Engineering Projects on Tanner EDA Tool!
Tanner EDA is a leading software tool for the design and verification of integrated circuits (ICs), and it is widely used in the semiconductor industry. As an academic institution, we believe in providing our students with hands-on experience with industry-standard tools and techniques, and that is why we offer projects on Tanner EDA Tool.
Project Code: TVPGTO844
Project Title:Design and Analysis of Low-Power High Performance 4-Bit Parallel Shift Register using Retentive True Single Phase Clocked D-Flip FlopView DetailsProject Code: TVPGTO899
Project Title:A Partially Static High Frequency 18T Hybrid Topological Flip-Flop Design for Low Power ApplicationView DetailsProject Code: TVPGTO842
Project Title:Design and optimization of MIMO filter using current conveyorView DetailsProject Code: TVPGTO892
Project Title:Performance Analysis of 4-Bit Multiplier using 90nm TechnologyView DetailsProject Code: TVPGTO850
Project Title:A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise MarginsView DetailsProject Code: TVPGTO905
Project Title:A Unified NVRAM and TRNG in Standard CMOS TechnologyView DetailsProject Code: TVPGTO903
Project Title:An Accurate Low-Power Power-on-Reset Circuit in 55-nm CMOS TechnologyView DetailsProject Code: TVPGTO923
Project Title:Low Power and High-Performance Associative Memory DesignLow Power VLSI| Transistor Logic
View DetailsProject Code: TVPGTO930
Project Title:High-Speed Grouping and Decomposition Multiplier for Binary MultiplicationView DetailsProject Code: TVPGTO588
Project Title:A Very-Low-Voltage Frequency Divider in Folded MOS Current Mode Logic With Complementary n- and p-type Flip-FlopsView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVPGTO844 | Design and Analysis of Low-Power High Performance 4-Bit Parallel Shift... | |
| 2 | TVPGTO899 | A Partially Static High Frequency 18T Hybrid Topological Flip-Flop Des... | |
| 3 | TVPGTO842 | Design and optimization of MIMO filter using current conveyor | |
| 4 | TVPGTO892 | Performance Analysis of 4-Bit Multiplier using 90nm Technology | |
| 5 | TVPGTO850 | A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise ... | |
| 6 | TVPGTO905 | A Unified NVRAM and TRNG in Standard CMOS Technology | |
| 7 | TVPGTO903 | An Accurate Low-Power Power-on-Reset Circuit in 55-nm CMOS Technology | |
| 8 | TVPGTO923 | Low Power and High-Performance Associative Memory Design | |
| 9 | TVPGTO930 | High-Speed Grouping and Decomposition Multiplier for Binary Multiplica... | |
| 10 | TVPGTO588 | A Very-Low-Voltage Frequency Divider in Folded MOS Current Mode Logic ... |
Project Code: TVPGTO844
Project Title:Design and Analysis of Low-Power High Performance 4-Bit Parallel Shift Register using Retentive True Single Phase Clocked D-Flip FlopView DetailsProject Code: TVPGTO899
Project Title:A Partially Static High Frequency 18T Hybrid Topological Flip-Flop Design for Low Power ApplicationView DetailsProject Code: TVPGTO842
Project Title:Design and optimization of MIMO filter using current conveyorView DetailsProject Code: TVPGTO892
Project Title:Performance Analysis of 4-Bit Multiplier using 90nm TechnologyView DetailsProject Code: TVPGTO850
Project Title:A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise MarginsView DetailsProject Code: TVPGTO905
Project Title:A Unified NVRAM and TRNG in Standard CMOS TechnologyView DetailsProject Code: TVPGTO903
Project Title:An Accurate Low-Power Power-on-Reset Circuit in 55-nm CMOS TechnologyView DetailsProject Code: TVPGTO923
Project Title:Low Power and High-Performance Associative Memory DesignLow Power VLSI| Transistor Logic
View DetailsProject Code: TVPGTO930
Project Title:High-Speed Grouping and Decomposition Multiplier for Binary MultiplicationView DetailsProject Code: TVPGTO588
Project Title:A Very-Low-Voltage Frequency Divider in Folded MOS Current Mode Logic With Complementary n- and p-type Flip-FlopsView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVPGTO844 | Design and Analysis of Low-Power High Performance 4-Bit Parallel Shift... | |
| 2 | TVPGTO899 | A Partially Static High Frequency 18T Hybrid Topological Flip-Flop Des... | |
| 3 | TVPGTO842 | Design and optimization of MIMO filter using current conveyor | |
| 4 | TVPGTO892 | Performance Analysis of 4-Bit Multiplier using 90nm Technology | |
| 5 | TVPGTO850 | A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise ... | |
| 6 | TVPGTO905 | A Unified NVRAM and TRNG in Standard CMOS Technology | |
| 7 | TVPGTO903 | An Accurate Low-Power Power-on-Reset Circuit in 55-nm CMOS Technology | |
| 8 | TVPGTO923 | Low Power and High-Performance Associative Memory Design | |
| 9 | TVPGTO930 | High-Speed Grouping and Decomposition Multiplier for Binary Multiplica... | |
| 10 | TVPGTO588 | A Very-Low-Voltage Frequency Divider in Folded MOS Current Mode Logic ... |
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Takeoff Edu Group offer students a unique opportunity to work with real-world IC design problems and to develop their skills in using the tanner EDA tool. Whether you are a student of electrical engineering, computer engineering, or another related field, our projects will give you a solid foundation in IC design and verification.
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Our projects on Tanner EDA tool are designed to be challenging, yet accessible, and to give you a thorough understanding of the tool and its capabilities. Our projects are also designed to be flexible, so you can tailor them to your own interests and goals, and to give you the opportunity to explore new and innovative IC design solutions.
At the end of each project, you will have a portfolio of completed IC design projects that you can showcase to potential employers and that demonstrate your expertise in using Tanner EDA Tool.
So, if you are looking for a unique and valuable academic project experience, look no further than our projects on Tanner EDA Tool! Contact us today to get started on your journey towards a successful career in IC design.
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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, and not projects of or by IEEE.
