Discover the most popular and inspiring quotes and sayings on the topic of Microprocessors. Share them with your friends on social media platforms like Facebook, Twitter, or your personal blogs, and let the world be inspired by their powerful messages. Here are the Top 100 Microprocessors Quotes And Sayings by 84 Authors including Brian Krzanich,Jack Kilby,Craig Bruce,Gordon Moore,Masayoshi Son for you to enjoy and share.
When you're the first guy to put out the piece of silicon that's half as expensive or twice as powerful, you bring a capability to the market that nobody else does - or can.
There was a space program before there was integrated circuits.
It's hardware that makes a machine fast. It's software that makes a fast machine slow.
If you'd asked me in 1980 what the big impact of microprocessors would be, I probably would have missed the PC. If you asked me in 1990 what was important, I probably would have missed the Internet.
I would say that hardware is the bone of the head, the skull. The semiconductor is the brain within the head. The software is the wisdom and data is the knowledge.
One of the most striking developments has been the rise, fall and rise again of the semiconductor industry of the United States, which is, once again, the dominant player in the most advanced semiconductor product-markets.
Computers operate on simple principles that can be easily understood by anybody with some common sense, a little imagination, and an IQ of 750.
If one ox could not do the job they did not try to grow a bigger ox, but used two oxen. When we need greater computer power, the answer is not to get a bigger computer, but ... to build systems of computers and operate them in parallel.
Some day, on the corporate balance sheet, there will be an entry which reads, "Information"; for in most cases, the information is more valuable than the hardware which processes it.
In a biological system, the software builds its own hardware, but design is critical, and if you start with digital information, it has to be really accurate.
Microkernels are not a pipe dream. They represent proven technology.
Software and hardware design is less different than software designers think, but more different than hardware designers think.
What the gears cannot do the computer might. The computer is the Proteus of machines. Its essence is its universality, its power to simulate
Data is the next Intel Inside.
Computer scientists are the historians of computing.
Once you have a computer that can do a few things - strictly speaking, one that has a certain 'sufficient set' of basic procedures - it can do basically anything any other computer can do. This, loosely, is the basis of the great principle of 'Universality'.
The stored-program digital computer has three major attributes: it is fast, it is accurate, and it is stupid. The first two attributes are often used to disguise the third.
Software is more important than hardware.
It is not a large exaggeration to say that everything else in a computer exists in order to bring information swiftly to the ALU for manipulation; and for the ALU, adding is the mechanical equivalent of breathing. But
The most advanced computer science programs in the world, and over the course of the Computer Center's life, thousands of students passed
The most important thing was the creation of a ... a standard, where hundreds of companies build hardware that can all run the same software.
The workstation-class machines built by Sun and others opened up new worlds for hackers.
Today, all arrows point toward the biotech, nanotech, and information technology industries, and the convergence among them.
Make a faster machine and people will flock to inefficient software.
The future lies in designing and selling computers that people don't realize are computers at all.
The next major explosion is going to be when genetics and computers come together. I'm talking about an organic computer - about biological substances that can function like a semiconductor.
In computers, every 'new explosion' was set off by a software product that allowed users to program differently.
I have sometimes thought the power of computers had exceeded our ability to use them, but Mr. Jobs and his team kept giving us devices that made indispensable things easier in ways you never thought of.
Computing technology started out as number-crunching.
To computer purchasers, it looks like they're spending more money for more CPUs and the computer is doing less work!
No consumer product improves more drastically, year after year, than the computer.
Engelbart showed, back in 1968, nearly everything that a networked personal computer does today.
Computers are great tools, but they need to be applied to the physical world.
In computing, the mean time to failure keeps getting shorter.
The protean nature of the computer is such that it can act like a machine or like a language to be shaped and exploited.
The implied methods would permit construction of entirely new computers reduced in size and basic complexity by a factor of at least a thousand.
To understand a program, you must become both the machine and the program.
We've been working now with computers and education for 30 years, computers in developing countries for 20 years, and trying to make low-cost machines for 10 years. This is not a sudden turn down the road.
One of the things that's interesting is that the PC has always had a huge amount of scalability. It was sort of the wild dog that moved into Australia and killed all the local life because it could just adapt. There used to be these dedicated devices, like dedicated word processors.
Computing is a big segment. It's more than just mobile devices or PCs and laptops.
Technological innovation has dramatically lowered the cost of computing, making it possible for large numbers of consumers to own powerful new technologies at reasonably low prices.
How many computer programmers does it take to change a light bulb? Are you kidding? That's a hardware problem!
The modern computer with all its various gadgets and wonderful electronic facilities now makes it possible to preserve and reinvigorate all the cultural richness of mankind.
Today's meters are little computers.
In the past, there was hardware, software, and platforms on top of which there were applications. Now they're getting conflated. That is all going to get disrupted by the move to the cloud.
By being able to write a genome and plug it into an organism, the software, if you will, changes the hardware.
Our lives sometimes depend on computers performing as predicted.
I took computers in high school. I would do all my own programming, but I didn't see the future of computers for anything other than data processing. Who was going to use a computer for communications?
What's needed now are software technologies that interconnect computing systems, people and data to produce more rapid answers to the questions of science, and to help researchers use computation in the most effective manner.
On the molecular scale, you find it's reasonable to have a machine that does a million steps per second, a mechanical system that works at computer speeds.
