The news was flashed on the website for this years TECHFEST 2010 at IIT Bombay. The man who had been on the ads of Intel was coming to deliver a lecture.....yes, Mr. Ajay Bhatt, the co-founder of the USB.He has been instrumental in driving definition of AGP (Accelerated Graphics Port), PCI Express, Platform Power management architecture and various chipset enhancements. Waiting for an hour in the line for the lecture i was fortunate enough to get a good seat for the lecture. The man was introduced and then he appeared on the dais,and what surprise, this was not the man from the advertisement of Intel but someone else. He clarified the fact that the person in the ad was an actor and the great person himself was standing in front of us. He introduced us to the world we knew about....mobile computing, but still I say 'introduced' because the facts and technology he spoke about were completely unknown. imagine a power saving core of a computer, or a laptop which cools itself based on the jet cooling principle used in the planes. The man standing there delivering the lecture was the kind of a suave technocrat, a man with achievement which changed the world, but so humble in his approach for this illiterate(i call myself that...in front of this man) crowd. The impact of mobile computing on the lives of people and the strength of the technology was explained briefly about. He also touched the issues of processors for mobile computing with the relative normal computer processors, the research for imbibing the powerful processor like the atom, duo core etc in the mobile world and its problems. The best part of the lecture was the comparison of the various types of data on the net. We find it hard to believe that the impact of social networking websites has been contributing at least 45% of the data on net today. As for the dream of an electronics engineering major, the lecture took course to the temperature and heat dissipation in small devices like pda's. The small size to heat compensation techniques and the more sustainable batteries was a topic of great interest. The Li-ion battery to the liquid polymer battery(used in iPod) and various aspect of battery were discussed. This led an argument to battery charging; a concept of 'on the go charging' or the wireless power is a hot research topic, charging based on induction,and concept of having centers like 'Charging hotspots' on the lines of the 'Wi-Fi hotspot'. His explanation about the power management in processors, use of mobile computing and its future gave way for various discussions on 3d-movie making tools, and other applications which were considered magic in the recent past. Mr. Bhatt in his lecture gave the minds sitting there a vision, a vision to achieve something big in technology which can change the world ,like his USB port, a hole in the wall concept for the computer by which the common man could plug his favorite devices and just sit back and enjoy.
Just looking around after the lecture we could surely say than there were more than 150 odd people present inside the theater and more waiting outside just to catch a glimpse of the person. Why was this person, middle-aged , non-macho, but still suave respected so much? We Indians love to flock around our superstars who fight in the movies and romance beautiful girls...something we cannot achieve. But we are never able to carry their work with us, but Mr. Bhatt's work is still in our pocket as a Mp3 player, a pendrive, a digital camera...and what not!!! He is a role model and surely a perfect example of how a geek can become a SUPERSTAR!!!
Saturday, January 23, 2010
Sunday, August 2, 2009
Therepeutic robots
Researchers are designing cute, lovable robots to encourage social behavior in patients who have trouble connecting with other people. Patients and the general population have found them irresistible, but their high-end parts make robots an expensive treatment option.
please have a look at this video
please have a look at this video
When will we get there?
I have put up something different this time.....its the general condition of the country and its administrators. The post is from PPI.....if have not subscribed it then.....plz go on and read it....
July 31 2009
Mr Esko Aho, 55, is now the Executive Vice President, Corporate Affairs & Responsibility at Nokia in Helsinki, Finland.
Before this, he was the Prime Minister of his country.
While comparisons are odious, doesn't this make you wonder? When will we get there?
He would not have got this job due to pull. Because, if that were so, he would have been the Chairman or the President or some such title holder. He is obviously qualified to be an Executive Vice President of one of the world's largest and most successful companies.
What an enlightened nation Finland must be. What a merit driven society. How much professionalism he must have brought to the Prime Minister's role.
When will we get there?
A leading newspaper carried a report on the 20th December 2008 about our ministers who could not read the alphabet in any language. On 2nd of December 2008, there was a report about ministers being gangsters. Recently, it has been reported that the current Parliament has 22% more criminals than the last Lok Sabha. An MP has just been arrested, accused of murder.
