Your Appreciations, care and share matters a lot to me. #EnginneringLove. All the subjects playlist of Engineering Funda is available in comment section. Share it with your friends to support us. Your positive comments motivates me and person like me get boosted by my students feedback. Thanks and welcome 🙏
All the subjects playlist of Engineering Funda is available in comment section. Share it with your friends to support us. Your positive comments motivates me and person like me get boosted by my students feedback. Thanks and welcome 🙏
@@EngineeringFunda sir do you think it's fair for our teacher to give us all 74 of these videos as assignment to learn them in 3 days and then take as well Do you think that's fair
@@EngineeringFunda I'm not about you; one of our university teachers told us to watch all these 74 videos in 3 days and he'll take a quiz from theses, I was saying that this isn't fair in my opinion
I'm too late, but here's it - Opcode fetch takes 4T states, i.e. 1 machine cycle (MC) - Read operation takes 3T states, that's also 1 machine cycle (MC) - Write operation takes 3T states, that's also 1 machine cycle (MC) Now that depends on instructions, 1 byte instruction (operation only on internal registers): 4T states = 1 machine cycle (MC) 2 bytes instruction, load immediate: 1st opcode fetch: 4T states = 1 MC 2nd data load/read: 3T states = 1 MC (Add them: 7T states = 2 MC) 3 bytes instruction, store direct: [ STA ] 1st opcode fetch: 4T states = 1 MC 2nd address load/read (lower byte): 3T states = 1 MC 3rd address load/read (higher byte): 3T states = 1 MC 4th writing/storing (writing to memory): 3T states = 1 MC (Total: 13T states = 4 machine cycles) Just understand instruction, keep in mind only 1 byte of data transfer is possible once (in 1 machine cycle) & calculate.
🔥All Premium Courses Link of Engineering Funda🔥
docs.google.com/spreadsheets/d/1LeLxZPGiMB_ZDZggbZp3P7fK516pXYhVgZA__djNkWM/edit#gid=0
⬇ *Premium Courses of Engineering Funda* ⬇
✅ *༺🚩Computer Network 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e6fvY8yegkzDBiK7ywj8ZhK.html
✅ *༺🚩Computer Architecture & Organization 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7XZXcFujMw--IDZ2nnsXNT.html
✅ *༺🚩ARM Processor 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7nFEozQhZDZDSm09SwqbGP.html
✅ *༺🚩Internet of Things - IoT 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e6FvFUItZbGYnKiqjrlLpCb.html
✅ *༺🚩Microprocessor 8085 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5vHwmowy_kGtjq9Ih0FzwN.html
✅ *༺🚩Microprocessor 8086 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e4oAeDid0hwuiol_RJdscrp.html
✅ *༺🚩AVR Microcontroller 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e55CdbY_WnY6pejPHoojCkJ.html
✅ *༺🚩8051 Microcontroller 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e49i6neo70aGtFLvKeZ3IQD.html
✅ *༺🚩80386 & Pentium Processor 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7f4yPj6AbrUoburKwX0fFA.html
✅ *༺🚩Embedded System 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5xvXygtghfi-tzyeACx7CO.html
✅ *༺🚩VLSI 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e6au9bX9P_bA3ywxqigCsaC.html
✅ *༺🚩Digital Electronics 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7nYSG31YWEUfwgAp2uIOBY.html
✅ *༺🚩Network Theory 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7AccPu8mUhhsJNol9uIKTJ.html
✅ *༺🚩Control Engineering 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e43et6qbo4IqYSJCv-6kN90.html
✅ *༺🚩Electromagnetic Theory 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e4I_YltJja47CwZJkzNWK89.html
✅ *༺🚩Power Electronics 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5Hnu82T1CYLZ8kbZs4Jx8x.html
✅ *༺🚩Electronic Devices 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5G05PTgyTTSVyzTOKRfmTn.html
✅ *༺🚩Signal and System 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7VdLw7PebRTcZXb_4nKeVh.html
✅ *༺🚩Optical Communication 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7CDIWsh61eItP9iRw1EIQc.html
