I-MICROCHIP yokuFumana impazamo kunye noLuleko kwi-RTG4 LSRAM Isikhokelo somsebenzisi seMemori

Imixholo fihla

1 I-MICROCHIP yokuFumana impazamo kunye noLungiso kwi-RTG4 LSRAM Memory

2 Imbali yohlaziyo

3 Ukufunyanwa kwempazamo kunye noLungiso kwi-RTG4 LSRAM Memory

4 Ukucwangcisa isixhobo usebenzisa iFlashPro Express

5 Ukuqhuba iSikripthi se-TCL

6 Amaxwebhu / Izibonelelo

6.1 Iimbekiselo

7 Izithuba eziyeleleneyo

I-MICROCHIP yokuFumana impazamo kunye noLungiso kwi-RTG4 LSRAM Memory

Imbali yohlaziyo

Imbali yohlaziyo ichaza utshintsho oluthe lwaphunyezwa kuxwebhu. Ezi nguqulelo zidweliswe ngohlaziyo, kuqalwa kolona papasho lwangoku.

Uhlaziyo 4.0
Oku kulandelayo sisishwankathelo sotshintsho olwenziwe kolu hlaziyo.

Hlaziya uxwebhu lweLibero SoC v2021.2.

ISihlomelo 1 esongeziweyo: Ukucwangcisa iSixhobo usebenzisa iFlashPro Express, iphepha le-14.
ISihlomelo sesi-2 esongeziweyo: Ukuqhuba i-TCL Script, iphepha le-16.

Isusiwe iimbekiselo kwiinombolo zenguqulelo yeLibero.

Uhlaziyo 3.0
Hlaziya uxwebhu lweLibero v11.9 SP1 ukukhutshwa kwesoftware.

Uhlaziyo 2.0
Hlaziya uxwebhu lweLibero v11.8 SP2 ukukhutshwa kwesoftware.

Uhlaziyo 1.0
Ukupapashwa kokuqala kolu xwebhu.

Ukufunyanwa kwempazamo kunye noLungiso kwi-RTG4 LSRAM Memory

Olu yilo lwereferensi luchaza ukufunyanwa kwempazamo kunye nolungiso (EDAC) amandla e-RTG4™ FPGA LSRAMs. Kwimeko yokuphazamiseka kwesiganeko esinye (SEU), i-RAM ithande ukuba neempazamo ezidlulayo ezibangelwa yi-ion enzima. Ezi mpazamo zinokubonwa kwaye zilungiswe ngokusebenzisa iikhowudi zokulungisa iimpazamo (ECCs). Iibhloko ze-RAM ze-RTG4 FPGA zinezilawuli ze-EDAC ezakhelwe ngaphakathi ukuvelisa iikhowudi zokulungisa iimpazamo zokulungiswa kwempazamo ye-1-bit okanye ukufumanisa impazamo ye-2-bit.

Ukuba kufunyaniswe impazamo yebhithi e-1, umlawuli we-EDAC ulungisa impazamo encinci kwaye usete iflegi yolungiso lwempazamo (SB_CORRECT) ibe phezulu esebenzayo. Ukuba kufunyenwe impazamo ye-2-bit, umlawuli we-EDAC useta iflegi yokubona impazamo (DB_DETECT) ibephezulu esebenzayo.
Ngolwazi oluthe kratya malunga nokusebenza kwe-RTG4 LSRAM EDAC, bhekisa ku-UG0574: RTG4 FPGA Fabric

Isikhokelo somsebenzisi.
Kolu yilo lwereferensi, impazamo ye-1-bit okanye impazamo ye-2-bit yaziswa nge-SmartDebug GUI. I-EDAC ijongwa kusetyenziswa ujongano lomsebenzisi womzobo (GUI), kusetyenziswa ujongano lwe-UART ukufikelela kwi-LSRAM yokufundwa kwedatha/ukubhala, iLibero® System-on-Chip (SoC) SmartDebug (JTAG) isetyenziselwa ukufaka iimpazamo kwimemori ye-LSRAM.

IiMfuno zoYilo
Uluhlu loku-1 ludwelisa iimfuno zoyilo lwereferensi yokusebenzisa idemo ye-RTG4 LSRAM EDAC.

