Description: This document presents a brief tutorial/overview of QCF, then shows how it can be used to simulate the well-known algorithms of Deutsch, Deutch-Jozsa, and Grover.
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qcf\bin2vec.m
...\build_u.m
...\dec2vec.m
...\dj_b0.m
...\dj_b1.m
...\dj_c0.m
...\dj_c1.m
...\f.m
...\f_b0.m
...\f_b1.m
...\f_c0.m
...\f_c1.m
...\genghz.m
...\grover.m
...\hadamard.m
...\haystack.m
...\ia.m
...\identity.m
...\inv_avg.m
...\iplot.m
...\iseven.m
...\measure.m
...\pretty.m
...\q.m
...\qft.m
...\qimage.m
...\renormalise.m
...\struct2vec.m
...\uf.m
...\vec2struct.m
...\vf.m
...\cf_assert.m
...\cf_approx.m
...\cf_rescale.m
...\deutsch.m
...\hs_err_pid2056.log
...\deutsch_jozsa.m
...\measure_subspace.m
...\QCF for Matlab.doc
qcf