✅ *༺🚩Analog Communication 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7uyUYrpgUUQowmRuKxRdwp.html
✅ *༺🚩Digital Communication 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5PngHbdEadEun5XPvnn00N.html
✅ *༺🚩Antennas & wave Propagation 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7tzLIDL4aXUbtRFY3ykmkT.html
✅ *༺🚩Microwave Engineering 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e6A4Mtxud6xPHE1UecxWsHW.html
✅ *༺🚩Basic Electronics 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e76qHT4VOu9uTw8wj0i4blS.html
✅ *༺🚩Analog Electronics 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5u1DJ5jfTcj6m1GX-cEdm8.html
✅ *༺🚩Digital Signal Processing 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e4QMlcn_WS85C78UFFNTcbp.html
✅ *༺🚩RADAR Engineering 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e4KmA52Jw3-JhDhFIDQZ9Bv.html
✅ *༺🚩Audio Video System / TV 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7EJcPI0P_DMw49ufTYfuOz.html
✅ *༺🚩Engineering Drawing/ Graphics 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e79xuABrIQeXYlGuuickEz7.html
✅ *༺🚩Basic Mechanical Engineering 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e7Fe4vAYDaL0bpseGNhc9on.html
✅ *༺🚩Mechanics of Solid 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e53xcLCS7ay2iLRolNxyxFk.html
✅ *༺🚩Theory of Computation 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e6GfXdwqWX5YmszV2KGv-yl.html
✅ *༺🚩Java Programming 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5BeN1WTXg1ENPtkRR3SfCI.html
✅ *༺🚩Python Programming 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5pY2eB-Lht2_CerQue0Xo4.html
✅ *༺🚩Placement Test series on C 🚩༻* - ua-cam.com/play/PLgwJf8NK-2e5ovLgoJkv0Pn58UrucrTPt.html
✅ *༺ Please Share it with your friends to support us. ༻*
👉 *༺ You can also support us by joining us ༻* : ua-cam.com/channels/dlnqMpRrMcClK2fT6z8EEw.htmljoin
Salute sir, for this peice of art you presented... truly makes study simpler in every aspect
Your Appreciations, care and share matters a lot to me. #EnginneringLove.
All the subjects playlist of Engineering Funda is available in comment section. Share it with your friends to support us.
Your positive comments motivates me and person like me get boosted by my students feedback. Thanks and welcome 🙏
really helpful sir , short precise and clear
All the subjects playlist of Engineering Funda is available in comment section. Share it with your friends to support us.
Your positive comments motivates me and person like me get boosted by my students feedback. Thanks and welcome 🙏
@@EngineeringFunda sir do you think it's fair for our teacher to give us all 74 of these videos as assignment to learn them in 3 days and then take as well
Do you think that's fair
@@Nero_9000 : My videos in assignment 😅.
I personally don't do this for sure.
@@EngineeringFunda I'm not about you; one of our university teachers told us to watch all these 74 videos in 3 days and he'll take a quiz from theses, I was saying that this isn't fair in my opinion
@@Nero_9000 : i haven't say anything to your teacher dear. I don't know why and what assignment is given to you.
how machine cycles and T states are comming 4,13..... and so on ?
I'm too late, but here's it
- Opcode fetch takes 4T states, i.e. 1 machine cycle (MC)
- Read operation takes 3T states, that's also 1 machine cycle (MC)
- Write operation takes 3T states, that's also 1 machine cycle (MC)
Now that depends on instructions,
1 byte instruction (operation only on internal registers): 4T states = 1 machine cycle (MC)
2 bytes instruction, load immediate:
1st opcode fetch: 4T states = 1 MC
2nd data load/read: 3T states = 1 MC
(Add them: 7T states = 2 MC)
3 bytes instruction, store direct: [ STA ]
1st opcode fetch: 4T states = 1 MC
2nd address load/read (lower byte): 3T states = 1 MC
3rd address load/read (higher byte): 3T states = 1 MC
4th writing/storing (writing to memory): 3T states = 1 MC
(Total: 13T states = 4 machine cycles)
Just understand instruction, keep in mind only 1 byte of data transfer is possible once (in 1 machine cycle) & calculate.