I-SLF 4.0V 4500F hybrid supercapacitor inikeza ukuvikelwa okuqinile kwezinga le-millisecond kokunikezwa kwamandla okusekelayo kwe-AI.i-server rack BBU.

 

1. Izinzuzo: Ukukhishwa kwamandla aphezulu

 

Umbuzo Oyinhloko: I-hybrid supercapacitor iqinisekisa kanjani ukuqina kwamandla kagesi ebhasi le-DC futhi ivimbele ukungasebenzi kwesistimu lapho i-AI.Ingabe umthwalo we-GPU weseva uhlangabezana nezinguquko ezisheshayo ezingeni le-millisecond noma ukushintshashintsha kwegridi yamandla?

 

Umbuzo Osuselwe Kuwo: Umthwalo we-GPU weseva ye-AI ungakhuphuka ngo-150% ngaphakathi kwama-millisecond, futhi amabhethri endabuko e-lead-acid awakwazi ukuqhubeka. Yisiphi isikhathi sokuphendula esiqondile se-Yongming's hybrid supercapacitor, futhi ikufeza kanjani lokhu kusekelwa okusheshayo?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: I-Yongming's hybrid supercapacitor (SLF 4.0V 4500F) ithembele ezimisweni zokugcina amandla angokwenyama futhi inokumelana kwangaphakathi okuphansi kakhulu (≤0.8mΩ), okuvumela ukukhishwa okusheshayo kwesivinini esiphezulu ezingeni lama-millisecond angu-1-50. Uma ushintsho oluzumayo kumthwalo we-GPU lubangela ukwehla okukhulu kwe-voltage yebhasi le-DC, ingakhipha ugesi omkhulu cishe ngokushesha ukuze ibuyisele ngqo ibhasi ngokulahlekelwa amandla. Lokhu kuthenga isikhathi sokuba ugesi we-backend BBU uvuke futhi uthathe izintambo, okuqinisekisa ukuguquka kwe-voltage okubushelelezi nokuvimbela amaphutha ekhompyutha noma ukuphahlazeka kwehadiwe okubangelwa ukwehla kwe-voltage.

 

Umbuzo Osuselwe Kuwo: Ekwakhiweni kwe-hybrid kwe-"supercapacitor + BBU," ama-supercapacitor e-Yongming nama-BBU asebenzisana kanjani ukubhekana nokuphazamiseka kukagesi noma ukuguquguquka kwezikali zesikhathi ezahlukene kusukela kuma-millisecond kuya kumaminithi?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Kulo mklamo, i-module ye-hybrid supercapacitor ka-Yongming ixhunywe ngokuhambisana nebhasi le-DC leseva njenge-"nearby buffer layer," eyenzelwe ngqo ukuphatha ukukhuphuka kwamandla okusheshayo esikalini se-millisecond kuya kwesesibili (njengokushintsha okungazelelwe komthwalo we-GPU noma ukushintshashintsha kwegridi yamandla okusheshayo). Yenza isinxephezelo sokuqala ngokushesha, iqinise i-voltage yebhasi. Ngemuva kwalokho, ukunikezwa kwamandla okusekelayo kwe-BBU kuyavuswa futhi kuthathe izintambo, kunikeze ukwesekwa kwamandla okuqhubekayo imizuzu embalwa, kuqinisekisa ukuthi uhlelo lunesikhathi esanele sokugcina idatha noma ukushintshela ku-backup power supply. I-front-end UPS/HVDC inesibopho sokunikezwa kwamandla okungaphazamiseki isikhathi eside. Izingxenye ezintathu zisebenza ngendlela ehlukene, zimboza ukunikezwa kwamandla kosuku lonke kusukela ekusebenzeni okusheshayo kuya ekusebenzeni okuqhubekayo.

2.Izinzuzo: Ukulungiswa Kosayizi Nesisindo

 

Umbuzo Oyinhloko: Ukuze kuthuthukiswe ubuningi bamandla ekhompyutha e-rack eyodwa, usayizi nesisindo sokunikezwa kwamandla okusekelayo kwe-BBU kudingeka kuncishiswe. Ingakanani isikhala nesisindo i-hybrid supercapacitor engasinciphisa uma kuqhathaniswa nezixazululo zendabuko?

