Pantech offers projects in VLSI design using VHDL and FPGA Processor Implementation. We offers on Xilinx tools, Spartan3, Spartan6, Low power Design and Architecture design.
Pantech vlsi [xilinx ise & spartan fpga] 2016-17Java Team
This document contains details of 860 projects related to VLSI design and image processing. The projects cover various applications including analog to digital converters, memory circuits, digital multipliers, signal processing, computer vision, quantum computing and more. Each project listing includes a project code, theme, application, technology used and core. A variety of design tools are also referenced like Cadence, Xilinx ISE, Modelsim and image processing tools.
VLSI Projects, IC Design, Low Power VLSI, Power Management, BIST, FPGA Projec...Manoj Subramanian
This document contains 90 project codes related to VLSI design and applications. The project codes cover various topics including low power design, arithmetic circuits, sequential circuits, FPGA design, image processing, cryptography, and biomedical applications. Xilinx ISE and Spartan 3 FPGA are mentioned as the main tools and hardware used. The majority of the projects involve circuit design and implementation for applications such as avionics, communications, computer vision, and power management.
This document contains a list of 100 topics related to VLSI design. Each topic is assigned a unique reference code starting with PSVLSI and followed by a 3-digit number. The topics cover various fields of VLSI design including communication systems, architectural designs, protocol designs, low power designs, digital image processing, cryptography algorithms, real-time/embedded applications, softcore processor design, and security algorithms. The document also lists the email address and websites for the organization providing the VLSI design courses.
This document lists over 80 project codes related to wireless communication systems and technologies such as cognitive radio networks, LTE, MIMO, and OFDM. The projects involve topics like energy efficient resource allocation, spectrum sensing, channel estimation, interference mitigation, and power control. The projects are from 2014-2016 and focus on applying techniques like genetic algorithms, cooperative communications, and massive MIMO to optimize system performance metrics like capacity, throughput, energy efficiency, and bit error rate.
This document contains a list of 900+ project codes related to various embedded systems and IoT applications. The projects cover topics such as home automation, industrial monitoring, healthcare, smart cities, robotics, and more. Each project is categorized by its application domain and technology used.
Vision Groups provides IEEE and M.Tech projects for students, with a focus on VLSI projects. They list over 100 potential VLSI and embedded systems project titles. They offer project guidance and support through completion. Their services include project reports, diagrams, presentations, demonstrations and certification upon completion. They have multiple locations and provide both online and in-person support.
Ieee 2020 21 vlsi projects in pondicherry,ieee vlsi projects in chennaiNexgen Technology
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: mailtonexgentech@gmail.com.
www.nexgenproject.com
Mobile: 9791938249,9025656779
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
Pantech vlsi [xilinx ise & spartan fpga] 2016-17Java Team
This document contains details of 860 projects related to VLSI design and image processing. The projects cover various applications including analog to digital converters, memory circuits, digital multipliers, signal processing, computer vision, quantum computing and more. Each project listing includes a project code, theme, application, technology used and core. A variety of design tools are also referenced like Cadence, Xilinx ISE, Modelsim and image processing tools.
VLSI Projects, IC Design, Low Power VLSI, Power Management, BIST, FPGA Projec...Manoj Subramanian
This document contains 90 project codes related to VLSI design and applications. The project codes cover various topics including low power design, arithmetic circuits, sequential circuits, FPGA design, image processing, cryptography, and biomedical applications. Xilinx ISE and Spartan 3 FPGA are mentioned as the main tools and hardware used. The majority of the projects involve circuit design and implementation for applications such as avionics, communications, computer vision, and power management.
This document contains a list of 100 topics related to VLSI design. Each topic is assigned a unique reference code starting with PSVLSI and followed by a 3-digit number. The topics cover various fields of VLSI design including communication systems, architectural designs, protocol designs, low power designs, digital image processing, cryptography algorithms, real-time/embedded applications, softcore processor design, and security algorithms. The document also lists the email address and websites for the organization providing the VLSI design courses.
