clash-prelude-0.99.3: CAES Language for Synchronous Hardware - Prelude library

Copyright(C) 2013-2016 University of Twente
2017 Google Inc.
LicenseBSD2 (see the file LICENSE)
MaintainerChristiaan Baaij <christiaan.baaij@gmail.com>
Safe HaskellSafe
LanguageHaskell2010

Clash.Explicit.Moore

Contents

Description

Whereas the output of a Mealy machine depends on current transition, the output of a Moore machine depends on the previous state.

Moore machines are strictly less expressive, but may impose laxer timing requirements.

Synopsis

Moore machines with explicit clock and reset ports

moore Source #

Arguments

:: Clock domain gated

Clock to synchronize to

-> Reset domain synchronous 
-> (s -> i -> s)

Transfer function in moore machine form: state -> input -> newstate

-> (s -> o)

Output function in moore machine form: state -> output

-> s

Initial state

-> Signal domain i -> Signal domain o

Synchronous sequential function with input and output matching that of the moore machine

Create a synchronous function from a combinational function describing a moore machine

macT
  :: Int        -- Current state
  -> (Int,Int)  -- Input
  -> (Int,Int)  -- Updated state
macT s (x,y) = x * y + s

mac
  :: Clock mac Source
  -> Reset mac Asynchronous
  -> Signal mac (Int, Int)
  -> Signal mac Int
mac clk rst = moore clk rst macT id 0
>>> simulate (mac systemClockGen systemResetGen) [(1,1),(2,2),(3,3),(4,4)]
[0,1,5,14...
...

Synchronous sequential functions can be composed just like their combinational counterpart:

dualMac
  :: Clock domain gated
  -> Reset domain synchronous
  -> (Signal domain Int, Signal domain Int)
  -> (Signal domain Int, Signal domain Int)
  -> Signal domain Int
dualMac clk rst (a,b) (x,y) = s1 + s2
  where
    s1 = moore clk rst mac id 0 (bundle (a,x))
    s2 = moore clk rst mac id 0 (bundle (b,y))

mooreB Source #

Arguments

:: (Bundle i, Bundle o) 
=> Clock domain gated 
-> Reset domain synchronous 
-> (s -> i -> s)

Transfer function in moore machine form: state -> input -> newstate

-> (s -> o)

Output function in moore machine form: state -> output

-> s

Initial state

-> Unbundled domain i -> Unbundled domain o

Synchronous sequential function with input and output matching that of the moore machine

A version of moore that does automatic Bundleing

Given a functions t and o of types:

t :: Int -> (Bool, Int) -> Int
o :: Int -> (Int, Bool)

When we want to make compositions of t and o in g using moore', we have to write:

g clk rst a b c = (b1,b2,i2)
  where
    (i1,b1) = unbundle (moore clk rst t o 0 (bundle (a,b)))
    (i2,b2) = unbundle (moore clk rst t o 3 (bundle (i1,c)))

Using mooreB' however we can write:

g clk rst a b c = (b1,b2,i2)
  where
    (i1,b1) = mooreB clk rst t o 0 (a,b)
    (i2,b2) = mooreB clk rst t o 3 (i1,c)

medvedev :: Clock domain gated -> Reset domain synchronous -> (s -> i -> s) -> s -> Signal domain i -> Signal domain s Source #

Create a synchronous function from a combinational function describing a moore machine without any output logic

medvedevB :: (Bundle i, Bundle s) => Clock domain gated -> Reset domain synchronous -> (s -> i -> s) -> s -> Unbundled domain i -> Unbundled domain s Source #

A version of medvedev that does automatic Bundleing