 

Umbuzo Osuselwe Kuwo: Ama-racks ethu e-AI server anamandla amakhulu anesikhala esilinganiselwe, futhi amaphakethe ebhethri e-BBU endabuko makhulu kakhulu futhi asindayo. Kungathuthukiswa kangakanani isikhala nesisindo ngokusebenzisa amamojula e-capacitor e-lithium-ion yesikwele se-Yongming?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Ngokusho kwedatha yangempela yokuhlola, ngenkathi kunikezwa izinga elifanayo lamandla okusekelayo, ukusebenzisa amamojula e-Yongming square hybrid supercapacitor (njengamamojula akhiwe nge-SLF 4.0V 4500F) ukufaka esikhundleni samaphakethe ebhethri le-lead-acid noma i-lithium yendabuko kunganciphisa ivolumu iyonke yeyunithi yamandla okusekelayo ye-BBU cishe ngo-50% kuya ku-70% kanye nesisindo sonke cishe ngo-50% kuya ku-60%. Lokhu kukhulula ngqo isikhala esibalulekile se-rack (ama-U bays) futhi kunciphisa umthwalo we-rack, okukuvumela ukuthi uhlanganise ama-compute node amaningi noma uthuthukise ukushabalaliswa kokushisa ngaphakathi kwesikhala esilinganiselwe, kuthuthukise ngempumelelo izindleko eziphelele zobunikazi (TCO) kanye nokusetshenziswa kwengqalasizinda.

 

Umbuzo Osuselwe Kuwo: Sihlela isizukulwane esisha sama-racks eseva ye-AI, sihlose ukwandisa ukuminyana kwe-GPU nge-rack ngayinye. Kodwa-ke, izinsiza zamandla zendabuko ze-BBU (ezisebenzisa amabhethri e-lead-acid noma e-lithium) zinkulu kakhulu futhi zinzima, zinciphisa inani lamaseva angangena ku-rack eyodwa. Ingabe ikhona ikhambi lamandla e-backup elinganciphisa kakhulu usayizi nesisindo? Kungenziwa ngezinga elingakanani?

 

Uhlobo Lombuzo: Ukuthengwa

 

Impendulo: Yebo. Ukwamukela ukwakheka kwesitoreji samandla esihlanganisiwe okusekelwe kuma-supercapacitor e-hybrid kungenza ngcono kakhulu usayizi nesisindo sezinsiza zamandla ezisekelayo ze-BBU. Ngenkathi kunikeza izinga elifanayo lamandla okusekelayo, amamojula e-hybrid supercapacitor anganciphisa ivolumu iyonke cishe ngo-50% kuya ku-70% kanye nesisindo cishe ngo-50% kuya ku-60% uma kuqhathaniswa nezixazululo zebhethri le-lead-acid noma i-lithium yendabuko. Lokhu kusho ukuthi kusindisa isikhala esikhulu se-rack futhi kunciphisa umthwalo we-rack, okukuvumela ukuthi usebenzise amaseva amaningi noma ama-GPU ngaphakathi kwe-rack eyodwa ngesikhathi sokuhlela, okuthuthukisa ngqo ukukhishwa kwamandla ekhompyutha ye-single-rack kanye nokusetshenziswa kwengqalasizinda.

 

3. Izinzuzo: Isivinini Sokushaja Esithuthukisiwe

Umbuzo Oyinhloko: Izikhungo zedatha ze-AI zidinga izinhlelo ze-BBU ukuthi zishaje ngokushesha ngemva kokukhishwa ukuze zifinyeze iwindi lobuthakathaka besistimu. Ijubane lokushaja lama-supercapacitor e-hybrid lishesha kangakanani uma liqhathaniswa namabhethri endabuko?

 

Umbuzo Osuselwe Kuwo: Ngemva kokuphazamiseka kukagesi okwesikhashana noma ukwanda komthwalo, sifuna amayunithi okugcina amandla ohlelweni lwe-BBU ashajwe ngokugcwele ngokushesha okukhulu ukuze kulungiselelwe umcimbi olandelayo. Kuthatha isikhathi esingakanani ukuthi i-Yongming's hybrid supercapacitor ishajwe kabusha?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: I-Yongming's hybrid supercapacitor inezici zamandla ezinhle kakhulu, ishaja ngokushesha okuphindwe kahlanu kunamabhethri e-lead-acid noma e-lithium ajwayelekile. Ezimweni ezijwayelekile zohlelo lokusebenza lwe-AI server BBU, ngemuva kokukhishwa okunxephezelayo, ingashaja ngokushesha ifinyelele esimweni esisebenzisekayo cishe ngemizuzu eyishumi. Lokhu kunciphisa kakhulu "isikhathi sokubuyisa amandla" sohlelo lwamandla oluyisipele, kunciphisa izingozi zesistimu ezibangelwa amandla anganele kumayunithi okugcina amandla ngesikhathi sezimo eziphuthumayo eziqhubekayo, futhi kuthuthukisa ukutholakala okuphelele kanye nokuqina kohlelo lokunikezwa kwamandla.