This document lists over 80 project codes related to wireless communication systems and technologies such as cognitive radio networks, LTE, MIMO, and OFDM. The projects involve topics like energy efficient resource allocation, spectrum sensing, channel estimation, interference mitigation, and power control. The projects are from 2014-2016 and focus on applying techniques like genetic algorithms, cooperative communications, and massive MIMO to optimize system performance metrics like capacity, throughput, energy efficiency, and bit error rate.
This document contains a list of 900+ project codes related to various embedded systems and IoT applications. The projects cover topics such as home automation, industrial monitoring, healthcare, smart cities, robotics, and more. Each project is categorized by its application domain and technology used.
Vision Groups provides IEEE and M.Tech projects for students, with a focus on VLSI projects. They list over 100 potential VLSI and embedded systems project titles. They offer project guidance and support through completion. Their services include project reports, diagrams, presentations, demonstrations and certification upon completion. They have multiple locations and provide both online and in-person support.
Ieee 2020 21 vlsi projects in pondicherry,ieee vlsi projects in chennaiNexgen Technology
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: mailtonexgentech@gmail.com.
www.nexgenproject.com
Mobile: 9791938249,9025656779
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
VLSI IEEE PROJECTS LIST 2015 - 2016 / IEEE VLSI PROJECTS LIST 2015 - 2016CLAROZONTECHNOLOGIES
This document contains a list of 42 VLSI IEEE papers from 2015-2016. The papers are numbered from CLVLSI-01 to CLVLSI-42 and include the title, year of publication, and in some cases additional details. The papers cover a range of topics related to VLSI design including multipliers, error correction, low power design, FPGA architectures, and more. All of the papers appear to have been published between January 2015 and December 2015.
The document describes 11 VLSI projects from 2015 presented by NEXGEN TECHNOLOGY. The projects include low-power clock generators, FFT architectures, error correcting codes, content addressable memories, charge pump converters, delta-sigma modulators, clock skew compensation circuits, obfuscated DSP circuits, scalar conversion for cryptoprocessors, reconfigurable controllers for synchronization, and level-converting retention flip-flops. NEXGEN TECHNOLOGY is located in Pondicherry, India and provides contact information including their website, address, email and phone.
This document contains contact information for Innovative Technology Services and a list of 72 VLSI titles. It provides the address, phone numbers, and email/website for Innovative Technology Services in Chennai, India. It also encourages contacting them for more titles in various domains like NS2, Java, VLSI, MATLAB, Android, and .NET.
This document describes a new type of artificial neural network called SHARP (Systolic Hebb Agnostic Resonance Perceptron) that is inspired by the neocortex and implemented using low-cost CPLD hardware. It aims to achieve maximum performance through virtual parallelism, modularity, and matchless synaptic storage capacity while requiring zero arithmetic.
We offer guidance and support to M.tech students in their final year projects and mini projects. We also assist in paper publication and thesis on projects in Microelectronics, VLSI, Embedded Systems, Electronics and Communication, Electrical and Electronics specializations.
Students may contact us for final year projects based on H-Spice, P-Spice, Tanner EDA, Xilinx FPGA Implementation (VHDL, Verilog HDL), Modelsim, Network Simulator 2, Cadence Orcad, Matlab, AVR Studio, Proteus and others.
The development of microelectronics spans a time which is even lesser than the average life expectancy of a human, and yet it has seen as many as four generations. Early 60’s saw the low density fabrication processes classified under Small Scale Integration (SSI) in which transistor count was limited to about 10. This rapidly gave way to Medium Scale Integration in the late 60’s when around 100 transistors could be placed on a single chip.
It was the time when the cost of research began to decline and private firms started entering the competition in contrast to the earlier years where the main burden was borne by the military. Transistor-Transistor logic (TTL) offering higher integration densities outlasted other IC families like ECL and became the basis of the first integrated circuit revolution. It was the production of this family that gave impetus to semiconductor giants like Texas Instruments, Fairchild and National Semiconductors. Early seventies marked the growth of transistor count to about 1000 per chip called the Large Scale Integration.
