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Software in sentence

954 examples of Software in a sentence

But few consumers are concerned to know where a particular typeface came from or when or who designed it, if, indeed, there was any human agency involved in its creation, if it didn't just sort of materialize out of the software ether.
Both of these were made on a computer, same software, same Bézier curves, same font format.
We've found statistically significant improvement with children using this software in a mathematics class in comparison with a control group that did not have the software.
We use "release early, release often" on our software.
That reading is done by the computer’s processor, which uses the transistors’ states to control other computer devices according to software instructions.
When they’re read by your computer’s audio software, the numbers determine how quickly the coils in your speakers should vibrate to create sounds of different frequencies.
My friend Andy Cavatorta was building a robotic harp for Bjork's Biophilia tour and I wound up building the electronics and motion control software to make the harps move and play music.
But the thing that struck me about all of these different projects is that they really had to be built from scratch, down to the level of the electronics and the printed circuit boards and all the mechanisms all the way up to the software.
So the idea is that we get the speed and efficiency benefits of using these physical dials together with the flexibility and versatility of a system that's designed in software.
So we're just beginning to explore what's possible when we use software to control the movement of objects in our environment.
So I get some software and start reading it, and scan them, and it turns out it's a puzzle.
My team and I created our software, digitized and uploaded all possible real diaries and letters written by more than 3,000 people 100 years ago.
You've got your contacts list, your email, and probably 500 apps you've never used in your entire life, and behind all of this is the software, the code, that controls your phone, and somewhere, buried inside of that code, is a tiny piece that controls your battery, and that's what I'm really after, but all of this, just a bunch of ones and zeros, and it's all just mixed together.
Like you see in this video, every single one of those peaks corresponds to a mass, every mass to a molecule, and we can interrogate the software, by selecting each of those molecules, as to where they are present on a fingermark.
So step one ... for overlapping fingerprints, chances are, especially if they come from different individuals, that the molecular composition is not identical, so let's ask the software to visualize those unique molecules just present in one fingermark and not in the other one.
Before the Internet, if you remember, when we tried to create services, what you would do is you'd create the hardware layer and the network layer and the software and it would cost millions of dollars to do anything that was substantial.
So the Internet caused innovation, at least in software and services, to go from an MBA-driven innovation model to a designer-engineer-driven innovation model, and it pushed innovation to the edges, to the dorm rooms, to the startups, away from the large institutions, the stodgy old institutions that had the power and the money and the authority.
Doesn't this sound like a software thing?
It sounds like agile software development, A/B testing and iteration, and what we thought you could only do with software kids in Shenzhen are doing this in hardware.
This is a recent thing, but this will happen and this will change just like it did with software.
So it's happening in software and in hardware and bioengineering, and so this is a fundamental new way of thinking about innovation.
We could not have planned this whole thing, but by having a very strong compass, we eventually got to where we were going, and to me it's very similar to agile software development, but this idea of compasses is very important.
I spent months in Hollywood learning 3D animation software, and I spend months on each animation, and that's just time that most researchers can't afford.
But for that change to happen, we need more researchers creating animations, and toward that end, I brought together a team of biologists, animators and programmers to create a new, free, open-source software — we call it Molecular Flipbook — that's created just for biologists just to create molecular animations.
From our testing, we've found that it only takes 15 minutes for a biologist who has never touched animation software before to create her first molecular animation of her own hypothesis.
We're really excited to announce that the beta version of the molecular animation software toolkit will be available for download today.
And this is changing the way that we do science, changing the way that we do astronomy, to a place where software and algorithms have to mine through this data, where the software is as critical to the science as the telescopes and the cameras that we've built.
We wrote software that any scientist could use to analyze the data from Drop-seq experiments, and that software is also free, and it's been downloaded from our website 30,000 times in the past two years.
I was so moved by these results that I wanted to make these forests with the same acumen with which we make cars or write software or do any mainstream business, so I founded a company which is an end-to-end service provider to create these native natural forests.
Are we any better off as a society enshrining all the rules of the road into software?
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