Uluhlu loku-1 • IiMfuno zoYilo

Isoftware

Libero SoC

I-FlashPro Express
I-SmartDebug

Abaqhubi bePC yokusingatha USB kubaqhubi be-UART

Phawula: I-Libero SmartDesign kunye noqwalaselo lwesikrini sokufota eziboniswe kwesi sikhokelo zezenjongo yomzekeliso kuphela.
Vula uyilo lweLibero ukuze ubone uhlaziyo lwamva nje.

Izinto ezifunekayo kuqala
Ngaphambi kokuba uqale:
Khuphela kwaye ufake i-Libero SoC (njengoko kubonisiwe kwifayile ye webindawo yolu yilo) kwi-PC yokusingatha kule ndawo ilandelayo: https://www.microsemi.com/product-directory/design-resources/1750-libero-soc

Uyilo lwedemo
Khuphela uyilo lwedemo files ukusuka kwiMicrosemi webindawo e: http://soc.microsemi.com/download/rsc/?f=rtg4_dg0703_df

Uyilo lwedemo files ziquka:

Iprojekthi yeLibero SoC

Isifakeli se-GUI
Ukucwangcisa files

Fundame.txt file
TCL_IziBhalo

Isicelo se-GUI kwi-PC yenginginya sikhupha imiyalelo kwisixhobo se-RTG4 ngojongano lwe-USB-UART. Olu jongano lwe-UART lwenziwe ngeCoreUART, eyi-IP enengqondo evela kwikhathalogu ye-IP ye-Libero SoC. I-CoreUART IP kwilaphu le-RTG4 ifumana imiyalelo kwaye iyithumele kwi-logic yedecoder yomyalelo. Ingqiqo yedekhowuda yomyalelo ichaza umyalelo wokufunda okanye wokubhala, owenziwe kusetyenziswa ingqiqo yojongano lwenkumbulo.

Ibhloko yojongano lwenkumbulo isetyenziselwa ukufunda/ukubhala nokubeka iliso kwiiflegi zempazamo ze-LSRAM. I-EDAC eyakhelwe-ngaphakathi ilungisa impazamo ye-1-bit ngelixa ufunda kwi-LSRAM kwaye ibonelela ngedatha elungisiweyo kujongano lomsebenzisi kodwa ayibhali idatha elungisiweyo emva kwe-LSRAM. I-LSRAM EDAC eyakhelwe-ngaphakathi ayisebenzisi uphawu lokukhuhla. Uyilo lwedemo lusebenzisa ingqiqo yokukhuhla, ebeka esweni iflegi ye-1-bit yolungiso kunye nokuhlaziya i-LSRAM ngedatha elungisiweyo ukuba impazamo encinci iyenzeka.
I-SmartDebug GUI isetyenziselwa ukufaka i-1-bit okanye i-2-bit iphutha kwidatha ye-LSRAM.
Umzobo 1 ubonisa umzobo webhloko yenqanaba eliphezulu le-RTG4 LSRAM EDAC uyilo lwedemo.

Umzobo 1 • Umzobo weBhloko okwiNqanaba eliphezulu

Olu lulandelayo luqwalaselo loyilo lwedemo:

I-LSRAM ilungiselelwe imo ye-×18 kwaye i-EDAC yenziwe ngokuqhagamshela ii-LSRAMs ECC_EN isignali ukuya phezulu.
Phawula: I-LSRAM EDAC ixhaswa kuphela kwiindlela ze-× 18 kunye ne-× 36 kuphela.
I-IP ye-CoreUART iqwalaselwe ukuba inxibelelane nesicelo sePC yomkhosi kwizinga le-115200 le-baud.
I-RTG4FCCECALIB_C0 iqwalaselwe ukuba iwotshi i-CoreUART kunye nezinye iilogic zelaphu kwi-80 MHz.

Iimbonakalo
Ezi zilandelayo ziimpawu zoyilo lwedemo:

Funda kwaye ubhalele i-LSRAM
Faka impazamo ye-1-bit kunye ne-2-bit usebenzisa i-SmartDebug
Bonisa amaxabiso eempazamo ze-1-bit kunye ne-2-bit
Isibonelelo sokucoca amaxabiso okubalwa kweempazamo
Yenza okanye uvale ingqiqo yokukhuhla imemori

Inkcazo
Olu yilo lwedemo lubandakanya ukuphunyezwa kwale misebenzi ilandelayo:

Ukuqalisa kunye nokufikelela kwi-LSRAM
Ingqiqo yojongano lwenkumbulo ephunyeziweyo kwingqiqo yelaphu ifumana umyalelo wokuqalisa kwi-GUI kwaye iqalise iindawo zokuqala zememori ezingama-256 ze-LSRAM ngedatha eyongezelelekileyo. Kwakhona yenza imisebenzi yokufunda nokubhala kwiindawo zememori ze-256 ze-LSRAM ngokufumana idilesi kunye nedatha kwi-GUI. Kumsebenzi wokufunda, uyilo luthatha idatha kwi-LSRAM kwaye ibonelela nge-GUI ukuze ibonise. Ulindelo kukuba uyilo aluyi kubangela iimpazamo ngaphambi kokusebenzisa i-SmartDebug.