By mid eighties, the transistor count on a single chip had already exceeded 1000 and hence came the age of Very Large Scale Integration orVLSI. Though many improvements have been made and the transistor count is still rising, further names of generations like ULSI are generally avoided. It was during this time when TTL lost the battle to MOS family owing to the same problems that had pushed vacuum tubes into negligence, power dissipation and the limit it imposed on the number of gates that could be placed on a single die.
The second age of Integrated Circuits revolution started with the introduction of the first microprocessor, the 4004 by Intel in 1972 and the 8080 in 1974. Today many companies like Texas Instruments, Infineon, Alliance Semiconductors, Cadence, Synopsys, Celox Networks, Cisco, Micron Tech, National Semiconductors, ST Microelectronics, Qualcomm, Lucent, Mentor Graphics, Analog Devices, Intel, Philips, Motorola and many other firms have been established and are dedicated to the various fields in "VLSI" like Programmable Logic Devices, Hardware Descriptive Languages, Design tools, Embedded Systems etc.
This document contains a list of 56 VLSI projects for B.Tech students. The projects cover a wide range of topics including digital signal processing, communication systems, cryptography, bus architectures, memory controllers and CPU design. The projects are implemented using Verilog and VHDL and target FPGAs.
bulk ieee projects in pondicherry,best ieee projects in pondicherry,ieee pro...Nexgen Technology
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This document contains contact information for Temasolution, an organization that provides VLSI design services. It lists 72 VLSI design projects and codes them VL1 through VL72. More details on Temasolution's services can be found on their website at www.temasolution.com by contacting info@temasolution.com.
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
1. The document presents a simulation of a low power analog channel decoder for error correction implemented in 65nm CMOS technology.
2. The decoder uses analog circuitry operating in the sub-threshold region to perform decoding, allowing for ultra-low power operation below 40uW for throughput up to 2.5Mbps.
3. The decoder architecture includes an analog decoding core that implements the sum-product algorithm, digital interfaces for input and output, and a digital controller to manage timing.
The document summarizes a conference on WDM and next-generation optical networking. It discusses several field trials of 100G transmission conducted by telecommunications companies and network equipment vendors. Most vendors converged on using PDM-QPSK modulation with coherent detection, though some proposed alternatives like OFDM. There is a push to deploy 100G networks due to bandwidth demand growth, but challenges around economies of scale remain.
The document discusses implementing the Lempel-Ziv-Welch (LZW) data compression algorithm in VHDL. It summarizes that the LZW technique can compress text, numbers, images, and mixed data by 40-60%, more than Huffman coding, due to its simple logic. The project implemented LZW in VHDL and verified simulation results, compressing 75KB/second on a 1-MIPS machine. Further work aims to improve compression percentage and reduce hardware requirements.
Autonomous deployment for load balancing k surface coverage in sensor networksLogicMindtech Nologies
NS2 Projects for M. Tech, NS2 Projects in Vijayanagar, NS2 Projects in Bangalore, M. Tech Projects in Vijayanagar, M. Tech Projects in Bangalore, NS2 IEEE projects in Bangalore, IEEE 2015 NS2 Projects, WSN and MANET Projects, WSN and MANET Projects in Bangalore, WSN and MANET Projects in Vijayangar
This document contains a list of 100 topics related to VLSI design. Each topic is assigned a unique identification code starting with PSVLSI followed by a 3-digit number. The topics cover various fields related to VLSI including communication systems design, low power design, digital image processing, cryptography, real-time embedded applications, softcore processor design and more. The document also provides contact information for VLSI including an email address and websites.
Vlsi IEEE 2014 titles 2014_2015_CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFO...S3 Infotech IEEE Projects
DOTNET/JAVA/MATLAB/VLSI/NS2/EMBEDDED IEEE 2014 PROJECTS FOR ME/BE/B.TECH STUDENTS. FINAL YEAR 2014 PROJECTS FOR CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFOTECH : 09884848198).
Final year IEEE 2014 projects for BE, BTech, ME, MTech &PHD Students (09884848198 : S3 Infotech)
Dear Students,
Greetings from S3 INFOTECH (0988 48 48 198). We are doing Final year (IEEE & APPLICATION) projects in DOTNET, JAVA, MATLAB, ANDROID, VLSI, NS2, EMBEDDED SYSTEMS and POWER ELECTRONICS.
