Wednesday, May 4, 2011

Chetan Bhagat’s speech at Symbiosis

Following is the speech by Chetan Bhagat given at the orientation programme for the new batch of MBA students at Symbiosis, Pune.

Good Morning everyone and thank you for giving me this chance to speak to you. This day is about you. You, who have come to this college, leaving the comfort of your homes (or in some cases discomfort), to become something in your life. I am sure you are excited. There are few days in human life when one is truly elated. The first day in college is one of them. When you were getting ready today, you felt a tingling in your stomach. What would the auditorium be like, what would the teachers be like, who are my new classmates – there is so much to be curious about. I call this excitement, the spark within you that makes you feel truly alive today. Today I am going to talk about keeping the spark shining. Or to put it another way, how to be happy most, if not all the time.

Where do these sparks start? I think we are born with them. My 3-year old twin boys have a million sparks. A little Spiderman toy can make them jump on the bed. They get thrills from creaky swings in the park. A story from daddy gets them excited. They do a daily countdown for birthday party – several months in advance – just for the day they will cut their own birthday cake.

I see students like you, and I still see some sparks. But when I see older people, the spark is difficult to find. That means as we age, the spark fades. People whose spark has faded too much are dull, dejected, aimless and bitter. Remember Kareena in the first half of Jab We Met vs the second half? That is what happens when the spark is lost. So how to save the spark?

Imagine the spark to be a lamp’s flame. The first aspect is nurturing – to give your spark the fuel, continuously. The second is to guard against storms.

To nurture, always have goals. It is human nature to strive, improve and achieve full potential. In fact, that is success. It is what is possible for you. It isn’t any external measure – a certain cost to company pay package, a particular car or house.

Most of us are from middle class families. To us, having material landmarks is success and rightly so. When you have grown up where money constraints force everyday choices, financial freedom is a big achievement. But it isn’t the purpose of life. If that was the case, Mr. Ambani would not show up for work. Shah Rukh Khan would stay at home and not dance anymore. Steve Jobs won’t be working hard to make a better iPhone, as he sold Pixar for billions of dollars already. Why do they do it? What makes them come to work everyday? They do it because it makes them happy. They do it because it makes them feel alive Just getting better from current levels feels good. If you study hard, you can improve your rank. If you make an effort to interact with people, you will do better in interviews. If you practice, your cricket will get better. You may also know that you cannot become Tendulkar, yet. But you can get to the next level. Striving for that next level is important.

Nature designed with a random set of genes and circumstances in which we were born. To be happy, we have to accept it and make the most of nature’s design. Are you? Goals will help you do that. I must add, don’t just have career or academic goals. Set goals to give you a balanced, successful life. I use the word balanced before successful. Balanced means ensuring your health, relationships, mental peace are all in good order.

There is no point of getting a promotion on the day of your breakup. There is no fun in driving a car if your back hurts. Shopping is not enjoyable if your mind is full of tensions.

You must have read some quotes – Life is a tough race, it is a marathon or whatever. No, from what I have seen so far, life is one of those races in nursery school, where you have to run with a marble in a spoon kept in your mouth. If the marble falls, there is no point coming first. Same with life, where health and relationships are the marble. Your striving is only worth it if there is harmony in your life. Else, you may achieve the success, but this spark, this feeling of being excited and alive, will start to die.

One last thing about nurturing the spark – don’t take life seriously. One of my yoga teachers used to make students laugh during classes. One student asked him if these jokes would take away something from the yoga practice. The teacher said – don’t be serious, be sincere. This quote has defined my work ever since. Whether its my writing, my job, my relationships or any of my goals. I get thousands of opinions on my writing everyday. There is heaps of praise, there is intense criticism. If I take it all seriously, how will I write? Or rather, how will I live? Life is not to be taken seriously, as we are really temporary here. We are like a pre-paid card with limited validity. If we are lucky, we may last another 50 years. And 50 years is just 2,500 weekends. Do we really need to get so worked up? It’s ok, bunk a few classes, goof up a few interviews, fall in love. We are people, not programmed devices.

