SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2897968321> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2897968321 abstract "The success probability of a quantum algorithm constructed from noisy quantum gates cannot be accurately predicted from single-parameter metrics that compare noisy and ideal gates. We illustrate this concept by examining a system with coherent errors and comparing algorithm success rates for different choices of two-qubit gates that are constructed from composite pulse sequences, where the residual gate errors are related by a unitary transformation. As a result, all of the sequences have the same error relative to the ideal gate under any distance measure that is invariant under unitary transformations. However, the circuit success can vary dramatically by choosing error orientations that do not affect the final outcome and error orientations that cancel between conjugate controlled-nots, as demonstrated here with Clifford circuits, compiled Toffoli gates, and quantum simulation algorithms. The results point to the utility of both minimizing the error and optimizing the error direction and also to the advantages of using multiple control sequences for the same gate type within a single algorithm." @default.
W2897968321 created "2018-10-26" @default.
W2897968321 creator A5012733147 @default.
W2897968321 creator A5032691606 @default.
W2897968321 date "2019-03-14" @default.
W2897968321 modified "2023-10-18" @default.
W2897968321 title "Controlling error orientation to improve quantum algorithm success rates" @default.
W2897968321 cites W1702425859 @default.
W2897968321 cites W1895592099 @default.
W2897968321 cites W1974432718 @default.
W2897968321 cites W1984021697 @default.
W2897968321 cites W2001403108 @default.
W2897968321 cites W2003132673 @default.
W2897968321 cites W2003464774 @default.
W2897968321 cites W2023789062 @default.
W2897968321 cites W2025107850 @default.
W2897968321 cites W2034282770 @default.
W2897968321 cites W2040792108 @default.
W2897968321 cites W2048503153 @default.
W2897968321 cites W2054620851 @default.
W2897968321 cites W2056311757 @default.
W2897968321 cites W2074988987 @default.
W2897968321 cites W2075165508 @default.
W2897968321 cites W2089867976 @default.
W2897968321 cites W2090508883 @default.
W2897968321 cites W2097174474 @default.
W2897968321 cites W2116330002 @default.
W2897968321 cites W2116858786 @default.
W2897968321 cites W2128411836 @default.
W2897968321 cites W2128685508 @default.
W2897968321 cites W2167932166 @default.
W2897968321 cites W2197698711 @default.
W2897968321 cites W2204254039 @default.
W2897968321 cites W2228881272 @default.
W2897968321 cites W2261158583 @default.
W2897968321 cites W2305083767 @default.
W2897968321 cites W2415656260 @default.
W2897968321 cites W2415710521 @default.
W2897968321 cites W2562526363 @default.
W2897968321 cites W2583795980 @default.
W2897968321 cites W2586874551 @default.
W2897968321 cites W2612455436 @default.
W2897968321 cites W2781738013 @default.
W2897968321 cites W2784059933 @default.
W2897968321 cites W2884286033 @default.
W2897968321 cites W2895024173 @default.
W2897968321 cites W2964088246 @default.
W2897968321 cites W3097981482 @default.
W2897968321 cites W3100407698 @default.
W2897968321 cites W3101265358 @default.
W2897968321 cites W3102474551 @default.
W2897968321 cites W3103008740 @default.
W2897968321 cites W3103872322 @default.
W2897968321 cites W3105211404 @default.
W2897968321 cites W3112394946 @default.
W2897968321 cites W330726974 @default.
W2897968321 cites W4211192199 @default.
W2897968321 cites W4233474106 @default.
W2897968321 cites W4254297188 @default.
W2897968321 doi "https://doi.org/10.1103/physreva.99.032318" @default.
W2897968321 hasPublicationYear "2019" @default.
W2897968321 type Work @default.
W2897968321 sameAs 2897968321 @default.
W2897968321 citedByCount "16" @default.
W2897968321 countsByYear W28979683212019 @default.
W2897968321 countsByYear W28979683212020 @default.
W2897968321 countsByYear W28979683212021 @default.
W2897968321 countsByYear W28979683212022 @default.
W2897968321 countsByYear W28979683212023 @default.
W2897968321 crossrefType "journal-article" @default.
W2897968321 hasAuthorship W2897968321A5012733147 @default.
W2897968321 hasAuthorship W2897968321A5032691606 @default.
W2897968321 hasBestOaLocation W28979683211 @default.
W2897968321 hasConcept C104317684 @default.
W2897968321 hasConcept C111472728 @default.
W2897968321 hasConcept C11413529 @default.
W2897968321 hasConcept C121332964 @default.
W2897968321 hasConcept C124148022 @default.
W2897968321 hasConcept C137019171 @default.
W2897968321 hasConcept C138885662 @default.
W2897968321 hasConcept C142465778 @default.
W2897968321 hasConcept C155512373 @default.
W2897968321 hasConcept C17744445 @default.
W2897968321 hasConcept C179371143 @default.
W2897968321 hasConcept C185592680 @default.
W2897968321 hasConcept C199539241 @default.
W2897968321 hasConcept C203087015 @default.
W2897968321 hasConcept C204241405 @default.
W2897968321 hasConcept C2776639384 @default.
W2897968321 hasConcept C33923547 @default.
W2897968321 hasConcept C41008148 @default.
W2897968321 hasConcept C51003876 @default.
W2897968321 hasConcept C55493867 @default.
W2897968321 hasConcept C58053490 @default.
W2897968321 hasConcept C58849907 @default.
W2897968321 hasConcept C62520636 @default.
W2897968321 hasConcept C67820243 @default.
W2897968321 hasConcept C84114770 @default.
W2897968321 hasConceptScore W2897968321C104317684 @default.
W2897968321 hasConceptScore W2897968321C111472728 @default.