Okuqukethwe[Fihla][Bonisa]
Ubuwazi ukuthi kunobuchwepheshe obusha obungashintsha umhlaba unomphela?
Ibizwa nge-Quantum Memristor, futhi ingenye yezinto ezinhle kakhulu ongake uzwe ngazo!
Iqiniso liwukuthi, usungakwazi manje ukugcina idatha futhi uyicubungule ngokushesha ngokusebenzisa amandla alobu buchwepheshe obusha.
Nangu umkhabi wangempela.
Ikusasa lekhompuyutha lingase lisekelwe kuma-Quantum Memristors futhi abukho obunye ubuchwepheshe.
Futhi, akuseyona nje ithiyori - i-compum computing isivele isemalebhu futhi isendleleni!
Iyini iMemristor?
I-memristor iyisakhiwo sesine esiyisisekelo sokwakha sobuchwepheshe, ngemuva kwe-transistor, resistor, kanye ne-capacitor. Yaqanjwa ngoDkt. Leon Chua, uprofesa wobunjiniyela bakagesi eNyuvesi yaseCalifornia, eBerkeley.
Umqondo wokukhumbula ama-memristors wathuthukiswa nguFrank Hill no-Alex O. Leshyk, ososayensi ababili bangaphambili be-IBM, abethula umqondo we-memristor ngo-1971.
Iyini i-Quantum Memristor?
Eminyakeni yakamuva, i-compum computing uthole ukunakwa okukhulu. Ososayensi abaningi emhlabeni wonke bakholelwa ukuthi amakhompyutha e-quantum angaba namandla kakhulu kunawakudala. Noma kunjalo, isimo samanje se-art in i-compum computing ubuchwepheshe busakudala kakhulu.
Ngokusho kwe-Google, "i-quantum computing isuselwe esisekelweni sokuthi imithetho yefiziksi isebenza kuma-qubits, okungamayunithi ayisisekelo olwazi asetshenziswa kukhompuyutha ye-quantum."
I-Quantum computing isayensi yokuklama amasistimu we-quantum mechanical ekwazi ukwenza imisebenzi engenakulinganiswa kukhompuyutha yakudala.
Ama-Quantum memristors awubuchopho bamakhompiyutha esikhathini esizayo. Banazo zonke izakhiwo ezidingekayo ukwenza ikhompuyutha isheshe, ishibhile, futhi ithembeke kakhulu.
Awaguquguquki, okusho ukuthi idatha iyagcinwa ngisho nalapho amandla ecishiwe. Futhi zenziwe ngezinto ezingehliswa kuze kufike ku-nanoscale, okusho ukuthi zingasetshenziswa kumakhompiyutha e-quantum ngisho nasekuthuthukiseni izitho zomuntu neminye imisebenzi yezinto eziphilayo.
Bangashintsha ubuso bekhompyutha, kodwa kufanele ulinde kuze kube yilapho ubuchwepheshe bufinyeleleka.
Isebenza kanjani i-Quantum Memristor?
Ngokusobala, i-Quantum Memristors ingamadivayisi agcina ulwazi esimweni sawo sangaphakathi. Lokhu kubenza bafane nezingxenye eziyisisekelo zobuchopho bomuntu.
Ngokomgomo oyisisekelo we-Quantum Memristor, idivayisi yenkumbulo iyisekhethi enendawo yokugcina inani ngendlela ye-bit. Kodwa-ke, ngokungafani nedivayisi yenkumbulo yakudala, i-Quantum Memristors ingaphinda igcine inani ngesimo se-quantum state.
Lokhu kusho ukuthi idivayisi ingagcina inani njengo-1 noma u-0 kanye nokuma okuphezulu kwakho kokubili.
Iyini i-Superposition?
I-superposition yisimo sesistimu ye-quantum lapho isistimu ye-quantum isesimweni esihlangene. Lokhu kusho ukuthi uhlelo lwe-quantum lusesimweni esihlanganisa izifunda ezimbili ezingaba khona.
I-Quantum Memristor Ithonya Kanjani I-Artificial Intelligence?