For B.E, M.E, B.Tech, M.Tech, MCA, M.Sc, & PHD Students.
We implement your own IEEE concepts also in ALL Technologies. We are giving support for Journal Arrangement & Publication also.
Send your IEEE base paper to yes3info@gmail.com (or) info@s3computers.com.
To Register your project: www.s3computers.com
We are providing Projects in
• DOT NET
• JAVA / J2EE / J2ME
• EMBEDDED & POWER ELECTRONICS
• MATLAB
• NS2
• VLSI
• NETWORKING
• HADOOP / Bigdata
• Android
• PHP
This document contains a list of 84 topics related to VLSI design and implementation. The topics span several fields including image processing, low power design, system generator, and signal processing. Many of the topics involve FPGA implementation of applications such as image and video compression, DWT, and motion estimation. Other topics relate to low power design techniques for circuits like SRAM and adders. The document appears to be from an organization called PSVLSI that works in these areas of VLSI design and implementation.
VLSI IEEE PROJECTS LIST 2015 - 2016 / IEEE VLSI PROJECTS LIST 2015 - 2016CLAROZONTECHNOLOGIES
This document contains a list of 42 VLSI IEEE papers from 2015-2016. The papers are numbered from CLVLSI-01 to CLVLSI-42 and include the title, year of publication, and in some cases additional details. The papers cover a range of topics related to VLSI design including multipliers, error correction, low power design, FPGA architectures, and more. All of the papers appear to have been published between January 2015 and December 2015.
The document describes 11 VLSI projects from 2015 presented by NEXGEN TECHNOLOGY. The projects include low-power clock generators, FFT architectures, error correcting codes, content addressable memories, charge pump converters, delta-sigma modulators, clock skew compensation circuits, obfuscated DSP circuits, scalar conversion for cryptoprocessors, reconfigurable controllers for synchronization, and level-converting retention flip-flops. NEXGEN TECHNOLOGY is located in Pondicherry, India and provides contact information including their website, address, email and phone.
This document contains contact information for Innovative Technology Services and a list of 72 VLSI titles. It provides the address, phone numbers, and email/website for Innovative Technology Services in Chennai, India. It also encourages contacting them for more titles in various domains like NS2, Java, VLSI, MATLAB, Android, and .NET.
This document describes a new type of artificial neural network called SHARP (Systolic Hebb Agnostic Resonance Perceptron) that is inspired by the neocortex and implemented using low-cost CPLD hardware. It aims to achieve maximum performance through virtual parallelism, modularity, and matchless synaptic storage capacity while requiring zero arithmetic.
We offer guidance and support to M.tech students in their final year projects and mini projects. We also assist in paper publication and thesis on projects in Microelectronics, VLSI, Embedded Systems, Electronics and Communication, Electrical and Electronics specializations.
Students may contact us for final year projects based on H-Spice, P-Spice, Tanner EDA, Xilinx FPGA Implementation (VHDL, Verilog HDL), Modelsim, Network Simulator 2, Cadence Orcad, Matlab, AVR Studio, Proteus and others.
The development of microelectronics spans a time which is even lesser than the average life expectancy of a human, and yet it has seen as many as four generations. Early 60’s saw the low density fabrication processes classified under Small Scale Integration (SSI) in which transistor count was limited to about 10. This rapidly gave way to Medium Scale Integration in the late 60’s when around 100 transistors could be placed on a single chip.
It was the time when the cost of research began to decline and private firms started entering the competition in contrast to the earlier years where the main burden was borne by the military. Transistor-Transistor logic (TTL) offering higher integration densities outlasted other IC families like ECL and became the basis of the first integrated circuit revolution. It was the production of this family that gave impetus to semiconductor giants like Texas Instruments, Fairchild and National Semiconductors. Early seventies marked the growth of transistor count to about 1000 per chip called the Large Scale Integration.
By mid eighties, the transistor count on a single chip had already exceeded 1000 and hence came the age of Very Large Scale Integration orVLSI. Though many improvements have been made and the transistor count is still rising, further names of generations like ULSI are generally avoided. It was during this time when TTL lost the battle to MOS family owing to the same problems that had pushed vacuum tubes into negligence, power dissipation and the limit it imposed on the number of gates that could be placed on a single die.