I’ve told you three things – reasonable goals, balance and not taking it too seriously that will nurture the spark. However, there are four storms in life that will threaten to completely put out the flame. These must be guarded against. These are disappointment, frustration, unfairness and loneliness of purpose.

Disappointment will come when your effort does not give you the expected return. If things don’t go as planned or if you face failure. Failure is extremely difficult to handle, but those that do come out stronger. What did this failure teach me? is the question you will need to ask. You will feel miserable. You will want to quit, like I wanted to when nine publishers rejected my first book. Some IITians kill themselves over low grades – how silly is that? But that is how much failure can hurt you. But it’s life. If challenges could always be overcome, they would cease to be a challenge. And remember – if you are failing at something, that means you are at your limit or potential. And that’s where you want to be.

Disappointment’ s cousin is Frustration, the second storm. Have you ever been frustrated? It happens when things are stuck. This is especially relevant in India. From traffic jams to getting that job you deserve, sometimes things take so long that you don’t know if you chose the right goal. After books, I set the goal of writing for Bollywood, as I thought they needed writers. I am called extremely lucky, but it took me five years to get close to a release. Frustration saps excitement, and turns your initial energy into something negative, making you a bitter person. How did I deal with it? A realistic assessment of the time involved – movies take a long time to make even though they are watched quickly, seeking a certain enjoyment in the process rather than the end result – at least I was learning how to write scripts, having a side plan – I had my third book to write and even something as simple as pleasurable distractions in your life – friends, food, travel can help you overcome it. Remember, nothing is to be taken seriously. Frustration is a sign somewhere, you took it too seriously.

Unfairness – this is hardest to deal with, but unfortunately that is how our country works. People with connections, rich dads, beautiful faces, pedigree find it easier to make it – not just in Bollywood, but everywhere. And sometimes it is just plain luck. There are so few opportunities in India, so many stars need to be aligned for you to make it happen. Merit and hard work is not always linked to achievement in the short term, but the long term correlation is high, and ultimately things do work out. But realize, there will be some people luckier than you. In fact, to have an opportunity to go to college and understand this speech in English means you are pretty damm lucky by Indian standards. Let’s be grateful for what we have and get the strength to accept what we don’t. I have so much love from my readers that other writers cannot even imagine it. However, I don’t get literary praise. It’s ok. I don’t look like Aishwarya Rai, but I have two boys who I think are more beautiful than her. It’s ok. Don’t let unfairness kill your spark.

Finally, the last point that can kill your spark is Isolation. As you grow older you will realize you are unique. When you are little, all kids want Ice cream and Spiderman. As you grow older to college, you still are a lot like your friends. But ten years later and you realize you are unique. What you want, what you believe in, what makes you feel, may be different from even the people closest to you. This can create conflict as your goals may not match with others. And you may drop some of them. Basketball captains in college invariably stop playing basketball by the time they have their second child. They give up something that meant so much to them. They do it for their family. But in doing that, the spark dies. Never, ever make that compromise. Love yourself first, and then others.

There you go. I’ve told you the four thunderstorms – disappointment, frustration, unfairness and isolation. You cannot avoid them, as like the monsoon they will come into your life at regular intervals. You just need to keep the raincoat handy to not let the spark die.

I welcome you again to the most wonderful years of your life. If someone gave me the choice to go back in time, I will surely choose college. But I also hope that ten years later as well, your eyes will shine the same way as they do today. That you will Keep the Spark alive, not only through college, but through the next 2,500 weekends. And I hope not just you, but my whole country will keep that spark alive, as we really need it now more than any moment in history. And there is something cool about saying – I come from the land of a billion sparks.

Thank You.

Chetan Bhagat


Friends, read through this article I am sure you will love it, and I am sure you will start assessing your level of happiness after reading this.

Monday, September 14, 2009

In the best of wealth


Call it the rub of the 'green'. Indian captain MS Dhoni is the world’s highest-earning cricketer, according to the Top 10 list compiled by business magazine Forbes. With earnings to the tune of US$10 million, Dhoni is followed by Sachin Tendulkar in second place (US$8 million), while Yuvraj Singh (US$5.5 million) and Rahul Dravid are third and fourth respectively. The Indian representation is complete with Sourav Ganguly who shared the sixth place with Australian captain Ricky Ponting, with both raking in US$3.5 million.



