A zamanin yau na karuwar karfin kwamfuta na AI, raguwar karfin lantarki guda daya na iya kawo cikas ga ayyukan horarwa, wanda hakan ke haifar da asarar tattalin arziki mai yawa. Wani bangaren lantarki da ake ganin kamar na yau da kullun yana zama zakara a boye wajen tabbatar da samar da wutar lantarki mai dorewa ga sabar AI.
A ƙarƙashin manyan kaya, ƙarfin wutar lantarki na GPU guda ɗaya a cikin sabar AI zai iya ƙaruwa zuwa kilowatts 1.4, yana samar da wutar lantarki mai ƙarfin kilowatt 10 ga tsarin gaba ɗaya, wanda ke sanya buƙatu masu yawa ga tsarin samar da wutar lantarki. Asarar tattalin arziki da aka samu sakamakon sake fara ayyukan horarwa bayan raguwar ƙarfin lantarki ya fi saka hannun jari na farko a cikin samar da wutar lantarki.
Tsarin UPS na gargajiya, tare da jinkirin amsawarsu da kuma gajeren lokacin zagayowar su, ba su da isasshen kariyar matakin millisecond da ake buƙata don nauyin kwamfuta na AI.
01 Canjin daga "Zaɓi" zuwa "Ma'auni" ga BBUs
NVIDIA ta haɓaka samar da wutar lantarki mai ɗorewa ga sabar GB300 zuwa "daidaitacce." Ƙara farashin kowace rack saboda ƙara manyan na'urori masu ƙarfin lantarki da batura ya wuce yuan dubu goma, wanda ke nuna buƙatar wutar lantarki mai "babu katsewa".
Tsarin samar da wutar lantarki na cibiyar bayanai ta AI yana fuskantar ƙalubale guda uku: ƙaruwar wutar lantarki nan take har zuwa 150% yayin canje-canjen nauyin GPU, ƙaramin sararin chassis, da yanayin zafin da ya wuce 35°C na cibiyoyin bayanai.
Maganin UPS na gargajiya suna da girma, suna da jinkirin amsawa, kuma suna da ɗan gajeren lokaci, wanda hakan ke zama cikas ga samuwar cibiyar bayanai.
02. YMIN LIC Supercapacitor Fasaha Nasara
Magance matsalolin da masana'antu ke fuskanta, YMIN Electronics ta ƙaddamar da sabon tsarin BBU na ƙarni bisa fasahar lithium-ion supercapacitor. Wannan maganin yana amfani da tsarin juyawa na dukkan shafuka don matse juriyar ciki zuwa <1mΩ, yana cimma ƙarfin amsawar matakin millisecond.
Ta hanyar na'urorin lantarki da aka gyara da graphene da kuma ƙirar murabba'i mai ƙanƙanta, wannan samfurin ya cimma ƙarfin 4500F mai girma sosai a cikin ƙaramin girma, yana tallafawa aiki mai faɗi na zafin jiki daga -30°C zuwa 70°C da kuma tsawon rayuwa ta zagaye miliyan 1.
Maganin YMIN LIC yana rage girma da kashi 50%–70% da nauyi da kashi 50%–60% idan aka kwatanta da tsarin UPS na gargajiya, yana 'yantar da sararin rak sosai kuma yana tallafawa jigilar tarin AI mai yawan yawa, mai girman gaske.
03 Muhimman Sakamakon Aikace-aikacen Aiki
A cikin aikace-aikacen uwar garken NVIDIA GB300, rack ɗaya yana buƙatar har zuwa na'urori 252 na supercapacitor. Na'urorin LIC na YMIN, tare da yawan ƙarfinsu, amsawa mai sauri, da ingantaccen aminci, sun zama zaɓin da aka fi so ga abokan ciniki na cikin gida waɗanda ke neman madadin gida mai inganci.
Wannan mafita tana kiyaye canjin wutar lantarki a cikin ±1%, wanda hakan ke hana ayyukan horarwa na AI katsewa sakamakon raguwar wutar lantarki. Rayuwar zagayowar ta wuce zagaye miliyan 1, tare da tsawon rai sama da shekaru 6, saurin caji ya karu da sau 5, da kuma raguwar jimlar farashin mallakar (TCO) a duk tsawon zagayowar rayuwarta.
Maganin BBU na YMIN mai ƙarfi yana gina tsarin adana makamashi mai haɗaka na "supercapacitor + BBU," wanda ya dace daidai da buƙatun yawan ƙarfin GB300.
Yayin da buƙatar ƙarfin kwamfuta na AI ke ci gaba da ƙaruwa, amincin tsarin samar da wutar lantarki zai zama ginshiƙi mai mahimmanci na cibiyoyin bayanai. YMIN Electronics, tare da fasahar lithium-ion supercapacitor, ba wai kawai ta sake fasalta ƙa'idodin aiki na BBUs na uwar garken AI ba, har ma ta cimma manyan nasarori a girma, nauyi, da tsawon lokacin zagayowar.
A nan gaba, yayin da rukunin AI ke ci gaba da faɗaɗawa, wannan ingantaccen mafita mai ƙarfi da ƙarancin wutar lantarki zai zama babban abu wajen tabbatar da ingantaccen ƙarfin kwamfuta, yana ba da garanti mai inganci ga aikace-aikacen AI tare da "amsawar millisecond da shekaru goma na kariya".
Lokacin Saƙo: Nuwamba-28-2025