On May 31st this year, there was a report which said political clans spell the doom of professionalism. All kinds of children are being thrust upon the nation as ministers. Professional competence is not even on the list of qualifications for the job. Many "leaders" who are required to be pictures of patriotism are believed to have potentially sensitive foreign connections; often through children who live abroad in preference to India, have foreign spouses or work for foreign establishments that might even bring conflicts of interest if the father is in a powerful position in the government.
So when will we get there? We will get there only when our current political paradigm is completely altered. This is an urgent and critical need. To get enlightened governance that will quickly clean up our administrative institutions, we need qualified, honest and patriotic Indians to be in politics. Obviously, for that to happen, we need a system where such qualified, honest and patriotic Indians have a chance to stand for elections, win and reach Parliament.
And to achieve this, the 250 to 300 million middle class of India have to compulsorily participate. They have to, one, be on the electoral list; two, actually be there to vote on the polling day; and three, have someone worth voting for. The first two are in your hands, PPI shall offer the third. We promise.
Let's hurry. We are 62 years behind. Until we get enlightened Parliamentarians, our administrative institutions like the law enforcement machinery, the criminal justice machinery, the public distribution system, the primary health and education machinery, the babudom, are all crumbling. And taking our nation down with it.
July 31 2009
Mr Esko Aho, 55, is now the Executive Vice President, Corporate Affairs & Responsibility at Nokia in Helsinki, Finland.
Before this, he was the Prime Minister of his country.
While comparisons are odious, doesn't this make you wonder? When will we get there?
He would not have got this job due to pull. Because, if that were so, he would have been the Chairman or the President or some such title holder. He is obviously qualified to be an Executive Vice President of one of the world's largest and most successful companies.
What an enlightened nation Finland must be. What a merit driven society. How much professionalism he must have brought to the Prime Minister's role.
When will we get there?
A leading newspaper carried a report on the 20th December 2008 about our ministers who could not read the alphabet in any language. On 2nd of December 2008, there was a report about ministers being gangsters. Recently, it has been reported that the current Parliament has 22% more criminals than the last Lok Sabha. An MP has just been arrested, accused of murder.
On May 31st this year, there was a report which said political clans spell the doom of professionalism. All kinds of children are being thrust upon the nation as ministers. Professional competence is not even on the list of qualifications for the job. Many "leaders" who are required to be pictures of patriotism are believed to have potentially sensitive foreign connections; often through children who live abroad in preference to India, have foreign spouses or work for foreign establishments that might even bring conflicts of interest if the father is in a powerful position in the government.
So when will we get there? We will get there only when our current political paradigm is completely altered. This is an urgent and critical need. To get enlightened governance that will quickly clean up our administrative institutions, we need qualified, honest and patriotic Indians to be in politics. Obviously, for that to happen, we need a system where such qualified, honest and patriotic Indians have a chance to stand for elections, win and reach Parliament.
And to achieve this, the 250 to 300 million middle class of India have to compulsorily participate. They have to, one, be on the electoral list; two, actually be there to vote on the polling day; and three, have someone worth voting for. The first two are in your hands, PPI shall offer the third. We promise.
Let's hurry. We are 62 years behind. Until we get enlightened Parliamentarians, our administrative institutions like the law enforcement machinery, the criminal justice machinery, the public distribution system, the primary health and education machinery, the babudom, are all crumbling. And taking our nation down with it.
Saturday, August 16, 2008
Buckyballs: C-60 to Flash Memory
Buckyballs were discovered in 1985 - the product of an experiment on carbon molecules in space. However, it was not until 1991 that buckyball science came into its own. Just how do buckyballs manage their chemical and physical feats? In C60, hexagons and pentagons of carbon link together in a coordinated fashion to form a hollow, geodesic dome with bonding strains equidistributed among 60 carbon atoms. Some of the electrons are delocalized over the entire molecule--a feature even more pronounced in that workhorse of organic chemistry, benzene. Benzene is flat and many of its derivatives also tend to stack in flatsheets. Spherical buckyballs literally add a new dimension to the chemistry of such aromatic compounds. Buckministerfullerine has been named the Molecule of the Year. In addition to opening up new fields on chemistry, C60 also shows interesting physical properties. It is resistant to shock and it has been suggested that as a lubricant, there is even evidence of superconductivity and it may provide the added ingredient that makes diamond films more practical.