“Paycheck figures include club and national team salaries and commercial endorsement income over the last 12 months,” Forbes said. “With its deep-pocketed owners and global appeal, nine of the 10 highest-paid cricket players call the Indian Premier League (IPL) home.

“Take MS Dhoni, who plays for the Chennai Super Kings and tops our list as cricket’s first $10 million-a-year man (that’s $5,426 for each run scored). His $8 million in endorsements, from the likes of Reebok, General Electric and Pepsi, is 45 per cent more than any other player.

“Among all Indian athletes and entertainers, Dhoni’s 17 corporate sponsors is second only to Bollywood star and co-owner of the Kolkata Knight Riders, Shah Rukh Khan."

The IPL connection, in fact, has also helped boost Tendulkar's figures. “He’s one of five IPL players who have been bestowed ‘icon’ status, meaning he automatically receives a pay cheque 15% larger than his highest paid teammate," the magazine said. “Tendulkar’s $1.1 million salary from the Mumbai Indians helped push his total earnings to $8 million over the last 12 months."

England’s Andrew Flintoff comes in at fifth, with earnings of $4 million, ahead of Ponting and Ganguly, who are followed by Australia’s Brett Lee and England's Kevin Pietersen tied at eighth place with US$3 million each. Australian Michael Clarke rounds off the list at 10th with earnings of US$2.5 million.

Dhoni plays Cupid

Roses and candle-light dinners are passe; here's the latest way to woo your fiancee - get your photograph clicked with Indian captain MS Dhoni. Ravindra Singh Saini, a 23-year-old, die-hard fan of Dhoni did just that, and it's wedding bells for him now.

Saini's parents had fixed his marriage with a girl from Himachal Pradesh, in an attempt to quell his craze for Dhoni and cricket. But a locket with Dhoni's picture around Saini's neck annoyed his fiancee, who issued an ultimatum: "Meet Dhoni, get a photograph clicked with him and then come for marriage."

And then there was no stopping Saini. He sold off his small shop of CDs and cassettes in his home town for Rs 15,000, left home and arrived in Ranchi on July 23. He set up camp at a hotel, tried to gather every possible detail about Dhoni and his friends, and visited one of the captain's contacts every day hoping his dream would be fulfilled. But as luck would have it, his money soon ran out and it was time for him to head back. But then a glimmer of hope - news that Dhoni could soon be home. Saini decided to give himself a couple of days, going hungry and even sleeping on the pavement.

And in the end his love triumphed. When Dhoni heard about the story he didn't waste any time in getting ready for the shoot. The light of the flashbulbs then captured Saini's dream: the photo that would hopefully capture his fiancee's heart.

Saturday, December 15, 2007

95 Percent Of All E-mail Sent In 2007 Was Spam

There was a time--2004 to be precise--when spam "only" consumed 70 percent of all e-mail. Those were the good old days. Today, as Barracuda Networks' annual spam report shows, upwards of 95 percent of all e-mail is spam. In 2001, the number was 5 percent.

We've come a long way, baby.

Ironically (or not), the United States' Can-Spam Act has done absolutely nothing (zip!) to stop the spam onslaught. It has come to the point that, as a separate Barracuda survey of 261 business professionals shows, we increasingly prefer telemarketing to e-mail spam. (I find that I'm much more willing to give my home address and phone number than my e-mail address these days. You?)

Some salient numbers from the reports:

* The Barracuda Networks study, based on an analysis of more than 1 billion daily e-mail messages sent to its more than 50,000 customers worldwide, found that 90 percent to 95 percent of all e-mail sent in 2007 was spam, increasing from an estimated 85 percent to 90 percent of e-mail in 2006;

* Barracuda Networks' poll also showed that 50 percent of users received five or fewer spam e-mails in their in-box each day. Almost 65 percent received less than 10 spam messages each day, while 13 percent were inundated with 50 or more spam e-mails daily. (That's me, unfortunately.);

* Spam is becoming more sophisticated. Barracuda Networks found "that the majority of spam e-mails in 2007 utilized identity obfuscation techniques";

* Spammers also increased the usage of attachments, such as PDF files and other file formats in 2007.

