-- | This module provides backward compatibility with older versions -- of the newsynth package. Formerly, it contained an implementation of -- the single-qubit Clifford+/T/ approximation algorithm of -- -- * Peter Selinger. Efficient Clifford+/T/ approximation of -- single-qubit operators. . -- -- Since the new algorithm in "Quantum.Synthesis.GridSynth" is better -- in all cases, we now simply provide a compatible interface to that -- algorithm. -- -- New software should not use this module, and it may eventually be -- removed. module Quantum.Synthesis.Newsynth where import Quantum.Synthesis.Ring import Quantum.Synthesis.SymReal import Quantum.Synthesis.Matrix import Quantum.Synthesis.CliffordT import Quantum.Synthesis.GridSynth import System.Random -- | Backward compatible interface to the approximate synthesis -- algorithm. The parameters are: -- -- * an angle θ, to implement a /R/[sub /z/](θ) = [exp −/i/θ/Z/\/2] -- gate; -- -- * a precision /b/ ≥ 0 in bits, such that ε = 2[sup -/b/]; -- -- * a source of randomness /g/. -- -- Output a unitary operator in the Clifford+/T/ group that -- approximates /R/[sub /z/](θ) to within ε in the operator norm. This -- operator can then be converted to a list of gates with -- 'to_gates'. -- -- Note: the argument /theta/ is given as a symbolic real number. It -- will automatically be expanded to as many digits as are necessary -- for the internal calculation. In this way, the caller can specify, -- e.g., an angle of 'pi'\/128 @::@ 'SymReal', without having to worry -- about how many digits of π to specify. newsynth :: (RandomGen g) => Double -> SymReal -> g -> U2 DOmega newsynth prec theta g = gridsynth g prec theta 25 -- | A version of 'newsynth' that also returns some statistics: -- log[sub 0.1] of the actual approximation error (or 'Nothing' if the -- error is 0), and the number of candidates tried. newsynth_stats :: (RandomGen g) => Double -> SymReal -> g -> (U2 DOmega, Maybe Double, Integer) newsynth_stats prec theta g = (op, err_d, n) where (op, err_b, cinfo) = gridsynth_stats g prec theta 25 err_d = case err_b of Nothing -> Nothing Just b -> Just (b * logBase 10 2) n = fromIntegral (length cinfo) -- | A version of 'newsynth' that returns a list of gates instead of a -- matrix. The inputs are the same as for 'newsynth'. -- -- Note: the list of gates will be returned in right-to-left order, -- i.e., as in the mathematical notation for matrix multiplication. -- This is the opposite of the quantum circuit notation. newsynth_gates :: (RandomGen g) => Double -> SymReal -> g -> [Gate] newsynth_gates prec theta g = gridsynth_gates g prec theta 25