Until a few years ago, there were two known forms of pure carbon, graphite and diamond. Then an improbable-seeming third form of carbon was discovered: a hollow cluster of 60 carbon atoms shaped like a soccer ball. Buckminsterfullerene or "buckyballs"--named for the American architect R. Buckminster Fuller, whose geodesic domes had a similar structure--is the roundest, most symmetrical large molecule known. It is exceedingly rugged and very stable, capable of surviving the temperature extremes of outer space. At first, however, the molecule was a mystery wrapped in an enigma. But when a convenient way of making this molecule, also known as C60, was discovered, it set off an explosion of research among chemists, physicists, and materials scientists to uncover the molecule's secrets. Investigators soon discovered a whole family of related molecules, including C70, C84 and other "fullerenes"--clusters as small as C28 and as large as a postulated C240.These unusual molecules turn out to have extraordinary chemical and physical properties.They react with elements from across the periodic table and with the chemical species known as free radicals--key to the polymerization processes widely used in industry--thus opening up the fullerenes to the manipulative magic of organic chemists. When a fullerene is "doped" by inserting just the right amount of potassium or cesium into empty spaces within the crystal, it becomes a superconductor--the best organic superconductor known.
The use of buckyballs in industry became the topic of discussion.With the growing technology and the want for a faster communicating medium,the bucky ball made its way to digital electronics. The flash memory was enhanced by the use of C60 in it. Flash memory consist of a transistor which has a gate ,drain and a source. The gate is separated from the transistor by a layer of insulation,the gate dielectric. The gate contains another ‘floating gate’ in the embedded dielectric. By varying the voltage on the gate the charge can be made to enter or leave the inner gate. The presence or absence of charge at the floating gate denotes the present bit. The flash memories have many such transistors and have followed the Moore’s law for years, but the power consumption is also high. The flash require about 11V-13V of supply for entering the charge or removing it from the dielectric. If the dielectric is made thinner then the charge can move faster but it may also result in leaking of charge. Buckyballs are now used to provide a path for charge to enter the dielectric and leave it faster. They are like the stepping stones in a river to cross from one side to another. Enough potential difference can cause them to show up and then the charge transfer can take place without disturbing the dielectric dynamics. This can enhance the speed of flash memories and bring down the power supply from 13V to 5V.
The cost of flash memories may increase due to it but may also be a very handy weapon to enervate the power consumption. Use of such technologies in DRAM’s can also prove to be effective.
More information on use of buckyballs through your comments would be appreciated.
Monday, July 14, 2008
GRAPHENE:The Faster Substitute
When we all had imagined that the Moore's law will hold good for more than 40 odd years, Silicon,the king of semiconductor materials just got a substitute. The industry which is gaining great impetus and leverage over the growth of Si market, is experimenting for the faster semiconductor. Which, in turn, gives faster speed to the digital circuitry. The fact lies that the major masses of the world(i.e. INDIANS) just discovered the computer as a essential commodity a few years ago. The world digital industry is trying to fulfill the dream of the faster machine by giving in to different Processors and RAM's(an average Indian can relate speed of the computer to only these two things), industry modified silicon substrates to give us a better machine. Now, comes in the hero of the evening, Graphene; Graphene is the atomic particulate which can be obtained graphite(the pencil lead). The smudge of the pencil, is that of graphene. It has a one atom thick crystal with great electric properties. Experiment conducted in Maryland University state that when at room temperature, electrons travel at 200,000cm/sec in 1V/cm electric field. This is 100 times faster than the normal movement of electron in Si, hence a faster material for conduction. The smallest transistor was made from graphene which was to be 1 atom thick and 10 to 50 atoms wide. It is not a natural choice of transistor material as it does not have a electric bandgap i.e. the graphene transistor is hard to turn off. Andre Geim & Kostya Novoselov of the Manchester University overcame the obstacles by etching off some of the Graphene to create narrow constrictions which provided the bandgap.