 

4. Izinzuzo: Ukuphila Komjikelezo Omude

Umbuzo Oyinhloko: Izikhungo zedatha ze-AI zisebenza amahora angama-24 ngosuku, izinsuku eziyi-7 ngesonto, okuholela ezindleleni eziphezulu zokulungisa izinhlelo zamandla ezisekelayo. Impilo yomjikelezo omude kakhulu yama-hybrid supercapacitors inciphisa kanjani izindleko zokulungisa umjikelezo wokuphila wonke?

 

Umbuzo Osuselwe Kuwo: Indawo yethu yesikhungo sedatha inamazinga okushisa aphezulu kanye nokuguquguquka komthwalo okuvamile, kuyilapho amabhethri e-BBU endabuko enesikhathi esifushane sokuphila. Iyini isikhathi sokuphila esilindelekile sama-supercapacitor e-Yongming hybrid ngaphansi kwezimo ezinzima zokushisa okuphezulu kanye nokushaja/ukukhipha imvamisa ephezulu?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Isikhathi sokuphila sama-supercapacitor e-Yongming hybrid sisekelwe ezimpahleni zawo ze-physicochemical, ezibonisa ukubekezelela okuhle kakhulu izinga lokushisa eliphezulu kanye nezimo zokushaja/ukukhipha imvamisa ephezulu. Impilo yomjikelezo wazo ingafinyelela imijikelezo engaphezu kwesigidi esingu-1, futhi ngaphansi kwezimo zokusetshenziswa kwesikhungo sedatha se-AI esijwayelekile, impilo yazo yokuklama idlula iminyaka eyi-6. Lokhu kusho ukuthi ngesikhathi somjikelezo ojwayelekile wokuthuthukiswa kweseva, ukushintshwa kweyunithi yokugcina amandla okusekelayo ngenxa yokuwohloka kokusebenza cishe akudingeki, okwenza ifaneleke kakhulu njengeyunithi yesikhashana ye-buffer ye-BBU ezindaweni ezinzima ezinokushaja nokukhipha imvamisa ezikhungweni zokubala ze-AI.

 

Umbuzo Osuselwe Kuwo: Kusukela embonweni wezindleko zokutshalwa kwezimali eziphelele, yize izindleko zokuqala zokuthenga zama-supercapacitors angama-hybrid zingase zibe phezulu, kungabonakaliswa kanjani ukuthi azonga kakhulu ngokuhamba kwesikhathi kuzinhlelo zokusebenza ze-AI server BBU?

 

Uhlobo Lombuzo: Ukuthengwa

 

Impendulo: Kusukela ekuhlaziyweni kwezindleko zobunikazi eziphelele (i-TCO), izinzuzo zomnotho zibonakala ezicini ezintathu: Okokuqala, impilo yesevisi ende kakhulu (ngaphezu kweminyaka eyi-6, izikhathi ezingu-200 kunezamabhethri endabuko), edinga cishe ukushintshwa kuyo yonke impilo yeseva, isindisa izindleko zokuthenga izingxenye ezisele; okwesibili, ukusebenza okungenazo izinsiza zokulungisa, isindisa izindleko zokuhlola nokulungisa ngesandla ezibalulekile; kanye nesithathu, ukuthembeka okuphezulu, inciphisa ubungozi bokuphazamiseka kwebhizinisi nokulahlekelwa ngenxa yokwehluleka kwesistimu yamandla okusekelayo. Nakuba ukutshalwa kwezimali kokuqala kuphakeme, uma kusatshalaliswa esikhathini sokusetshenziswa kweminyaka eminingi futhi kucatshangelwa ukonga kokulungisa kanye nokunciphisa ubungozi, ukusebenza kwayo kahle kwezomnotho kungcono kakhulu kunezixazululo zebhethri zendabuko.