* 57 percent of respondents view spam e-mail as the worst form of junk advertising, close to double the 31 percent that cited postal junk mail. Only 12 percent chose telemarketing;

What is to be done? I suspect, as Dana Blankenhorn has written, that the spam problem is not an individual's problem. It's a community's problem and, hence, a community response is arguably the best way to resolve it. There are interesting open-source projects that leverage the power of community to identify and block spam.

But what about adding to this with a social-networking approach? I've written before about the role one's address book could play in building online trust networks, and how these same networks could be used to block spam. Following the six degrees of separation argument, I could presumably create a massive "white list" of allowable e-mail senders by linking my friends (and their friends, and their friends...) Everyone else? Blocked, until they become part of the network.

The point is that collective intelligence is likely better than an individualistic approach to combating spam. When we start pining for the "good ol' days" of junk mail and telemarketing, we clearly need to find solutions. Filtering probably isn't going to cut it.

Wednesday, May 16, 2007

Seagate Confirms 1TB Hard Drive

Seagate has confirmed to the folks over at DailyTech, that they plan to launch a 1TB (Terabyte) hard drive sometime in the first half of 2007. The monster drive will make use of Seagate's perpendicular recording technology, made popular by their 7200.10 series desktop drives. More information over at DailyTech.

"Seagate’s 1TB hard drive will be our second generation 3.5-inch hard drive to feature capacity-boosting perpendicular recording technology, and it will use fewer heads and discs than similar-capacity products we expect to see from our competitors. It is clear that fewer heads and discs, along with our proven perpendicular technology, can increase drive reliability, and also reduce operating temperatures, power consumption, noise, and weight."

Sunday, January 28, 2007

Working of the Hard Disk

Here we shall see about the working of the hard disk.

Nearly every desktop computer and server in use today contains one or more hard-disk drives. Every mainframe and supercomputer is normally connected to hundreds of them. You can even find VCR-type devices and camcorders that use hard disks instead of tape. These billions of hard disks do one thing well -- they store changing digital information in a relatively permanent form. They give computers the ability to remember things when the power goes out.

Hard Disk Basics

Hard disks were invented in the 1950s. They started as large disks up to 20 inches in diameter holding just a few megabytes. They were originally called "fixed disks" or "Winchesters" (a code name used for a popular IBM product). They later became known as "hard disks" to distinguish them from "floppy disks." Hard disks have a hard platter that holds the magnetic medium, as opposed to the flexible plastic film found in tapes and floppies.

At the simplest level, a hard disk is not that different from a cassette tape. Both hard disks and cassette tapes use the same magnetic recording techniques described in How Tape Recorders Work. Hard disks and cassette tapes also share the major benefits of magnetic storage -- the magnetic medium can be easily erased and rewritten, and it will "remember" the magnetic flux patterns stored onto the medium for many years.

Cassette Tape vs. Hard Disk

Let's look at the big differences between cassette tapes and hard disks:
The magnetic recording material on a cassette tape is coated onto a thin plastic strip. In a hard disk, the magnetic recording material is layered onto a high-precision aluminum or glass disk. The hard-disk platter is then polished to mirror-type smoothness.

With a tape, you have to fast-forward or reverse to get to any particular point on the tape. This can take several minutes with a long tape. On a hard disk, you can move to any point on the surface of the disk almost instantly.

In a cassette-tape deck, the read/write head touches the tape directly. In a hard disk, the read/write head "flies" over the disk, never actually touching it.

The tape in a cassette-tape deck moves over the head at about 2 inches (about 5.08 cm) per second. A hard-disk platter can spin underneath its head at speeds up to 3,000 inches per second (about 170 mph or 272 kph)!

The information on a hard disk is stored in extremely small magnetic domains compared to a cassette tape's. The size of these domains is made possible by the precision of the platter and the speed of the medium.
Because of these differences, a modern hard disk is able to store an amazing amount of information in a small space. A hard disk can also access any of its information in a fraction of a second.

