Is the art, science and technology of designing and fabricating integrated circuits with small-dimension electronic devices
Areas of Microelectronics are :
•VLSI Design
•VLSI CAD Tools
•Technology & Fabrication
•Physics
•Modeling and Simulation
•Characterization
•Testing
Nearly all the advances in the modern day electronic systems and devices are a direct outcome of VLSI technology
IRVS VLSI IDEA INNOVATORS
VLSI Project, Embedded Project, Matlab Projects and courses with 100% Placements
Saturday, July 31, 2010
Friday, July 30, 2010
What is VLSI ?
Very-large-scale integration (VLSI) is the process of creating integrated circuits by combining thousands of transistor-based circuits into a single chip. VLSI began in the 1970s when complex semiconductor and communication technologies were being developed. The microprocessor is a VLSI device. The term is no longer as common as it once was, as chips have increased in complexity into billions of transistors.
The first semiconductor chips held two transistors each. Subsequent advances added more and more transistors, and, as a consequence, more individual functions or systems were integrated over time. The first integrated circuits held only a few devices, perhaps as many as ten diodes, transistors, resistors and capacitors, making it possible to fabricate one or more logic gates on a single device. Now known retrospectively as small-scale integration (SSI), improvements in technique led to devices with hundreds of logic gates, known as medium-scale integration (MSI). Further improvements led to large-scale integration (LSI), i.e. systems with at least a thousand logic gates. Current technology has moved far past this mark and today's microprocessors have many millions of gates and billions of individual transistors.
The first semiconductor chips held two transistors each. Subsequent advances added more and more transistors, and, as a consequence, more individual functions or systems were integrated over time. The first integrated circuits held only a few devices, perhaps as many as ten diodes, transistors, resistors and capacitors, making it possible to fabricate one or more logic gates on a single device. Now known retrospectively as small-scale integration (SSI), improvements in technique led to devices with hundreds of logic gates, known as medium-scale integration (MSI). Further improvements led to large-scale integration (LSI), i.e. systems with at least a thousand logic gates. Current technology has moved far past this mark and today's microprocessors have many millions of gates and billions of individual transistors.
Thursday, July 29, 2010
VLSI Verification
To reduce simulation time, system design and verification teams need to use a hardware-assisted verification system while reusing their established
behavioral test bench and verification environment.
To achieve a 10-fold leap in productivity, system design and verification engineers must begin designing at a higher level of abstraction.
To undertake comprehensive system-level verification, engineers must stress and validate their design in a scalable verification environment—one that
offers a high degree of control and visibility, applies system-level stimulus to the design, and verifies the performance and behavior of the integrated
system.
For effective system-level verification, engineers require a high-performance environment that allows access to hardware and software debuggers
while running various system-level scenarios using firmware, drivers, operating systems, and application software. Conventional simulation of designs
at RTL with embedded software at the system level is impractical and has performance limitations. Offering higher throughput, superior hardware/
software debug, and fast compilation
To ensure correct system verification, engineers must drive stimulus matching the specific protocols interfacing with their designs and check the design
response. They must also test the interface protocols under real-world operating conditions.
behavioral test bench and verification environment.
To achieve a 10-fold leap in productivity, system design and verification engineers must begin designing at a higher level of abstraction.
To undertake comprehensive system-level verification, engineers must stress and validate their design in a scalable verification environment—one that
offers a high degree of control and visibility, applies system-level stimulus to the design, and verifies the performance and behavior of the integrated
system.
For effective system-level verification, engineers require a high-performance environment that allows access to hardware and software debuggers
while running various system-level scenarios using firmware, drivers, operating systems, and application software. Conventional simulation of designs
at RTL with embedded software at the system level is impractical and has performance limitations. Offering higher throughput, superior hardware/
software debug, and fast compilation
To ensure correct system verification, engineers must drive stimulus matching the specific protocols interfacing with their designs and check the design
response. They must also test the interface protocols under real-world operating conditions.