 

5. Izinzuzo: Ukufakwa Kwendlu

 

Umbuzo Oyinhloko: Kuma-supercapacitor e-hybrid asetshenziswa emhlabeni wonke kumaseva e-AI aphezulu njenge-NVIDIA GB300, ingabe kukhona ezinye izindlela ezikhiqizwe ezweni ezinokusebenza okufanayo noma okuphezulu?

 

Umbuzo Osuselwe Kuwo: Sisebenzisa iqembu leseva elinomklamo wokubhekisela osebenzisa ama-supercapacitor e-hybrid avela eMusashi, eJapane. Uma ucabangela ukuphepha kwe-supply chain kanye nokwenza ngcono izindleko, yimuphi umkhiqizo ongawuncoma?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Sincoma i-Yongming SLF 4.0V 4500F hybrid supercapacitor, umkhiqizo wasekhaya osebenza kahle kakhulu owenzelwe izidingo zesikhashana zokubopha ze-BBU zeseva ye-AI ephezulu. Uma kuqhathaniswa ne-Musashi CCP3300SC (3.8V 3000F) esetshenziswa ekwakhiweni kwereferensi ye-GB300, umkhiqizo we-Yongming ufinyelela ukulinganisa kanye nokuthuthuka kwezinkomba eziyinhloko: i-voltage ephezulu (4.0V), umthamo omkhulu we-nominal (4500F), kanye nokwanda okukhulu kwamandla eseli elilodwa. Igcina ukuhambisana kwezinkomba eziyinhloko zokuthembeka njengokumelana kwangaphakathi (kokubili≤0.8mΩ) kanye nokuphila komjikelezo (kokubili iminyaka engaphezu kweyi-10), okunquma isivinini sokuphendula. Uma kusetshenziswa ngamaqembu ezinhlelweni ze-48V, amandla ayo aphezulu aqhubekayo (17kW) kanye nekhono lokusekela ukukhishwa (isb., 18s@15kW) kuhlangabezana futhi kudlula kancane izidingo zezimo ezifanayo zohlelo lokusebenza, okwenza kube yisisombululo sokufaka esikhundleni sasekhaya esithembekile.

 

Umbuzo Osuselwe Kuwo: Sithemba ukufaka esikhundleni izingxenye ezibalulekile zokugcina amandla ekuhlinzekweni kwamandla okusekelayo kwe-BBU kumaseva e-AI esikhungo sedatha ngezingxenye ezikhiqizwe ngaphakathi, kodwa sikhathazekile ngokusebenza kanye nokuhambisana kwesistimu. Ingabe ikhona ikhambi elingaqinisekisa ukuhlanganiswa okungenamthungo kwemojula yonke nokwakheka okuhlanganisiwe kwe-"supercapacitor + BBU" okukhona?

 

Uhlobo Lombuzo: Ukuthengwa

 

Impendulo: Yumzuzu ingahlinzeka ngezixazululo eziphelele zezinga le-module ye-lithium-ion capacitor. Uma sibheka umkhiqizo we-SLF 4.0V 4500F njengesibonelo, i-module yayo isebenzisa umklamo ojwayelekile we-rack ongu-19-intshi (isb., ukucushwa kwe-12S1P), kanye nobubanzi bayo be-voltage yokuphuma (48-30V) iyahambisana ne-voltage yebhasi le-DC evame ukutholakala kumaseva e-AI. I-module inokumelana okuphansi kwangaphakathi (4.8m).Ω) kanye nezindawo zokusebenzelana zikagesi ezichazwe ngokucacile, ubukhulu bemishini, kanye nezidingo zokuphathwa kokushisa. Lokhu kusho ukuthi ingaxhunywa ngqo ngokuhambisana nebhasi le-DC leseva njenge-"nearby buffer layer," yakha ukwakheka kwesitoreji samandla esihlanganisiwe ne-BBU yangaphandle, okufeza ukuhlanganiswa okungenamthungo ekufakweni kwemishini, ukuxhumana kukagesi, kanye ne-logic yokulawula. Sinikeza imibhalo eningiliziwe yesikhombimsebenzisi sobuchwepheshe kanye nokusekelwa ukuqinisekisa inqubo yokufaka esikhundleni ebushelelezi kanye nokuthembeka kwesistimu iyonke.

 

6. Izinzuzo: Ukuthembeka Kokushisa Okuphezulu kanye Namakhono Okuphatha Ukushisa

 

Umbuzo Oyinhloko: Ama-racks eseva ye-AI asebenza endaweni enokushisa okuphezulu kwama-degrees angu-45–55℃unyaka wonke, ngama-GPU anamandla aphezulu abangela ukushaqeka okuvamile kokushisa. Ingabe i-hybrid supercapacitor ingasebenza kahle isikhathi eside? Ingabe ukwehla kokusebenza kuzosheshiswa?

