliable. The procedure bfgs, due to Broyden, Fletcher, Goldfarb, and Shanno, is said to be more immune than dfp to imprecise line search.

(dfp f g x0 estimate ftol maxiter)
(dfp-brent f g x0 estimate ftol maxiter)
(bfgs f g x0 estimate ftol maxiter)

These are all used in the same way:

(dfp baz (compose down->vector (D baz)) #(4 3) .4 .00001 100)
 ;;=> (ok (#(2.9999717563962305 2.5312137271310036) . .4258326204265246) 4)

They all converge very fast, four iterations in this case.

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