Phawula: Iindawo zememori ezingamiselwanga zinokuba namaxabiso angaqhelekanga, kwaye i-SmartDebug inokubonisa iimposiso zebit enye okanye kabini kwezo ndawo.

Kufakwe i-1-bit okanye i-2-bit iimpazamo
I-SmartDebug GUI isetyenziselwa ukufaka i-1 bit okanye i-2-bit iimpazamo kwindawo yememori ekhankanyiweyo ye-LSRAM. Le misebenzi ilandelayo yenziwa kusetyenziswa i-SmartDebug ukufaka i-1-bit kunye neempazamo ze-2-bit kwi-LSRAM:
- Vula i-SmartDebug GUI, cofa i-Debug FPGA Array.
- Yiya kwiibhloko zeMemori isithuba, khetha umzekelo wememori, kwaye ucofe ekunene Yongeza.
- Ukufunda ibhloko yememori, cofa i-Funda ibhlokhi.
- Faka impazamo yebit okanye kabini kuyo nayiphi na indawo ye-LSRAM yobunzulu obuthile.
- Ukubhalela kwindawo elungisiweyo, cofa uBhala ibhlokhi.
  Ngexesha le-LSRAM funda kwaye ubhale ukusebenza nge-SmartDebug (JTAG) ujongano, umlawuli we-EDAC ugqwesiwe kwaye akabaleli amasuntswana e-ECC omsebenzi wokubhala kwinyathelo e.

Ukubala kweemposiso
Izixhobo zokubala ze-8-bit zisetyenziselwa ukubonelela ngezibalo zemposiso kwaye ziyilwe kwingqiqo yelaphu ukubala iimpazamo ze-1-bit okanye i-2-bit. Ingqiqo yedekhowuda yomyalelo inika amanani okubalwa kwi GUI xa ifumana imiyalelo kwi GUI.

Ulwakhiwo lwewotshi
Kolu yilo lwedemo, kukho idomeyini yewotshi enye. I-oscillator ye-50 MHz yangaphakathi iqhuba i-RTG4FCCC, eqhubela phambili i-RTG4FCCCECALIB_C0. I-RTG4FCCCECALIB_C0 yenza i-80 MHz iwotshi enika umthombo wewotshi kwi-COREUART, cmd_decoder, TPSRAM_ECC, kunye neemodyuli ze-RAM_RW.
Lo mzobo ulandelayo ubonisa ubume bewotshi boyilo lwedemo.

Umzobo 2 • Ulwakhiwo lokuvala

Lungisa Ulwakhiwo
Kolu yilo lwedemo, umqondiso wokusetha kwakhona kwi-COREUART, cmd_decoder, kunye neemodyuli ze-RAM_RW zinikezelwa nge-LOCK port ye-RTG4FCCCECALIB_C0. Lo mzobo ulandelayo ubonisa ukusetwa kwakhona koyilo lwedemo.

Umzobo 3 • Seta ngokutsha ubume

Ukumisela uYilo lweDemo
La macandelo alandelayo achaza indlela yokuseta i-RTG4 Development Kit kunye ne-GUI ukuqhuba uyilo lwedemo.

Izicwangciso zeJumper

Qhagamshela abatsiba kwi-RTG4 Development Kit, njengoko kubonisiwe kwiTheyibhile yesi-2.
Itheyibhile 2 • Iisetingi zeJumper

Umtsi	Iphini (Ukusuka)	I-Pin (Ukuya)	Amagqabantshintshi
I-J11, i-J17, i-J19, i-J21, i-J23, i-J26, i-J27, i-J28	1	2	Ukuhlala kukho
J16	2	3	Ukuhlala kukho
J32	1	2	Ukuhlala kukho
J33	1	3	Ukuhlala kukho
	2	4

Phawula: Cima isitshixo sombane, SW6, ngelixa udibanisa abaxhuma.

