XCKU060-2FFVA1156I 100% Sabon & Asali DC Zuwa DC Mai Canjawa & Chip Mai Canjawa
Halayen Samfur
TYPE | KYAUTA |
category | Filin Shirye-shiryen Ƙofar Arrays (FPGAs) |
masana'anta | AMD |
jerin | Kintex® UltraScale™ |
kunsa | girma |
Matsayin samfur | Mai aiki |
DigiKey mai shirye-shirye ne | Ba a tabbatar ba |
Lambar LAB/CLB | 41460 |
Adadin abubuwan dabaru/raka'a | 72555 |
Jimlar adadin raƙuman RAM | Farashin 38912000 |
Adadin I/Os | 520 |
Voltage - Samar da wutar lantarki | 0.922V ~ 0.979V |
Nau'in shigarwa | Nau'in mannewa saman |
Yanayin aiki | -40°C ~ 100°C (TJ) |
Kunshin / Gidaje | 1156-BBGA, FCBGA |
Kunshin ɓangaren mai siyarwa | 1156-FCBGA (35x35) |
Lambar babban samfur | XCKU060 |
Hadakar Nau'in Da'ira
Idan aka kwatanta da na'urorin lantarki, photons ba su da matsakaicin taro, raunin mu'amala, ƙarfin hana tsangwama, kuma sun fi dacewa da watsa bayanai.Ana sa ran haɗin kai na gani zai zama ainihin fasaha don karya bangon amfani da wutar lantarki, bangon ajiya da bangon sadarwa.Haske, ma'amala, modulator, na'urori na waveguide an haɗa su cikin manyan fasalulluka na gani kamar photoelectric hadedde micro system, na iya gane inganci, ƙarar, ikon amfani da babban haɗin kai na photoelectric, dandamalin haɗin gwiwar hoto gami da III - V fili semiconductor monolithic hadedde (INP) ) dandamalin haɗin kai m, silicate ko gilashi (planar Optical waveguide, PLC) dandamali da dandamali na tushen silicon.
InP dandamali ne yafi amfani da samar da Laser, modulator, ganowa da sauran aiki na'urorin, low fasaha matakin, high substrate kudin;Yin amfani da dandamali na PLC don samar da abubuwan da ba a iya amfani da su ba, ƙananan hasara, babban girma;Babban matsala tare da dandamali guda biyu shine cewa kayan ba su dace da kayan lantarki na tushen silicon ba.Babban fa'idar haɗin gwiwar photonic na tushen silicon shine cewa tsarin ya dace da tsarin CMOS kuma farashin samarwa yana da ƙasa, don haka ana ɗaukar shi mafi kyawun yuwuwar optoelectronic har ma da tsarin haɗin kai gabaɗaya.
Akwai hanyoyin haɗin kai guda biyu don na'urorin photonic na tushen silicon da da'irori na CMOS.
Amfanin tsohon shine cewa ana iya inganta na'urorin photonic da na'urorin lantarki daban, amma marufi na gaba yana da wahala kuma aikace-aikacen kasuwanci suna iyakance.Ƙarshen yana da wuyar ƙira da aiwatar da haɗin gwiwar na'urorin biyu.A halin yanzu, taron matasan da ya dogara da haɗin gwiwar barbashi na nukiliya shine mafi kyawun zaɓi