It cannot be directly expressed in the syntax of the type system, but some encoding are possible. One have been proposed for instance in this message on the caml-list https://sympa.inria.fr/sympa/arc/caml-list/2014-06/msg00069.html . Here is the formated content of the answer. By the way, I can't see any reason why this wouldn't be applicable to Haskell.

```
module Unit : sig
type +'a suc
type (+'a, +'b) quantity
val of_float : float -> ('a, 'a) quantity
val metre : ('a, 'a suc) quantity
val mul : ('a, 'b) quantity -> ('b, 'c) quantity -> ('a, 'c) quantity
val add : ('a, 'b) quantity -> ('a, 'b) quantity -> ('a, 'b) quantity
val neg : ('a, 'b) quantity -> ('a, 'b) quantity
val inv : ('a, 'b) quantity -> ('b, 'a) quantity
end = struct
type 'a suc = unit
type ('a, 'b) quantity = float
let of_float x = x
let metre = 1.
let mul x y = x *. y
let add x y = x +. y
let neg x = 0. -. x
let inv x = 1. /. x
end
```

This successfully tracks the dimension of quatities:

```
# open Unit;;
# let m10 = mul (of_float 10.) metre;;
val m10 : ('a, 'a Unit.suc) Unit.quantity = <abstr>
# let sum = add m10 m10;;
val sum : ('a, 'a Unit.suc) Unit.quantity = <abstr>
# let sq = mul m10 m10;;
val sq : ('a, 'a Unit.suc Unit.suc) Unit.quantity = <abstr>
# let cube = mul m10 (mul m10 m10);;
val cube : ('a, 'a Unit.suc Unit.suc Unit.suc) Unit.quantity = <abstr>
# let _ = add (mul sq (inv cube)) (inv m10);;
- : ('a Unit.suc, 'a) Unit.quantity = <abstr>
```

and it will give errors if they are used incorrectly:

```
# let _ = add sq cube;;
Characters 15-19:
let _ = add sq cube;;
^^^^
Error: This expression has type
('a, 'a Unit.suc Unit.suc Unit.suc) Unit.quantity
but an expression was expected of type
('a, 'a Unit.suc Unit.suc) Unit.quantity
The type variable 'a occurs inside 'a Unit.suc
# let _ = add m10 (mul m10 m10);;
Characters 16-29:
let _ = add m10 (mul m10 m10);;
^^^^^^^^^^^^^
Error: This expression has type ('a, 'a Unit.suc Unit.suc) Unit.quantity
but an expression was expected of type ('a, 'a Unit.suc)
Unit.quantity
The type variable 'a occurs inside 'a Unit.suc
```

However, it will infer too restrictive types for some things:

```
# let sq x = mul x x;;
val sq : ('a, 'a) Unit.quantity -> ('a, 'a) Unit.quantity = <fun>
```

`type ('a,'b) per`

and`type 'a measure = { v : float };`

and`let (</>) (a : 'a measure) (b : 'b measure) : (('a,'b) per) measure = {a.v /. b.v}`

But you'll have issues with multiplication and associativity, that I assume F# takes care of. – nlucaroni Feb 4 '14 at 15:13