Qhagamshela intambo ye-USB (i-USB encinci ukuya ku-Type-A intambo ye-USB) ukuya kwi-J47 ye-RTG4 Development Kit kunye nesinye isiphelo sentambo kwizibuko le-USB le-PC yenginginya.

Qinisekisa ukuba i-USB kubaqhubi bebhulorho ye-UART babhaqwa ngokuzenzekelayo. Oku kunokuqinisekiswa kumphathi wesixhobo se-PC yokusingatha.
Umzobo 4 ubonisa iipropati zesiriyali se-USB 2.0 kunye ne-COM31 eqhagamshelweyo kunye ne-USB serial converter C.

Umfanekiso 4 • USB ukuya kwi-UART Bridge Drivers

Phawula: Ukuba i-USB kubaqhubi bebhulorho ye-UART ayifakwanga, khuphela kwaye ufake abaqhubi ukusuka www.microsemi.com//documents/CDM_2.08.24_WHQL_Certified.zip

Umzobo we-5 ubonisa ukusekwa kwebhodi ekusebenziseni idemo ye-EDAC kwi-RTG4 Development Kit.

Ukucwangcisa uYilo lweDemo

Qalisa isoftware yeLibero SOC.
Ukucwangcisa i-RTG4 Development Kit nomsebenzi file inikezelwe njengenxalenye yoyilo files usebenzisa isoftware yeFlashPro Express, bhekisa kwiSihlomelo 1: UkuCwangcisa iSixhobo Usebenzisa iFlashPro Express,iphepha le-14.
Phawula: Nje ukuba inkqubo yenziwe kunye nomsebenzi file ngeFlashPro Express software, qhubela phambili kwi-EDAC Demo GUI, iphepha 9. Ngaphandle koko, qhubela phambili kwisinyathelo esilandelayo.

Kuyilo lokuhamba kweLibero, cofa i-Run Program action.
Nje ukuba uCwangciso lugqityiwe, uphawu oluluhlaza luvela phambi 'kokuSebenzisa intshukumo yeNkqubo' ebonisa inkqubo eyimpumelelo yoyilo lwedemo.

EDAC Demo GUI
Idemo ye-EDAC ibonelelwe nge-GUI esebenziseka lula, njengoko kubonisiwe kuMfanekiso 7, osebenza kwi-PC yokusingatha, enxibelelana ne-RTG4 Development Kit. I-UART isetyenziswa njengomgaqo wonxibelelwano phakathi kwe-PC yomkhosi kunye neKit yoPhuhliso lwe-RTG4.

I-GUI inala macandelo alandelayo:

Ukukhetha i-COM port ukuseka uxhulumaniso lwe-UART kwi-RTG4 FPGA kunye ne-115200 yezinga le-baud.
LSRAM Inkumbulo Bhala: Ukubhala i-8-bit yedatha kwidilesi yememori ekhankanyiweyo ye-LSRAM.
Ukukhuhla iMemori: Ukwenza okanye ukuvala ingqiqo yokukhuhla.

Imemori ye-LSRAM Funda: Ukufunda i-8-bit yedatha kwidilesi ekhankanyiweyo yememori ye-LSRAM.
Ubalo lwemposiso: Ibonisa isibalo semposiso kwaye ibonelela ngokukhetha ukucima ixabiso lekhawuntari ukuya kwiqanda.
Ubalo lwemposiso ye-1-bit: Ibonisa i-1-bit ubalo lwempazamo kwaye ibonelela ngokhetho lokucima ixabiso lekhawuntari ukuya ku-zero.

2-bit Ubalo lwemposiso: Ibonisa i-2-bit count yemposiso kwaye inikeza ukhetho lokucima ixabiso lekhawuntari ukuya kwiqanda.
Idatha yeLog: Ibonelela ngolwazi lobume kuwo wonke umsebenzi owenziwe kusetyenziswa i-GUI.

Ukuqhuba iDemo
La manyathelo alandelayo achaza indlela yokuqhuba idemo:

Yiya e \v1.2.2\v1.2.2\Exe uze ucofe kabini EDAC_GUI.exe njengoko kubonisiwe kuMfanekiso 8.
Khetha izibuko le-COM31 kuluhlu kwaye ucofe Qhagamshela.