Capacity and Performance

A typical desktop machine will have a hard disk with a capacity of between 10 and 40 gigabytes. Data is stored onto the disk in the form of files. A file is simply a named collection of bytes. The bytes might be the ASCII codes for the characters of a text file, or they could be the instructions of a software application for the computer to execute, or they could be the records of a data base, or they could be the pixel colors for a GIF image. No matter what it contains, however, a file is simply a string of bytes. When a program running on the computer requests a file, the hard disk retrieves its bytes and sends them to the CPU one at a time.

There are two ways to measure the performance of a hard disk:
Data rate - The data rate is the number of bytes per second that the drive can deliver to the CPU. Rates between 5 and 40 megabytes per second are common.

Seek time - The seek time is the amount of time between when the CPU requests a file and when the first byte of the file is sent to the CPU. Times between 10 and 20 milliseconds are common.
The other important parameter is the capacity of the drive, which is the number of bytes it can hold.

Inside: Electronics Board
The best way to understand how a hard disk works is to take a look inside. (Note that OPENING A HARD DISK RUINS IT, so this is not something to try at home unless you have a defunct drive.)





It is a sealed aluminum box with controller electronics attached to one side. The electronics control the read/write mechanism and the motor that spins the platters. The electronics also assemble the magnetic domains on the drive into bytes (reading) and turn bytes into magnetic domains (writing). The electronics are all contained on a small board that detaches from the rest of the drive.


Inside: Beneath the Board
Underneath the board are the connections for the motor that spins the platters, as well as a highly-filtered vent hole that lets internal and external air pressures equalize:




Removing the cover from the drive reveals an extremely simple but very precise interior


In this picture you can see:






The platters - These typically spin at 3,600 or 7,200 rpm when the drive is operating. These platters are manufactured to amazing tolerances and are mirror-smooth (as you can see in this interesting self-portrait of the author... no easy way to avoid that!).

The arm - This holds the read/write heads and is controlled by the mechanism in the upper-left corner. The arm is able to move the heads from the hub to the edge of the drive. The arm and its movement mechanism are extremely light and fast. The arm on a typical hard-disk drive can move from hub to edge and back up to 50 times per second -- it is an amazing thing to watch!

Inside: Platters and Heads
In order to increase the amount of information the drive can store, most hard disks have multiple platters. This drive has three platters and six read/write heads:







The mechanism that moves the arms on a hard disk has to be incredibly fast and precise. It can be constructed using a high-speed linear motor.




Many drives use a "voice coil" approach -- the same technique used to move the cone of a speaker on your stereo is used to move the arm.





Storing the Data

Data is stored on the surface of a platter in sectors and tracks. Tracks are concentric circles, and sectors are pie-shaped wedges on a track, like this:




A typical track is shown in yellow; a typical sector is shown in blue. A sector contains a fixed number of bytes -- for example, 256 or 512. Either at the drive or the operating system level, sectors are often grouped together into clusters.

The process of low-level formatting a drive establishes the tracks and sectors on the platter. The starting and ending points of each sector are written onto the platter. This process prepares the drive to hold blocks of bytes. High-level formatting then writes the file-storage structures, like the file-allocation table, into the sectors. This process prepares the drive to hold files.


Marshall Brain. "How Hard Disks Work". April 01, 2000 http://computer.howstuffworks.com/hard-disk.htm (January 27, 2007)

Friday, January 26, 2007

PRESIDENT'S SPEECH AT THE VALEDICTORY FUNCTION OF GOLDEN JUBILEE OF COIMBATORE INSTITUTE OF TECHNOLOGY, COIMBATORE, TAMIL NADU



18-12-2006 : Coimbatore, Tamil Nadu


                                                              

Convergence of Technologies


I am delighted to participate in the valedictory function of the Golden Jubilee celebrations of the Coimbatore Institute of Technology (CIT). I greet the Members of the Managing Committee, Director, Faculty Members, Students and the distinguished guests on this important occasion. I am particularly happy to be with you today in this institution, which is one of the pioneering Engineering institution in Tamil Nadu. The founder of this Institute Prof P. R. Ramakrishnan, after a brilliant academic career at the Massachusetts Institute of Technology (MIT) in the USA in Engineering and Management, came back to India and to serve the nation.