 

Umbuzo Osuselwe Kuwo: Njengoba izinga lokushisa langaphakathi lama-racks eseva ye-AI ngokuvamile lingu-45~55℃, lingakanani izinga lokuwohloka kokusebenza kwe-Yongming's hybrid supercapacitor? Ingabe kudingeka ukushabalaliswa kokushisa okwengeziwe?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: I-supercapacitor ye-SLF yesikwele ye-hybrid ye-Yongming isebenzisa izinto ze-electrode ezimelana nokushisa okuphezulu kanye nohlelo lwe-diaphragm oluhlanganisiwe. Ngisho noma isezingeni lama-55℃, ingagcina≥Umthamo wokukhipha ongu-85%, kanye ne-coefficient yokwenyuka kwezinga lokushisa le-ESR engaphansi kuka-0.1%/℃, futhi ukusebenza kwayo okuqhubekayo kokukhipha ngokushesha ngeke kwehle. Endaweni evamile yokugeleza komoya "ekuqaleni kuya emuva" yama-racks eseva ye-AI, ingasebenza kahle iminyaka engu-6-8 ngaphandle kwezakhiwo ezengeziwe zokupholisa, okwenza kube yisisombululo sokusekela amandla ngokushesha esifanelekile kunamabhethri ezikhungo zedatha ezinokushisa okuphezulu.

 

7. Izinzuzo: Ukuhambisana Kwesistimu Nokuphepha Kukagesi

 

Umbuzo Oyinhloko: Ngemva kokuba i-supercapacitor ixhunywe kanyekanye nebhasi le-48V DC njengeyunithi ye-buffer esheshayo, ingabe izobangela ukushaja okuphambene, ukukhuphuka kwamandla kagesi, noma ingabe izobeka engcupheni uhlelo lwe-BBU/lwamandla olukhona?

 

Umbuzo Ovela Kuwo: Ngemva kokuba i-supercapacitor exubile ixhunywe ngokuhambisana nebhasi, ingabe izobangela ukushaja okuphambene, ukugeleza kwamanje, noma ukukhuphuka kwesistimu ngokushesha?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Amamojula e-Yongming supercapacitor anezisekethe zokushaja ezakhelwe ngaphakathi + ukukhawulela kwamanje + ukukhawulela i-voltage + i-soft-start logic. Uma ixhunywe ngokuhambisana nebhasi, ingena "kwimodi yokushaja ngaphambi kwesikhathi," ikhulisa kancane kancane i-voltage ukuze igweme ukukhuphuka. Iphinde ihlanganise ukuxhumana kwangaphakathi okuphambeneyo kanye nezisekethe zokuvimbela ukugeleza emuva, ngakho-ke ukushaja okuphambene ngeke kwenzeke. Ngesikhathi esifanayo, imojula inokuvikelwa okuphelele kwe-OVP/OCP, iyahambisana nokunikezwa kwamandla/i-BBU ekhona yeseva, futhi ngeke ibe yingozi yokukhuphuka kukagesi.

 

8. Izinzuzo: Ukumelana Nokushaya Kwenhliziyo kanye Nokuphila Komthelela Ophakeme Wemvamisa

 

Umbuzo Oyinhloko: Ingabe imithwalo ye-pulse ephezulu evela kuma-GPU ingadala ukuguga okusheshayo kwama-supercapacitors? Ingabe isikhathi sokuphila singafinyelela eminyakeni eminingi ngempela?

 

Umbuzo Osuselwe Kuwo: Ezimweni ezivamile "zokukhishwa kwe-pulse" (njengokukhushulwa kwamandla kwe-GPU okusheshayo), ingabe isikhathi sokuphila sama-supercapacitors e-Yongming sizothinteka?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Cha. Uchungechunge lwe-SLF luklanyelwe ngqo imithelela yemvamisa ephezulu, ngokuphila komjikelezo weseli elilodwa > imijikelezo eyi-1,000,000, efanelekile ukukhishwa kwezinga eliphezulu ebangeni le-microsecond kuya ku-millisecond. Ngisho nangaphansi kwamakhulu kuya ezinkulungwaneni zokuguquguquka komthwalo ngosuku kumaqoqo e-AI, lungafinyelela isikhathi sokuphila somklamo seminyaka > 6-8, esingcono kakhulu kunenkinga yokuguga njalo kwamabhethri endabuko.