We're not in hardware for hardware's sake. We're in hardware to be able to express all our platform and productivity software in a way that's unique.
Miniaturization of electronics started by NASA's push became an entire consumer products industry. Now we're carrying the complete works of Beethoven on a lapel pin listening to it in headphones.
When a manufacturing company in Spain looks to IBM for a solution to a problem, they expect us to bring the best of IBM worldwide to it, not just the experience of IBM Spain.
computer-majiggies,
Software gets slower faster than hardware gets faster. (Or, sometimes known by] Grove [the head of Intel] giveth and Gates [the head of Microsoft] taketh away.)
The computing scientist's main challenge is not to get confused by the complexities of his own making.
If you don't know how compilers work, then you don't know how computers work.
If you look hard enough at any system, at some point it is going to reveal its patterns, habits, and operations.
All of a sudden, people are going to decide they want to go micro, everything's smaller.
Everybody jokes about that old story about the world only needing five computers, but when you think about it, that's where we're heading.
Farmers buy a lot of computers.
Computer science is the operating system for all innovation.
Although computer chips now are thinner, they're more powerful, they're not as reliable. You'd harvest computer chips from the 1980s from all around the world because they're reliable.
Thompson and Ritchie were among the first to realize that hardware and compiler technology had become good enough that an entire operating system could be written in C, and by 1978 the whole environment had been successfully ported to several machines of different types.
People who are more than casually interested in computers should have at least some idea of what the underlying hardware is like. Otherwise the programs they write will be pretty weird.
Computation, storage, and communications capacity are in the hands of practically every connected person - and these are the basic physical capital means necessary for producing information, knowledge and culture, in the hands of something like 600 million to a billion people around the planet.
We need to build computers for the masses, not the classes,
Only six electronic digital computers would be required to satisfy the computing needs of the entire United States,
I'm really only interested in technology that is about pictures. I'm interested in anything that makes a picture.
what year did a single typical desktop computer surpass the combined processing power of humanity? 1994.
To devise an information processing system capable of getting along on its own - it must handle its own problems of programming, bookkeeping, communication and coordination with its users. It must appear to its users as a single, integrated personality.
The potential of any technology is always dissipated by its users involvement in its predecessors ... Computer are still serving mainly to sustain precomputer effects.
Imagine that your desktop computer began to control its own peripheral devices, removed its own cover, and pointed its webcam at its own circuitry. That's us.
The most amazing achievement of the computer software industry is its continuing cancellation of the steady and staggering gains made by the computer hardware industry.
The world has arrived at an age of cheap complex devices of great reliability, and something is bound to come of it.
In order to make a perfect and beautiful machine, it is not requisite to know how to make it. All the works of human genius can be understood in the end to be products of a cascade of generate-and-test procedures that are, at bottom, algorithmic and mindless
People who are really serious about software should make their own hardware.
By 2100, our destiny is to become like the gods we once worshipped and feared. But our tools will not be magic wands and potions but the science of computers, nanotechnology, artificial intelligence, biotechnology, and most of all, the quantum theory.
Nanotechnology will let us build computers that are incredibly powerful. We'll have more power in the volume of a sugar cube than exists in the entire world today.
The Nature of Technology,
I am full of admiration for the technologists who have developed all sorts of gadgets for the purpose of improving communications. However, I believe that all these fascinating machines are complementary to, and not substitutes for, books and the printed word.
The Connection Machine was the most powerful supercomputer in the world. It is a complex supercomputer and it will take forever to completely describe how it works.
They will be moisture sensors, valve controls, "smart dust," parking meters, home appliances, and so on. These types of end devices almost never contain the processors, memory, hard drives, and other features needed to run a protocol stack.
A number of people who are interested in computers in this lifetime programmed computers in Atlantis.
Anyone can build a fast CPU. The trick is to build a fast system.
Computers are the central access; information processing based on a spiral network, similar to that which is the chaos of existence itself, the analysis of systems, the interlocking lokas.
In the computer field, the moment of truth is a running program; all else is prophecy.
For years, computer scientists were treating operating systems design as sort of an open-reserch issue, when the field's direction had been decided by commercial operations. Computer science has become completely cut off from reality.
In their capacity as a tool, computers will be but a ripple on the surface of our culture. In their capacity as intellectual challenge, they are without precedent in the cultural history of mankind.
When you write a piece of software you assume a certain type of hardware. If you assume hardware that's too powerful then you can't sell many copies cause very few people have that machine. If you assume hardware that's too simple your product can't do as much.
In the practical world of computing, it is rather uncommon that a program, once it performs correctly and satisfactorily, remains unchanged forever.
The world got enamored with smartphones and tablets, but what's interesting is those devices don't do everything that needs to be done. Three-D printing, virtual-reality computing, robotics are all controlled by PCs.
When I use a PC today I cannot understand why a machine with 1,000 times more processing power has a worse user response than the machine I was using in the late '80s at Acorn,' remarks Steve Furber. 'Well, I do know why it is, but it still seems the wrong answer.
Computing is not about computers any more. It is about living.
Programming in machine code is like eating with a toothpick
Metaprograms are programs that manipulate themselves or other programs as data.
There's no other product that changes function like the computer.
The chips are in production, the machines aren't. So we've got a little bit of work left to do.
The 65,536 processors were inside the Connection Machine.
Computer programs are the most complex things that humans make.