He started this Institute in industrially alert town of Coimbatore. He has since become a role model for all the young and old alike. He is a rare blend of academician, industrialist and philanthropist and politician. His vision has produced a large number of engineers of high quality who are involved in the development of Science and Technology in the country.



I congratulate the Institution and its founder. My friend Prof. N Balakrishnan is an Alumni of this institution and he still remembers the Director, his teachers and staff of this institution even after 34 years of his leaving this institution. This has happened due to the care taken by the institution while nurturing the students during their stay here. Over the years CIT has grown into a multi-disciplinary institution of excellence. I have visited CIT, when I was the Principle Scientific Advisor to the Government of India. I stayed at your guest house. I visited your hostels and interacted with your students who received me with warmth and enthusiasm. I could see the dream in their eyes to contribute to the vision of a Developed India. I could see in them the future of the country that is bright and pure. I was thinking what thoughts I can share with you today. I have selected the topic "Convergence of Technologies".



India in transformation

India is well on its way to become a knowledge power, there are all round growth in all sectors of the economy namely the agriculture, manufacturing and services. Today we have an opportunity to take the leadership in the knowledge revolution. Knowledge Revolution is indeed the foundation for leading India into a Developed Nation. For this, the time is ripe because of the ascending trajectory of the economy, availability of great institutions for capacity building of the human resource, abundant bio-diversity, and other natural resources and above all, our 540 million youth who are determined to make the nation prosperous, happy and a safe place to live well before 2020. With this background India must take the lead in mobilizing and integrating national and international knowledge resources. Keeping this in mind, I would like to discuss with you on Convergence of Technologies, Societal Grid leading to World Knowledge Platform.



Convergence of Technologies

The information technology and communication technology have already converged leading to Information and Communication Technology (ICT). Information Technology combined with bio-technology has led to bio-informatics. Now, Nano-technology is knocking at our doors. It is the field of the future that will replace microelectronics and many fields with tremendous application potential in the areas of medicine, electronics and material science. When Nano technology and ICT meet, integrated silicon electronics, photonics are born and it can be said that material convergence will happen. With material convergence and biotechnology linked, a new science called Intelligent Bioscience will be born which would lead to a disease free, happy and more intelligent human habitat with longevity and high human capabilities. Convergence of bio-nano-info technologies can lead to the development of nano robots. Nano robots when they are injected into a patient, my expert friends say, it will diagnose and deliver the treatment exclusively in the affected area and then the nano-robot gets digested as it is a DNA based product.

Convergence of ICT, aerospace and Nano technologies will emerge and revolutionize the aerospace industry and electronics leading to nano computing systems. This technological convergence will enable building of cost effective low weight, high payload, and highly reliable aerospace systems, which can be used for inter-planetary transportation.



Bioinformatics: The convergence of bioscience and IT into Bioinformatics has given the thrust to researchers for genomics-based drug discovery and development. Pressure is mounting over the pharmaceutical companies to reduce or at least control costs, and have a growing need for new informatics tools to help manage the influx of data from genomics, and turn that data into tomorrow's drugs.

Bioinformatics data play a vital role and emerging as a business model for the medical and pharmaceutical sector. Key areas such as gene prediction, data mining, protein structure modeling and prediction, protein folding and stability, macromolecular assembly and modeling of complex biological systems are thriving and IT has major role to play in these areas in bringing the tools to manage the high throughput experiments and the data they generate, and sharing and integrating all the data in a meaningful way resulting into the detailed models of complex systems, particularly biological pathways.




Bio Suite
: I launched the Bio-Suite at Hyderabad on 14th July 2004, which is an important software package that caters to all aspects of computational biology from genomics to structure-based drug design. It incorporates the latest publicly known algorithms, as chosen by a panel of academic partners, and has been coded entirely by the Tata Consultancy Services (TCS) team, using the software engineering practices. It can be used by academic and R&D institutions, small and medium and large biotechnology companies. This bio-suite was developed by TCS in collaboration with Council for Scientific and Industrial Research (CSIR) and academic institutions for cost effective drug development in India.



