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FOCS
2000
IEEE
2000
IEEE
Fast parallel circuits for the quantum Fourier transform
We give new bounds on the circuit complexity of the quantum Fourier transform (QFT). We give an upper bound of Ç´ÐÓ Ò · ÐÓ ÐÓ ´½ µµ on the circuit depth for computing an approximation of the QFT with respect to the modulus ¾Ò with error bounded by . Thus, even for exponentially small error, our circuits have depth Ç´ÐÓ Òµ. The best previous depth bound was Ç´Òµ, even for approximations with constant error. Moreover, our circuits have size Ç´ÒÐÓ ´Ò µµ. As an application of this depth bound, we show that Shor’s factoring algorithm may be based on quantum circuits with depth only Ç´ÐÓ Òµ and polynomial size, in combination with classical polynomial-time pre- and postprocessing. Next, we prove an ª´ÐÓ Òµ lower bound on the depth complexity of approximations of the QFT with constant error. This implies that the above upper bound is asymptotically tight (for a reasonable range of values of ). We also give an upper bound of Ç´Ò´ÐÓ Òµ¾...
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| Added | 31 Jul 2010 |
| Updated | 31 Jul 2010 |
| Type | Conference |
| Year | 2000 |
| Where | FOCS |
| Authors | Richard Cleve, John Watrous |
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