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An article about VLSI field And Career In VLSI

PROLOGUE

Most of the students of Electronics Engineering are exposed to Integrated Circuits (IC's) at a very basic level, involving SSI (small scale integration) circuits like logic gates or MSI (medium scale integration) circuits like multiplexers, parity encoders etc. But there is a lot bigger world out there involving miniaturisation at levels so great, that a micrometer and a microsecond are literally considered huge! This is the world of VLSI - Very Large Scale Integration. The article aims at trying to introduce Electronics Engineering students to the possibilities and the work involved in this field.

INTRODUCTION

What is VLSI?

VLSI stands for "Very Large Scale Integration". This is the field which involves packing more and more logic devices into smaller and smaller areas.Thanks to VLSI, circuits that would have taken boardfuls of space can now be put into a small space few millimeters across! This has opened up a big opportunity to do things that were not possible before. VLSI circuits are everywhere ... your computer, your car, your brand new state-of-the-art digital camera, the cell-phones, and what have you. All this involves a lot of expertise on many fronts within the same field, which we will look at in later sections.

DEALING WITH VLSI CIRCUITS

Digital VLSI circuits are predominantly CMOS based. The way normal blocks like latches and gates are implemented is different from what students have seen so far, but the behaviour remains the same. All the miniaturisation involves new things to consider. A lot of thought has to go into actual implementations as well as design. Let us look at some of the factors involved ...

1. Circuit Delays. Large complicated circuits running at very high frequencies have one big problem to tackle - the problem of delays in propagation of signals through gates and wires ... even for areas a few micrometers across! The operation speed is so large that as the delays add up, they can actually become comparable to the clock speeds.
2. Power. Another effect of high operation frequencies is increased consumption of power. This has two-fold effect - devices consume batteries faster, and heat dissipation increases. Coupled with the fact that surface areas have decreased, heat poses a major threat to the stability of the circuit itself.
3. Layout. Laying out the circuit components is task common to all branches of electronics. Whats so special in our case is that there are many possible ways to do this; there can be multiple layers of different materials on the same silicon, there can be different arrangements of the smaller parts for the same component and so on.

THE VLSI DESIGN PROCESS

A typical digital design flow is as follows:
Specification
Architecture
RTL Coding
RTL Verification
Synthesis
Backend

Tape Out to Foundry to get end product….a wafer with repeated number of identical Ics.

All modern digital designs start with a designer writing a hardware description of the IC (using HDL or Hardware Description Language) in Verilog/VHDL. A Verilog or VHDL program essentially describes the hardware (logic gates, Flip-Flops, counters etc) and the interconnect of the circuit blocks and the functionality. Various CAD tools are available to synthesize a circuit based on the HDL. The most widely used synthesis tools come from two CAD companies. Synposys and Cadence.

Without going into details, we can say that the VHDL, can be called as the "C" of the VLSI industry. VHDL stands for "VHSIC Hardware Definition Language", where VHSIC stands for "Very High Speed Integrated Circuit". This languages is used to design the circuits at a high-level, in two ways. It can either be a behavioural description, which describes what the circuit is supposed to do, or a structural description, which describes what the circuit is made of. There are other languages for describing circuits, such as Verilog, which work in a similar fashion.
Both forms of description are then used to generate a very low-level description that actually spells out how all this is to be fabricated on the silicon chips. This will result in the manufacture of the intended IC.

A typical analog design flow is as follows:

In case of analog design, the flow changes somewhat.
Specifications
Architecture
Circuit Design
SPICE Simulation
Layout
Parametric Extraction / Back Annotation
Final Design
Tape Out to foundry.

MOST OF TODAY’S VLSI DESIGNS ARE CLASSIFIED INTO THREE CATEGORIES:

1. Analog:
Small transistor count precision circuits such as Amplifiers, Data converters, filters, Phase Locked Loops, Sensors etc.

2. ASICS or Application Specific Integrated Circuits:
Progress in the fabrication of IC's has enabled us to create fast and powerful circuits in smaller and smaller devices. This also means that we can pack a lot more of functionality into the same area. The biggest application of this ability is found in the design of ASIC's. These are IC's that are created for specific purposes - each device is created to do a particular job, and do it well. The most common application area for this is DSP - signal filters, image compression, etc. To go to extremes, consider the fact that the digital wristwatch normally consists of a single IC doing all the time-keeping jobs as well as extra features like games, calendar, etc.

3. SoC or Systems on a chip:
These are highly complex mixed signal circuits (digital and analog all on the same chip). A network processor chip or a wireless radio chip is an example of an SoC.

Posted by : varun gautam

Who is Anna Hazare?

He once contemplated suicide and even wrote a two-page essay on why he wanted to end his life. Anna Hazare was not driven to such a pass by circumstances. He wanted to live no more because he was frustrated with life and wanted an answer to the purpose of human existence.

The story goes that one day at the New Delhi Railway Station, he chanced upon a book on Swami Vivekananda. Drawn by Vivekananda's photograph, he is quoted as saying that he read the book and found his answer - that the motive of his life lay in service to his fellow humans.