The speed of electron transfer due to graphene has got the world excited & its research is getting funded from right across Europe to USA. Graphene can relatively reduce the chip size and reduce the magnanimity of heavy RF circuits. Its high conductance can be used to pack in more power in batteries and to make more sensitive sensors. An expert in 2D dynamics of an electron from Harvard University has said that graphene may not be able to replace Si completely but would surely take a large chunk of its industry for its own. he further says that due to graphene all the rules about how the electron behaves are changed.
The topic is hot to handle but too precious to be missed hence please post comments if you all find some interesting reports in this field. Very fast it is but is it reliable is the question. Small it is to the big daddy Silicon but David did beat Goliath, didn't he?
More on topic at http://www.spectrum.ieee.org
The speed of electron transfer due to graphene has got the world excited & its research is getting funded from right across Europe to USA. Graphene can relatively reduce the chip size and reduce the magnanimity of heavy RF circuits. Its high conductance can be used to pack in more power in batteries and to make more sensitive sensors. An expert in 2D dynamics of an electron from Harvard University has said that graphene may not be able to replace Si completely but would surely take a large chunk of its industry for its own. he further says that due to graphene all the rules about how the electron behaves are changed.
The topic is hot to handle but too precious to be missed hence please post comments if you all find some interesting reports in this field. Very fast it is but is it reliable is the question. Small it is to the big daddy Silicon but David did beat Goliath, didn't he?
More on topic at http://www.spectrum.ieee.org
Tuesday, July 8, 2008
Photon transistor
Researchers dream of quantum computers. Incredibly fast super computers which can solve such extremely complicated tasks that it will revolutionise the application possibilities. But there are some serious difficulties. One of them is the transistors, which are the systems that process the signals.
Today the signal is an electrical current. For a quantum computer the signal can be an optical one, and it works using a single photon which is the smallest component of light.
"To work, the photons have to meet and "talk", and the photons very rarely interact together" says Anders Søndberg Sørensen who is a Quantum Physicist at the Niels Bohr Institute at Copenhagen University. He explains that light does not function like in Star Wars, where the people fight with light sabres and can cross swords with the light. That is pure fiction and can't happen. When two rays of light meet and cross, the two lights go right through each other. That is called linear optics.
What he wants to do with the light is non-linear optics. That means that the photons in the light collide with each other and can affect each other. This is very difficult to do in practice. Photons are so small that one could never hit one with the other. Unless one can control them -- and it is this Anders Sørensen has developed a theory about.
Today the signal is an electrical current. For a quantum computer the signal can be an optical one, and it works using a single photon which is the smallest component of light.
"To work, the photons have to meet and "talk", and the photons very rarely interact together" says Anders Søndberg Sørensen who is a Quantum Physicist at the Niels Bohr Institute at Copenhagen University. He explains that light does not function like in Star Wars, where the people fight with light sabres and can cross swords with the light. That is pure fiction and can't happen. When two rays of light meet and cross, the two lights go right through each other. That is called linear optics.
What he wants to do with the light is non-linear optics. That means that the photons in the light collide with each other and can affect each other. This is very difficult to do in practice. Photons are so small that one could never hit one with the other. Unless one can control them -- and it is this Anders Sørensen has developed a theory about.
The submissive power of the photon does not allow it interact with other photons.The process by which a photo can be made to interact with the other is by the use of nano wires.
1. the red photon can be made to enter the nano wire from one end and green photon from other end.
2. An atom of a heavy element can behave as a force provider the divert the photos from their respective paths.
3.On collision, the photon with with a larger phase will be able to carry some energy of the other photon (i.e. the green one in the example carries the energy of the red photon). this is the principle of signal processing revisited .
This idea was concieved at the Copenhagen University and is currently being researched at many universities including Harvard.
(ref: IEEE Spectrum July 2008;
Detailed work by Anders Sørensen)
Your ideas are welcome on this topic & plz post any new innovations in the industry.
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