The second age of Integrated Circuits revolution started with the introduction of the first microprocessor, the 4004 by Intel in 1972 and the 8080 in 1974. Today many companies like Texas Instruments, Infineon, Alliance Semiconductors, Cadence, Synopsys, Celox Networks, Cisco, Micron Tech, National Semiconductors, ST Microelectronics, Qualcomm, Lucent, Mentor Graphics, Analog Devices, Intel, Philips, Motorola and many other firms have been established and are dedicated to the various fields in "VLSI" like Programmable Logic Devices, Hardware Descriptive Languages, Design tools, Embedded Systems etc.
This document contains a list of 56 VLSI projects for B.Tech students. The projects cover a wide range of topics including digital signal processing, communication systems, cryptography, bus architectures, memory controllers and CPU design. The projects are implemented using Verilog and VHDL and target FPGAs.
bulk ieee projects in pondicherry,best ieee projects in pondicherry,ieee pro...Nexgen Technology
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This document contains contact information for Temasolution, an organization that provides VLSI design services. It lists 72 VLSI design projects and codes them VL1 through VL72. More details on Temasolution's services can be found on their website at www.temasolution.com by contacting info@temasolution.com.
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
1. The document presents a simulation of a low power analog channel decoder for error correction implemented in 65nm CMOS technology.
2. The decoder uses analog circuitry operating in the sub-threshold region to perform decoding, allowing for ultra-low power operation below 40uW for throughput up to 2.5Mbps.
3. The decoder architecture includes an analog decoding core that implements the sum-product algorithm, digital interfaces for input and output, and a digital controller to manage timing.
The document summarizes a conference on WDM and next-generation optical networking. It discusses several field trials of 100G transmission conducted by telecommunications companies and network equipment vendors. Most vendors converged on using PDM-QPSK modulation with coherent detection, though some proposed alternatives like OFDM. There is a push to deploy 100G networks due to bandwidth demand growth, but challenges around economies of scale remain.
The document discusses implementing the Lempel-Ziv-Welch (LZW) data compression algorithm in VHDL. It summarizes that the LZW technique can compress text, numbers, images, and mixed data by 40-60%, more than Huffman coding, due to its simple logic. The project implemented LZW in VHDL and verified simulation results, compressing 75KB/second on a 1-MIPS machine. Further work aims to improve compression percentage and reduce hardware requirements.
Autonomous deployment for load balancing k surface coverage in sensor networksLogicMindtech Nologies
NS2 Projects for M. Tech, NS2 Projects in Vijayanagar, NS2 Projects in Bangalore, M. Tech Projects in Vijayanagar, M. Tech Projects in Bangalore, NS2 IEEE projects in Bangalore, IEEE 2015 NS2 Projects, WSN and MANET Projects, WSN and MANET Projects in Bangalore, WSN and MANET Projects in Vijayangar
This document contains a list of 100 topics related to VLSI design. Each topic is assigned a unique identification code starting with PSVLSI followed by a 3-digit number. The topics cover various fields related to VLSI including communication systems design, low power design, digital image processing, cryptography, real-time embedded applications, softcore processor design and more. The document also provides contact information for VLSI including an email address and websites.
Vlsi IEEE 2014 titles 2014_2015_CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFO...S3 Infotech IEEE Projects
DOTNET/JAVA/MATLAB/VLSI/NS2/EMBEDDED IEEE 2014 PROJECTS FOR ME/BE/B.TECH STUDENTS. FINAL YEAR 2014 PROJECTS FOR CSE/IT/ECE/EEE/ STUDENTS IN CHENNAI (S3 INFOTECH : 09884848198).
Final year IEEE 2014 projects for BE, BTech, ME, MTech &PHD Students (09884848198 : S3 Infotech)
Dear Students,
Greetings from S3 INFOTECH (0988 48 48 198). We are doing Final year (IEEE & APPLICATION) projects in DOTNET, JAVA, MATLAB, ANDROID, VLSI, NS2, EMBEDDED SYSTEMS and POWER ELECTRONICS.