Today, Anna Hazare is the face of India's fight against corruption. He has taken that fight to the corridors of power and challenged the government at the highest level. People, the common man and well-known personalities alike, are supporting him in the hundreds swelling to the thousands.

For Anna Hazare, it is another battle. And he has fought quite a few, Including some as a soldier for 15 years in Indian Army. He enlisted after the 1962 Indo-China war when the government exhorted young men to join the Army.

In 1978, he took voluntary retirement from the 9th Maratha Battalion and returned home to Ralegaon Siddhi, a village in Maharashtra's drought-prone Ahmadnagar. He was 39 years old.

He found farmers back home struggling for survival and their suffering would prompt him to pioneer rainwater conservation that put his little hamlet on the international map as a model village.

The villagers revere him. Thakaram Raut, a school teacher in Ralegaon Siddhi says, "Thanks to Anna's agitations, we got a school, we got electricity, we got development schemes for farmers.''

Anna Hazare's fight against corruption began here. He fought first against corruption that was blocking growth in rural India. His organization - the Bhrashtachar Virodhi Jan Andolan (People's movement against Corruption). His tool of protest - hunger strikes. And his prime target - politicians.

Maharashtra stalwarts like Sharad Pawar and Bal Thackeray have often called his style of agitation nothing short of "blackmail".

But his weapon is potent. In 1995-96, he forced the Sena-BJP government in Maharashtra to drop two corrupt Cabinet Ministers. In 2003, he forced the Congress-Nationalist Congress Party (NCP) state government to set up an investigation against four ministers. In April this year, four days of fasting brought thousands of people out in support of his crusade against corruption. They also made the government realise it could not be dismissive about Anna Hazare and his mass appeal.

His relationship with the UPA government continues to be uneasy. The truce of April was short-lived. An exercise to set up a joint committee made up of equal numbers of government representatives and civil society activists, including Anna Hazare came to naught when the two sides failed to agree and drafted two different Lok Pal Bills. The government has brought its version in Parliament and Team Anna is livid.

The Gandhian is soldiering on. From one battle to another in his war against corruption. He fought from the front to have Right to Information (RTI) implemented. He is now fighting for the implementation of the Jan Lokpal Bill, the anti-corruption bill drafted by his team of crusaders.

This year, more than 30 years after Anna Hazare started his crusade, as the 74-year-old plans a second hunger strike in Delhi against large-scale corruption at the national level. Nothing really has changed except the scale of his battle.

Are You a Professional?

How you look, talk, write, act and work determines whether you are a

professional or an amateur. Society does not emphasize the importance

of professionalism, so people tend to believe that amateur work is

normal. Many businesses accept less-than-good results.Schools

graduate students who cannot read. You can miss 15% of the driving

-test answers and still get a driver license. "Just getting by" is an

attitude many people accept. But it is the attitude of amateurs.

"Don't ever do anything as though you were an amateur.

"Anything you do, do it as a Professional to Professional standards.

"If you have the idea about anything you do that you just dabble in it,

you will wind up with a dabble life. There'll be no satisfaction in it because

there will be no real production you can be proud of.

"Develop the frame of mind that whatever you do, you are doing it as a

professional and move up to professional standards in it.

"Never let it be said of you that you lived an amateur life.

"Professionals see situations and they handle what they see.

They are not amateur dabblers.

"So learn this as a first lesson about life. The only successful beings in any

field, including living itself, are those who have a professional viewpoint

and make themselves and ARE professionals" — L. Ron Hubbard

A professional learns every aspect of the job. An amateur skips the learning

process whenever possible.

A professional carefully discovers what is needed and wanted. An amateur

assumes what others need and want.

A professional looks, speaks and dresses like a professional. An amateur is

sloppy in appearance and speech.

A professional keeps his or her work area clean and orderly. An amateur has

a messy, confused or dirty work area.

A professional is focused and clear-headed. An amateur is confused and distracted.

A professional does not let mistakes slide by. An amateur ignores or hides mistakes.

A professional jumps into difficult assignments. An amateur tries to get out

of difficult work.

A professional completes projects as soon as possible. An amateur is

surrounded by unfinished work piled on top of unfinished work.

A professional remains level-headed and optimistic. An amateur gets upset

and assumes the worst.

A professional handles money and accounts very carefully. An amateur is

sloppy with money or accounts.

A professional faces up to other people’s upsets and problems. An amateur

avoids others’ problems.

A professional uses higher emotional tones: Enthusiasm, cheerfulness,

interest, contentment. An amateur uses lower emotional tones: anger,

hostility,resentment, fear, victim.

A professional persists until the objective is achieved. An amateur gives

up at the first opportunity.

A professional produces more than expected. An amateur produces

just enough to get by.

A professional produces a high-quality product or service. An amateur

produces a medium-to-low quality product or service.

A professional earns high pay. An amateur earns low pay and feels

it’s unfair.

A professional has a promising future. An amateur has an

uncertain future.

The first step to making yourself a professional is to decide

you ARE a professional.

Are you a professional?

Posted By : Varun Gautam