 

9. Izinzuzo: Izindleko Eziphelele Zobunikazi Ezincishisiwe (i-TCO)

 

Umbuzo Oyinhloko: Ingabe ama-supercapacitors e-hybrid angavumela ukuncishiswa kwemininingwane ye-BBU ukuze kwehliswe izindleko eziphelele zesistimu yamandla okusekelayo?

 

Umbuzo Osuselwe Kuwo: Njengoba kunesikhala esincane se-rack, ingabe ukusetshenziswa kwama-supercapacitors e-hybrid kunganciphisa umthamo we-BBU futhi kwehlise i-TCO iyonke ukuze kuncishiswe inani lamabhethri asekelayo? Uhlobo Lombuzo: Ukuthengwa

 

Impendulo: Yebo. Ama-supercapacitor e-Yongming aphatha wonke ama-surges "amandla aphezulu ezingeni le-millisecond", asusa isidingo sokuthi ama-BBU aklanyelwe amandla aphezulu, anciphise umthamo ngo-15-30% noma avumele ukusetshenziswa kwezinhlelo zebhethri ezisezingeni eliphansi. Ngama-supercapacitor, i-TCO iyonke yesistimu yamandla okusekelayo iyancipha, kufaka phakathi amabhethri ambalwa, izingxenye ezimbalwa zokufaka esikhundleni, kanye nezindleko zokulungisa eziphansi.

 

10. Izinzuzo: Ukuqina Kokushintshana kwe-UPS Okuthuthukisiwe

 

Umbuzo Oyinhloko: Ezimweni lapho isikhathi sokushintsha i-UPS singazinzile, noma sisuka ku-8ms siye ku-12ms, ingabe ama-supercapacitor angakwazi ukuvala izikhala zamandla?

 

Umbuzo Osuselwe Kuwo: Ezinye izinhlelo ze-UPS ezindala zinamafasitela okushintshana amade. Uma isikhathi sokushintshana kwe-UPS seluliwe (isb., 12ms noma ngisho 15ms), ingabe ama-supercapacitor e-Yongming anganikeza isinxephezelo esengeziwe se-voltage?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Ama-supercapacitor e-Yongming anesikhathi sokuphendula ezingeni le-microsecond, esimboza ngokuphelele iwindi lokushintsha i-UPS. Uma i-UPS ihlangabezana nokulibaziseka okungu-12-15ms, ingabuyisela ngokuzenzakalelayo ukwehla kwe-voltage yonke, iqinisekise ukuzinza kwebhasi futhi ingathinti ukusebenza okuvamile kwama-GPU/SSD.

 

11. Izinzuzo: Ukuqina Okuthuthukisiwe Kwesikhungo Sedatha

 

Umbuzo Oyinhloko: Amaseva e-AI avame ukubhekana nezingozi eziningi njengokwanda okungazelelwe komthwalo we-GPU, ukushintshashintsha kwegridi yamandla, kanye nokuphela kukagesi kwe-UPS. Ingabe ikhona idivayisi eyodwa engathuthukisa ukuqina kwayo yonke into?

 

Umbuzo Osuselwe Kuwo: Abasebenzi bokusebenza kanye nokulungisa bafuna ukwengeza "ungqimba lwe-safety buffer." Ama-supercapacitors e-Yongming angakuthuthukisa kanjani "ukuqina kwamandla" kwesikhungo sedatha se-AI server sonke? Ingabe i-buffering eningi ingafinyelelwa?

 

Uhlobo Lombuzo: Ezobuchwepheshe

 

Impendulo: Ama-supercapacitor e-Yongming angasebenza "njengesendlalelo se-power buffer esisheshayo," esimunca ngokuzenzakalelayo futhi sinxephezele ukuguquguquka kwamandla kagesi ezingeni le-millisecond, sithuthukise kakhulu ukuzinza kwebhasi futhi sinciphise inani lemiphumela yemvamisa ephezulu ku-BBU kanye ne-UPS, ngaleyo ndlela sithuthukise "ukuqina kwamandla" kwalo lonke uchungechunge lokunikezwa kwamandla kusukela embonweni wesistimu. Lena indima amabhethri angenakuyidlala, okwenza ifaneleke kakhulu ezimweni ze-AI ezisebenzisa amakhompyutha amaningi.