We are a team of experienced engineers and developers who specialize in creating innovative and cutting-edge final year engineering projects for students.
Our goal is to provide students with the opportunity to showcase their skills and knowledge while working on real-world projects that have the potential to make a positive impact on society. Our final year engineering projects are designed to help students develop their technical and professional skills, and to prepare them for successful careers in their chosen field.
Project Code: TVMABE405
Project Title:Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC ApplicationsView DetailsProject Code: TVMABE402
Project Title:Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit ApplicationsNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE378
Project Title:Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-Based Ripple Carry Adder with 10T Full Adders in 90nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE374
Project Title:Sustainable Circuit Design of Energy Efficient 16 bit Counter using Adiabatic LogicView DetailsProject Code: TVMABE364
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE359
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE356
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE351
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE344
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE405 | Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC Appli... | |
| 2 | TVMABE402 | Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit A... | |
| 3 | TVMABE378 | Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-B... | |
| 4 | TVMABE374 | Sustainable Circuit Design of Energy Efficient 16 bit Counter using Ad... | |
| 5 | TVMABE364 | Combinational and Sequential Design Logic for Ternary System | |
| 6 | TVMABE359 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 7 | TVMABE356 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 8 | TVMABE351 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 9 | TVMABE347 | A Transformer Feedback Oscillator | |
| 10 | TVMABE344 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... |
Project Code: TVMABE405
Project Title:Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC ApplicationsView DetailsProject Code: TVMABE402
Project Title:Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit ApplicationsNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE378
Project Title:Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-Based Ripple Carry Adder with 10T Full Adders in 90nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE374
Project Title:Sustainable Circuit Design of Energy Efficient 16 bit Counter using Adiabatic LogicView DetailsProject Code: TVMABE364
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE359
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE356
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE351
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE344
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE405 | Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC Appli... | |
| 2 | TVMABE402 | Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit A... | |
| 3 | TVMABE378 | Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-B... | |
| 4 | TVMABE374 | Sustainable Circuit Design of Energy Efficient 16 bit Counter using Ad... | |
| 5 | TVMABE364 | Combinational and Sequential Design Logic for Ternary System | |
| 6 | TVMABE359 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 7 | TVMABE356 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 8 | TVMABE351 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 9 | TVMABE347 | A Transformer Feedback Oscillator | |
| 10 | TVMABE344 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... |
Project Code: TVMABE405
Project Title:Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC ApplicationsView DetailsProject Code: TVMABE402
Project Title:Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit ApplicationsNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE378
Project Title:Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-Based Ripple Carry Adder with 10T Full Adders in 90nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE374
Project Title:Sustainable Circuit Design of Energy Efficient 16 bit Counter using Adiabatic LogicView DetailsProject Code: TVMABE364
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE359
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE356
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Low Power VLSI
View DetailsProject Code: TVMABE351
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Low Power VLSI
View DetailsProject Code: TVMABE344
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Low Power VLSI
View Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE405 | Reliable Multistate RRAM Devices for Reconfigurable CAM and IMC Appli... | |
| 2 | TVMABE402 | Photonic Crystal-Based D Flip-Flops for Ultrafast Sequential Circuit A... | |
| 3 | TVMABE378 | Design and Implementation of a 4-Bit Carry Select Adder using MTCMOS-B... | |
| 4 | TVMABE374 | Sustainable Circuit Design of Energy Efficient 16 bit Counter using Ad... | |
| 5 | TVMABE364 | Combinational and Sequential Design Logic for Ternary System | |
| 6 | TVMABE359 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 7 | TVMABE356 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 8 | TVMABE351 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 9 | TVMABE347 | A Transformer Feedback Oscillator | |
| 10 | TVMABE344 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... |
We offer a wide range of final year engineering projects in various domains such as Artificial Intelligence, Machine Learning, Internet of Things, Robotics, Biomedical Engineering, and more. Our projects are designed to be challenging and engaging, and are tailored to meet the specific needs of each student.
We understand that completing a final year engineering projects can be stressful, which is why we provide our students with the support and guidance they need to complete their projects successfully. Our team is available to help with the project planning, research, development, and implementation phases, and we also provide mentorship and coaching to help students develop their professional skills.
If You Are Looking for the Final Year Engineering Projects & Support
We are dedicated to providing our students with the best possible experience and are committed to helping them achieve their goals. If you're looking for an engaging and challenging final year project that will set you apart from the rest, look no further than our team of experts. Contact us today to learn more about our services and to discuss your final year engineering projects ideas.
Don't miss this opportunity to work on cutting-edge projects and stand out in the job market! Contact us today to reserve your spot and take the first step towards a successful career in your field.
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Disclaimer - Takeoff Edu Group Projects are not associated or affiliated with IEEE in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, not projects of or by IEEE.