Isitofu sempazamo encinci enye kunye nolungiso

Kuyilo olunikiweyo lweLibero, cofa kabini kwi-SmartDebug Design kuyilo lokuhamba.
Kwi-SmartDebug GUI, cofa i-Debug FPGA Array.

Kwi-Debug ye-FPGA ye-Array yefestile, yiya kwi-Memory Blocks tab. Iya kubonisa ibhloko ye-LSRAM kuyilo ngengqiqo kunye nomzimba view. Iibhloko zengqiqo ziboniswa nge-icon ye-L, kwaye iibhloko ezibonakalayo ziboniswa nge-icon ye-P.
Khetha umzekelo webhloko kwaye ucofe ekunene Yongeza.
Ukufunda ibhloko yememori, cofa i-Funda ibhlokhi.

Faka impazamo encinci ye-1 kwi-8 bit data kuyo nayiphi na indawo ye-LSRAM ukuya kubunzulu obungama-256, njengoko kubonisiwe kulo mfanekiso ulandelayo apho i-1 bit impazamo itofwe kwindawo ye-0 ye-LSRAM.
Cofa uBhala iBhlokhi ukuze ubhale idatha elungisiweyo kwindawo ekujoliswe kuyo.
Yiya kwi-EDAC GUI kwaye ufake indawo yeDilesi kwicandelo le-LSRAM yokuFunda iMemori kwaye ucofe ku-Funda, njengoko kubonisiwe kulo mfanekiso ulandelayo.

Jonga i-1 Bit Imposiso yokubala kwaye ufunde iindawo zeDatha kwi-GUI. Ixabiso lobalo lwempazamo lonyuka ngo-1.
I-Read Data field ibonisa idatha echanekileyo njengoko i-EDAC ilungisa i-bit error bit.

Phawula: Ukuba ukukhuhlwa kwenkumbulo akwenziwanga, ngoko ke ubalo lwemposiso luyonyuswa kufundo ngalunye olusuka kwidilesi enye ye-LSRAM njengoko ibangela impazamo ye-1-bit.

Isitofu sempazamo encinci kabini kunye nokuFumana

Yenza inyathelo loku-1 ukuya kwinyathelo lesi-5 njengoko linikiwe kwinaliti yempazamo encinci enye kunye nolungiso, iphepha le-10.
Faka impazamo ye-2-bit kwidatha ye-8-bit kuyo nayiphi na indawo ye-LSRAM ukuya kubunzulu obungama-256, njengoko kubonisiwe kulo mfanekiso ulandelayo apho impazamo ye-2-bit itofwe kwindawo 'A' ye-LSRAM.
Cofa uBhala iBloko ukuze ubhale idatha elungisiweyo kwindawo ekujoliswe kuyo.

Yiya kwi-EDAC GUI kwaye ufake indawo yeDilesi kwicandelo le-LSRAM yokuFunda iMemori kwaye ucofe ku-Funda, njengoko kubonisiwe kulo mfanekiso ulandelayo.
Jonga i-2-bit yempazamo yokubala kwaye ufunde imihlaba yeDatha kwi-GUI. Ixabiso lobalo lwempazamo lonyuka ngo-1.
Indawo yeDatha yokuFunda ibonisa idatha eyonakeleyo.

Zonke izenzo ezenziwe kwi-RTG4 zifakwe kwi-Serial Console icandelo le-GUI.

Ukuqukumbela
Le demo ibalaselisa amandla e-EDAC eenkumbulo ze-RTG4 LSRAM. Impazamo ye-1-bit okanye impazamo ye-2-bit yaziswa nge-SmartDebug GUI. Ukulungiswa kwempazamo ye-1-bit kunye nokufunyanwa kwempazamo ye-2-bit kubonwa kusetyenziswa i-EDAC GUI.

Ukucwangcisa isixhobo usebenzisa iFlashPro Express

Eli candelo lichaza indlela yokucwangcisa isixhobo seRTG4 ngomsebenzi wodweliso lwenkqubo file usebenzisa iFlashPro Express.

Ukucwangcisa isixhobo, yenza la manyathelo alandelayo:

Qinisekisa ukuba useto lwe-jumper ebhodini luyafana nezo zidweliswe kwiThebhile 3 ye-UG0617:
Isikhokelo soMsebenzisi se-RTG4 yeKit yoPhuhliso.
Ngokuzikhethela, i-jumper J32 inokusetwa ukudibanisa izikhonkwane ezi-2-3 xa usebenzisa iFlashPro4 yangaphandle, iFlashPro5, okanye iFlashPro6 umdwelisi endaweni yokusetwa kwejumper engagqibekanga ukusebenzisa iFlashPro5 edibeneyo.
Phawula: Ukutshintsha kombane, i-SW6 kufuneka icinywe ngelixa udibanisa i-jumper.