For B.E, M.E, B.Tech, M.Tech, MCA, M.Sc, & PHD Students.
We implement your own IEEE concepts also in ALL Technologies. We are giving support for Journal Arrangement & Publication also.
Send your IEEE base paper to yes3info@gmail.com (or) info@s3computers.com.
To Register your project: www.s3computers.com
We are providing Projects in
• DOT NET
• JAVA / J2EE / J2ME
• EMBEDDED & POWER ELECTRONICS
• MATLAB
• NS2
• VLSI
• NETWORKING
• HADOOP / Bigdata
• Android
• PHP
This document contains a list of 84 topics related to VLSI design and implementation. The topics span several fields including image processing, low power design, system generator, and signal processing. Many of the topics involve FPGA implementation of applications such as image and video compression, DWT, and motion estimation. Other topics relate to low power design techniques for circuits like SRAM and adders. The document appears to be from an organization called PSVLSI that works in these areas of VLSI design and implementation.
The document lists 124 topics related to VLSI systems, signal processing, image processing, cryptography, and wireless communication. The topics focus on implementing algorithms and systems on FPGAs and address issues like low power design, security, and system optimization. Many topics involve edge detection, encryption, modulation, and other digital signal processing techniques.
The document lists 124 topics related to VLSI systems, signal processing, image processing, cryptography, and wireless communication. The topics focus on implementing algorithms and systems on FPGAs and address issues like low power design, security, and system optimization. Many topics involve edge detection, encryption, modulation, and other digital signal processing techniques.
This document lists 94 titles of papers published in the IEEE Transactions on VLSI Systems in 2015. The papers cover a range of topics related to embedded systems and VLSI design including SAR ADCs, digital front-ends for ECG acquisition, placement-based nonlinearity reduction in DACs, carry select adders, hybrid adders, LTE synchronization, oscillators, encryption processors, networks-on-chip, error detection/correction techniques, and thermal management in multicore systems.
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This document contains a list of VLSI M.Tech and B.Tech project titles from 2014-2016. There are 66 project titles listed, ranging from 2012 to 2014. The titles are organized by year, with the project description or title provided. Contact information is also provided at the bottom for those interested in the projects.
This document lists 89 VLSI design project titles from IEEE conferences between 2011-2018. The projects cover a wide range of topics including arithmetic circuits, multipliers, adders, FFT processors, encryption algorithms, neural networks and more. Many of the projects aimed to optimize for speed, power efficiency, cost or reliability.
The document lists 70 M.Tech VLSI projects from 2015-2016, including their titles and years of completion. It provides contact information for GEST, including phone numbers 99666 42226 and 9390278303, and an email of gest.hyd@gmail.com. The projects cover a range of topics in VLSI design including multipliers, DSP circuits, error correction codes, and testing.
VLSI stands for Very Large Scale Integration. Generally there are mainly 2 types of VLSI projects – 1. Projects in VLSI based System Design, 2. VLSI Design Projects. You might be confused to understand the difference between these 2 types of projects. Let me now explain to you.
Projects in VLSI based system design are the projects which involve the design of various types of digital systems that can be implemented on a PLD device like a FPGA or a CPLD.
The projects which deal with the semiconductor design are called as Projects in VLSI design. These are very difficult and expensive to implement in real time.
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
Nexgen Technology Address:
Nexgen Technology
No :66,4th cross,Venkata nagar,
Near SBI ATM,
Puducherry.
Email Id: praveen@nexgenproject.com.
www.nexgenproject.com
Mobile: 9751442511,9791938249
Telephone: 0413-2211159.
NEXGEN TECHNOLOGY as an efficient Software Training Center located at Pondicherry with IT Training on IEEE Projects in Android,IEEE IT B.Tech Student Projects, Android Projects Training with Placements Pondicherry, IEEE projects in pondicherry, final IEEE Projects in Pondicherry , MCA, BTech, BCA Projects in Pondicherry, Bulk IEEE PROJECTS IN Pondicherry.So far we have reached almost all engineering colleges located in Pondicherry and around 90km
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