Nano Technology: When I think of Nanoscience and Nanotechnology, I would like to discuss about three scientists who have laid the foundation on nanoscience and nanotechnology. Mr. Richard Feynman, who described the concept of 'building machines" atom by atom in his talk at Caltech titled "There is plenty of room at the bottom". Mr. Eric Drexler, who wrote the book titled 'Nano Systems, Molecular machinery, manufacturing and computation". Prof CNR Rao, who pioneered and fostered the nanoscience research in India. Molecular nano technology has enormous potential for future aerospace systems and health areas. Research has shown that newly discovered class of molecules, leading to the development of carbon nano tubes that they have multiple applications in the system developed in the areas of electronics particularly nano-electronics and power systems. Carbon nano tubes are normal form of carbon with remarkable electrical and mechanical properties. It is hoped that such materials could revolutionize electronic design and open the space frontier by radically lowering the cost of launch to orbit.

Carbon Nano tubes reinforced with polymer matrix will result in composites which are super strong, light weight, small and intelligent structures in the field of material science. This has tremendous aerospace applications.

Molecular switches and circuits along with nano cell will pave the way for the next generation computers. Ultra dense computer memory coupled with excellent electrical performance will result in low power, low cost, nano size and yet faster assemblies.




Energy for future generations
: The era of wood and bio-mass is almost nearing its end. The age of oil and natural gas would soon be over even within the next few decades. The world energy forum has predicted that fossil based oil, coal and gas reserves will last for another 5 - 10 decades only.

Hydrogen fuel and solar rays are the two modes to get clean power. The solar rays, when passed though presently available solar photovoltaic cells have an efficiency of less than 20%. I would like to discuss the latest research in the area of photo-voltaic cells using Carbon nano tubes which can give an efficiency of over 45%, nearly three times the efficiency which the present technology can offer.

CNT based solar cells for higher efficiency

The low efficiency of conventional photo voltaic cells has restricted the use of solar cells for large application for power generation. Research has shown that the Gallium Arsenide (GaAs) based PV cell with multi junction device could give maximum efficiency of 30%. Therefore, the present research trend is on the use of Carbon Nano Tube (CNT) based PV cell. Both single wall CNTs and multi wall CNTs have been used as electrodes, as electron acceptor, which can split exciton into electrons and holes to produce electricity.

The CNTs provide better electron ballistic transport property along its axis with high current density capacity on the surface of the solar cell without much loss. Higher electrical conductivity and mechanical strength of CNT could improve the quantum efficiency to the order of 35%. But, this is not sufficient. Recent research abroad has shown that the alignment of the CNT with the polymer composites substrate is the key issue and this aligned CNT based PV cells would give very high efficiency in photovoltaic conversion. The polymer composites increase contact area for better charge transfer and energy conversion. In this process, the researchers could achieve the efficiency of about 50% at the laboratory scale. The optimum efficiency was achieved with the aligned CNTs with poly 3 - octyl thiophene (P3OT) based PV cell. I am sure, scientific researchers in Coimbatore Institute of Technology (CIT) will be excited to work in this area of research in partnership with industries so that we can get large scale production of aligned CNTs with P3OT based high energy solar cells. Now I would like to describe the societal grid, which is essential for bringing the connectivity for the billion people towards building the knowledge society.



Technology to Society - Societal Grid

Development of technologies and their convergence have significant influence on the society in terms of knowledge, health care, governance and economic development. To maximize the synergy between the various components of education, healthcare, e-governance, rural development we need to establish connectivities among them. These connectivities will certainly bring seamless access and information flow among the various domains leading to maximization of GDP and productivity; hence, there is need for establishing the GRIDs namely Knowledge grid, healthcare grid, e-governance grid and the PURA (Providing Urban Amenities in Rural Areas) grid. This interconnecting grid will be known as societal grid. Knowledge sharing, knowledge utilization and knowledge re-use is very vital by all constituents of the society for promoting non-linear growth. Details of Societal Grid are:



1. Knowledge GRID - Inter connecting universities with socio-economic institutions, industries and R&D organizations.

2. Health Care GRID - Inter-connecting the Health Care institutions of Government, Corporate and Super specialty hospitals, research institutions, educational institutions and ultimately, Pharma R & D institutions.