Qhagamshela intambo yombane kwisidibanisi se-J9 ebhodini.
Amandla KWISwitshi yokubonelela ngombane SW6.
Ukuba usebenzisa iFlashPro5 elungisiweyo, qhagamshela intambo ye-USB kwisidibanisi i-J47 kunye ne-PC yomkhosi.
Kungenjalo, ukuba usebenzisa umdwelisi wenkqubo wangaphandle, qhagamshela intambo yeribhoni kuJTAG header J22 kwaye uqhagamshele umdwelisi weprogram kwi-PC yokusingatha.

Kwi-PC yomkhosi, vula isoftware yeFlashPro Express.
Cofa eNtsha okanye ukhethe iProjekthi yeMisebenzi eNtsha kwiFlashPro Express Job kwimenyu yeProjekthi ukwenza iprojekthi entsha yomsebenzi, njengoko kubonisiwe kulo mfanekiso ulandelayo.
Ngenisa oku kulandelayo kwiProjekthi yeMisebenzi eNtsha esuka kwibhokisi yencoko yababini yeFlashPro Express Job:
- Umsebenzi wokucwangcisa fileNONE file ibekwe kwaye ukhethe i file. Indawo emiselweyo yile: \rtg4_dg0703_df\Programming_Job
- Indawo yeprojekthi yeFlashPro Express: Cofa Jonga kwaye uhambe uye kwindawo yeprojekthi yeFlashPro Express oyifunayo.
Cofa u-Kulungile. Inkqubo efunekayo file ikhethiwe kwaye ilungele ukucwangciswa kwisixhobo.

Ifestile yeFlashPro Express iya kuvela, qinisekisa ukuba inombolo yomdwelisi ibonakala kwibala loMdwelisi. Ukuba ayenzi njalo, qinisekisa udibaniso lwebhodi kwaye nqakraza Hlaziya/Rescan Programmers.
Cofa u-RUN. Xa ifowuni icwangciswe ngempumelelo, imo ye-RUN PASSED iboniswa njengoko kubonisiwe kulo mfanekiso ulandelayo.
Vala iFlashPro Express okanye ucofe uPhuma kwiProjekthi ithebhu.

Ukuqhuba iSikripthi se-TCL

Iincwadi zeempendulo ze-TCL zinikwe kuyilo files incwadi eneenkcukacha phantsi kolawulo TCL_Scripts. Ukuba kuyimfuneko, uyilo
ukuhamba kungaveliswa kwakhona ukusuka kuYilo loPhumezo kude kuvele umsebenzi file.

Ukusebenzisa i-TCL, landela la manyathelo angezantsi:

Qalisa isoftware yeLibero

Khetha iProjekthi > Phumeza i-Script….
Cofa u-Bhrawuza kwaye ukhethe i-script.tcl kuluhlu olukhutshelweyo lwe-TCL_Scripts.
Cofa u-Run.

Emva kokuphunyezwa ngempumelelo kweskripthi se-TCL, iprojekthi ye-Libero yenziwa ngaphakathi kwe-TCL_Scripts directory.
Ngolwazi oluthe vetshe malunga nezikripthi ze-TCL, jonga ku-rtg4_dg0703_df/TCL_Scripts/readme.txt.
Jonga kwiSikhokelo soMyalelo weLibero® SoC TCL ngeenkcukacha ezithe vetshe kwimiyalelo ye-TCL. Qhagamshelana neNkxaso yobuGcisa kuyo nayiphi na imibuzo efunyenweyo xa uqhuba iskripthi se-TCL.

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Ukuhlaziywa kwe-Microsemi Proprietary DG0703 4.0

Amaxwebhu / Izibonelelo

I-MICROCHIP yokuFumana impazamo kunye noLungiso kwi-RTG4 LSRAM Memory [pdf] Isikhokelo somsebenzisi
Idemo ye-DG0703, ukufunyanwa kwempazamo kunye noLungiso kwi-RTG4 LSRAM iMemori, ukuFunyaniswa kunye noLungiso kwi-RTG4 LSRAM iMemori, i-RTG4 LSRAM inkumbulo, i-LSRAM inkumbulo

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