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"Iphrojekthi ye-Silica" Eguqukayo Iqala Isikhathi Esisha Ekugcinweni Kwedatha!

I-Microsoft Research iveze i-"Project Silica" entsha ehlose ukuthuthukisa indlela enobungani nemvelo esebenzisa ama-laser asheshayo ukugcina idatha eningi ngaphakathi kwamaphaneli engilazi. Ihlala isikhathi eside, inomthamo omkhulu wokugcina, kanye nomthelela omncane kwezemvelo, ozosetshenziswa kabanzi ukuze kube lula kakhulu.

2024-04-23

I-Microsoft Research iveze i- "Project Silica" entsha ethumele amagagasi okushaqisayo emhlabeni wonke. Empeleni, le phrojekthi ihlose ukuthuthukisa indlela enobungani nemvelo esebenzisa ama-laser asheshayo ukugcina idatha eningi ngaphakathi kwamaphaneli engilazi . Njengoba sazi kahle, ukugcinwa nokucubungula idatha kunemiphumela ebalulekile kwezemvelo, ngamadivayisi okugcina endabuko afana nama-hard disk drive nama-optical disc adinga ugesi ukuze agcinwe futhi abe nokuphila okulinganiselwe. Ekubhekaneni nendaba yokugcina idatha, i-Microsoft Research, ngokubambisana neqembu le-venture capital eligxile ekusimeni i-Elire, iqalise i-Project Silica.

kusetshenziswa ama-laser asheshayo ukugcina idatha eningi ngaphakathi kwamaphaneli engilazi

Ngakho-ke, iProjekthi Silica isebenza kanjani?

Ekuqaleni, idatha ibhalwa kumaphaneli engilazi kusetshenziswa ama-laser e-femtosecond e-ultrafast. Lokhu kuguqulwa kwedatha okuncane akubonakali emehlweni kodwa kungafinyelelwa kalula ngokufunda, ukucacisa, kanye nokubhala kusetshenziswa ama-microscope alawulwa yikhompyutha. Amaphaneli engilazi agcina idatha abe esegcinwa "emtatsheni" osebenzayo ongadingi ugesi, okunciphisa kakhulu ukukhishwa kwekhabhoni okuhlobene nokugcinwa kwedatha kwesikhathi eside.

Ngokuphathelene nobuchwepheshe obusha balo msebenzi, u-Ant Rowstron, unjiniyela kwa-Microsoft Research uchaze ukuthi isikhathi sokuphila kobuchwepheshe be-magnetic sinqunyelwe futhi i-hard drive ingahlala cishe iminyaka emi-5-10. Uma umjikelezo wayo wokuphila usuphelile, kufanele uyikopishe esizukulwaneni esisha semidiya. Empeleni, uma ucabangela wonke amandla nezinsizakusebenza ezisetshenziswayo, lokhu kuyacindezela futhi akuzinzile. Ngakho-ke, bahlose ukushintsha lesi simo nge-Project Silica.

Ngaphezu komculo nama-movie, le phrojekthi inezinye izimo zohlelo lokusebenza. Isibonelo, i-Elire isebenzisana ne-Microsoft Research ukusebenzisa lobu buchwepheshe be-Global Music Vault. Ingcezu encane yengilazi esiqhingini saseSvalbard ingamukela ama-terabyte amaningana edatha, anele ukugcina cishe izingoma eziyizigidi ezingu-1.75 noma iminyaka engu-13 yomculo. Lokhu kuphawula isinyathelo esibalulekile sokugcina idatha esimeme.

Nakuba indawo yokugcina ingilazi ingakakulungeli ukuthunyelwa ngezinga elikhulu, ibhekwa njengesixazululo sezentengiselwano esiqhubekayo esithembisayo ngenxa yokuqina kwayo kanye nokusebenza kahle kwezindleko. Ngaphezu kwalokho, izindleko zokulungisa ezigabeni zakamuva zizoba "zincane kakhulu." Kudinga kuphela ukugcina lezi zindawo zokugcina idatha yengilazi ezindaweni ezingenawo ugesi. Uma kudingeka, amarobhothi angakhuphuka emashalofini ukuze azilande ukuze asebenze ngokulandelayo.

Ngamafuphi, i-Project Silica isinikeza indlela entsha, enobungani nemvelo yokugcina idatha. Ayigcini nje ngokuba nokuphila isikhathi eside kanye nomthamo omkhulu wokugcina idatha, kodwa futhi inomthelela omncane emvelweni. Silangazelela ukubona lobu buchwepheshe busetshenziswa kabanzi esikhathini esizayo, buletha lula kakhulu ezimpilweni zethu.

TEYU i-laser chiller esheshayo kakhulu inikeza ukwesekwa kokupholisa okusebenzayo nokuzinzile kwamaphrojekthi e-laser e-picosecond/femtosecond e-ultrafast , okuthuthukisa ngempumelelo ikhwalithi yokucubungula nokwandisa isikhathi sokuphila kwemishini. Sibheke phambili esikhathini esizayo lapho ama-laser chillers e-ultrafast TEYU angasetshenziswa khona ukubhala idatha engilazini kanye nalobu buchwepheshe obusha obusha!