I-Quantum Memristor ingenye yobuchwepheshe obuthembisa kakhulu emkhakheni we ukuhlakanipha okungekhona okwangempela. Ingathuthukisa isivinini sokusebenza kwamakhompyutha izikhathi ezifika ku-100,000, inciphise ukusetshenziswa kwamandla amakhompyutha, futhi isetshenziswe amanethiwekhi we-neural.
Isizathu siwukuthi amakhompyutha e-quantum azokwazi ukucubungula idatha ngokuphumelelayo kakhulu kunamakhompyutha asendulo.
Uma uqhathanisa ikhompuyutha yakudala nekhompuyutha ye-quantum, uzothola ukuthi yakamuva isebenza kahle kakhulu. Ikhompyutha ye-quantum ingacubungula inani elikhulu ledatha ngesikhathi esisodwa. Lokhu kusho ukuthi amakhompyutha we-quantum ingaba namandla kakhulu kuneyakudala.
Noma kunjalo, isimo samanje se-art in i-compum computing ubuchwepheshe busakudala kakhulu.
Izicelo Zempilo Yangempela Ye-Quantum Memristors
1. Yehlisa Ukusetshenziswa Kwamandla Kwamakhompyutha:
Ngokuzayo, amakhompyutha azoba nezinhlelo zokusebenza eziningi ekuphileni kwethu kwansuku zonke. Nokho, lokhu kungase kubize kakhulu, futhi ekugcineni, kungase kusebenze kahle kakhulu ukunciphisa ukusetshenziswa kwamandla kwamakhompyutha.
Ngaleso sikhathi, amakhompyutha e-quantum angaba yimpendulo kule nkinga.
Eqinisweni, amakhompyutha e-quantum asebenza kahle kakhulu kunamakhompyutha asendulo. Kodwa ukuze uyisebenzise, kudingeka ube nenani elikhulu lama-qubits.
2. Xazulula Izinkinga ze-Np-Complete
Iyini Inkinga Ye-NP-Complete? Kumathematika, inkinga ye-NP-complete inkinga engaxazululwa ngesikhathi se-polynomial kodwa ayikwazi ukuxazululwa ngesikhathi se-polynomial.
Isibonelo, uma unenkinga edinga isikhathi sokuchayeka ukuyixazulula, inkinga egcwele i-NP. Kodwa-ke, kuyinkinga ye-NP uma idinga inani lesikhathi se-polynomial.
Ku-AI, amakhompyutha e-quantum angasetshenziswa ukuxazulula izinkinga eziphelele ze-NP ngesikhathi esifushane kakhulu. Lokhu kusho ukuthi abacwaningi be-AI bangakwazi ukuxazulula izinkinga okunzima kakhulu ukuzixazulula ngamakhompyutha asendulo.
3. Thuthukisa I-Quantum Communication
Kuye kwabikezelwa ukuthi ukuxhumana kwe-quantum kungathuthukiswa kusetshenziswa amakhompyutha we-quantum.
Isizathu siwukuthi amakhompyutha e-quantum angasetshenziswa ukudala izifunda ezibambene. I-Entanglement iyimpahla ewusizo kakhulu ekuxhumaneni kwe-quantum ngoba ingasetshenziswa ukuthumela imilayezo esheshayo kunejubane lokukhanya.
Thatha
Sengiphetha, i-memristor ingasetshenziselwa ukwakha ikusasa lapho sinamandla angenamkhawulo wekhompyutha. Kungenzeka ukuthi singayisebenzisa ukuze sakhe isizukulwane esilandelayo samakhompyutha namakhompyutha amakhulu.
Indlela lobu buchwepheshe okwakhiwa ngayo ihluke ngokuphelele kunoma ibuphi obunye ubuchwepheshe bekhompyutha obake baba khona. I
t iyinhlanganisela ephelele yenkumbulo nokucubungula, futhi ingenza kokubili ngesikhathi esisodwa. Lokhu kuwukutholwa okuphawulekayo ngempela okungashintsha umhlaba!
shiya impendulo