3. e-Governance GRID - Inter-connecting the Central Government and State Governments and District and Block level offices for G2G (Government to Government) and G2C (Government to Citizen) connectivity.

4. PURA GRID - Connecting the PURA Nodal centers with the Village Knowledge Centres and Domain service providers.

We have, so far discussed all the four connectivities required for the societal transformation. With this transformation, India is poised for creating the World Knowledge Platform for promoting synergy amongst partner nations.



World Knowledge Platform

During my visit to Singapore, Philippines and Republic of Korea, I have put forward the concept of "World Knowledge Platform", which will integrate the core competencies of the partner countries to develop knowledge products. This platform will enable joint design, development, cost effective production and marketing of the knowledge products in various domains based on the core competence of partner nations to international market.

In India, we have today an example of a successful joint venture which harnessed the core competencies of two nations India and Russia, who have different cultures, languages and design standards. The product which has come out is of world class, much ahead of other countries due to the joint working of best of minds from both countries. This proves that if the core competencies of nations are combined, best of knowledge products can emanate well ahead of time.



Missions of World Knowledge Platform: The convergence of Bio, Nano and ICT is expected to touch every area of concern to the humanity. The "World Knowledge platform" will take up the missions, in some of the areas given below, which are of utmost urgency to all of us to make our world a safe, sustainable and peaceful and prosperous place to live:

1. Energy: exploration, storage, production and conversion

2. Water: treatment and desalination

3. Healthcare: Diagnosis, drug delivery system

4. Food: preservation, storage and distribution

5. Knowledge products :Hardware, Software and Networking Products

6. Automobile: Hardware and embedded software integration

In addition to the areas mentioned above, areas such as electronics, ICT and Automobile Sector may also be focused especially in the areas of design, development leading to productionization for meeting the market demands of partner countries and the world market. The core competence of India is software and the core competencies of the other partner nations are hardware and software, it can lead to design, development and marketing of world class systems that is equally dominated by the software intelligence and hardware innovation. The world knowledge platform will also evolve a virtual design centre with the participation of collaborating countries. I am sure CIT can definitely become a member of this World Knowledge Platform.




Conclusion

CIT has been a premier education and research institution in the country for Engineering and Technology. How will this institute meet this challenge in the coming century? Based on my visits to all the States and Union Territories in the country and 14 countries in Asia, Europe and Africa and meeting over one million youth, I realize that all the youth irrespective of which country they belong to, aspire to live in a peaceful, happy, prosperous and safe nation. What does it mean? It means that economic prosperity alone is not sufficient. It has to be complimented with the value systems and our five thousand years old Civilizational heritage which has genetically shaped the Indian people. I personally believe, when the nation is progressing towards economic development, it is also essential to build education with value system drawn from our Civilizational heritage. The good human life comes out of the way we live; we may have series of problems. But the billion people have the connectivity which gives us the united strength. To meet the challenges of such a missions for the nation, I visualize the Coimbatore Institute of Technology (CIT) to have the following missions:



(a) CIT has to be known for its pioneering research in Chemical technology, manufacturing and Information and Communication Technology.

(b) Humanities discipline should be made compulsory for all students at graduate, post-graduate and Ph.D. level.

(c) Conceiving and conducting a special programme on convergence of technology at the graduate, post-graduate and Ph.D level with continuous update.

(d) Be a partner in the World Knowledge Platform to promote world class knowledge creation, knowledge dissemination and knowledge sharing among all partner countries.

(e) Prepare the research road map for Tamilnadu for the next three decades.

(f) Create CIT a Virtual Education Hub - so that the quality education from CIT can reach out to different engineering institutions in Tamil Nadu.

(g) Generate next generation leaders and Faculty for the multitude of engineering colleges in Tamil Nadu.

Once again let me greet all the Members of CIT particularly the founder Prof P. R. Ramakrishnan, the students and staff, the present and the past on Golden Jubilee Year. My best wishes to all the member of CIT success in their mission of promoting quality engineering education and research among the youth.

May God bless you.