Tuesday, July 27, 2010
Inplant Training and Placement
Courses Offered
Certified Embedded System Design Engineer
RTL Engineer
Verification Engineer
FPGA Designer
Hardware & Networking
Hardware (PC Engineering A+)
Advanced Networking N+
CCNA(Cisco Certified Networking Associate)
Certified Embedded System Design Engineer
RTL Engineer
Verification Engineer
FPGA Designer
Hardware & Networking
Hardware (PC Engineering A+)
Advanced Networking N+
CCNA(Cisco Certified Networking Associate)
Monday, July 26, 2010
WEB APPLICATION PROJECT TOPICS
WEB APPLICATION PROJECT TOPICS
Social networking application
Account management
Photo Album Organizer
Bug Tracking System
Chat Application
Quiz application
Cloud Computing Operating System
Real Estate Management
Classified Ads
Hotel Reservation System
Project Management
Ecommerce Application
Event Management
School Management
Auction Software
Help desk
Social networking application
Account management
Photo Album Organizer
Bug Tracking System
Chat Application
Quiz application
Cloud Computing Operating System
Real Estate Management
Classified Ads
Hotel Reservation System
Project Management
Ecommerce Application
Event Management
School Management
Auction Software
Help desk
Friday, July 23, 2010
VLSI Project Topics
For details mail us :ramani@ideasroad.com
VLSI Topics
A distributed csma algorithm for throughput and utility maximization in wireless networks
A distributed efficient flow control scheme for multirate multicast networks- parallel and distributed systems
A hybrid group key management architecture for heterogeneous manet
A near-optimal algorithm attacking the topology mismatch problem in unstructured peer-to-peer networks- parallel and distributed systems
Adaptive join operators for result rate optimization on streaming inputs knowledge and data engineering
Adaptive workload prediction of grid performance in confidence windows- parallel and distributed systems
Scaling dynamic authority-based search using materialized subgraphs- knowledge and data engineering
A decentralized approach relying on indirect reciprocity-mobile computing
Decentralized algorithms for adaptive pricing in multiclass loss networks
Decentralized qos-aware checkpointing arrangement in mobile grid computing-mobile computing
Fast and message-efficient global snapshot algorithms for large-scale distributed systems-parallel and distributed systems
Efficient and distributed replica detection in large-scale sensor networks-mobile computing
On high-order denoising models and fast algorithms for vector-valued images-image processing
On wireless scheduling algorithms for minimizing the queue-overflow probability-networking
P2P reputation management using distributed identities and decentralized recommendation chains-knowledge and data engineering
An efficient and privacy-aware monitoring framework for continuously moving objects-knowledge and data engineering
Secure data collection in wireless sensor networks using randomized dispersive routes-mobile computing
VLSI Topics
A distributed csma algorithm for throughput and utility maximization in wireless networks
A distributed efficient flow control scheme for multirate multicast networks- parallel and distributed systems
A hybrid group key management architecture for heterogeneous manet
A near-optimal algorithm attacking the topology mismatch problem in unstructured peer-to-peer networks- parallel and distributed systems
Adaptive join operators for result rate optimization on streaming inputs knowledge and data engineering
Adaptive workload prediction of grid performance in confidence windows- parallel and distributed systems
Scaling dynamic authority-based search using materialized subgraphs- knowledge and data engineering
A decentralized approach relying on indirect reciprocity-mobile computing
Decentralized algorithms for adaptive pricing in multiclass loss networks
Decentralized qos-aware checkpointing arrangement in mobile grid computing-mobile computing
Fast and message-efficient global snapshot algorithms for large-scale distributed systems-parallel and distributed systems
Efficient and distributed replica detection in large-scale sensor networks-mobile computing
On high-order denoising models and fast algorithms for vector-valued images-image processing
On wireless scheduling algorithms for minimizing the queue-overflow probability-networking
P2P reputation management using distributed identities and decentralized recommendation chains-knowledge and data engineering
An efficient and privacy-aware monitoring framework for continuously moving objects-knowledge and data engineering
Secure data collection in wireless sensor networks using randomized dispersive routes-mobile computing
VLSI IDEA INNOVATORS
VLSI Idea Innovators are a team comprising of innovative ideas on Electronic design related to VLSI, Embedded, and Matlab. We do development and customization in these fields to meet your company’s specific needs. We deliver quality solutions to our clients who are situated around the globe. As we are the fast growing company we believe in timely and quality deliver of the product to our client needs. IRVS is equipped with a team of experienced engineers to meet all the needs of our clients to deliver quality software and hardware implementation and maintenance. We are based in chennai. IRVS believes in low cost and quality products so that the technology reaches everyone
For more details about VLSI projects visit us irvs.info
Subscribe to:
Posts (Atom)