By Greg Hester, Wired contributorGreg Hester has spent the past few years studying the evolution of the CMU-funded Computer Measurement Lab (CML) in Cambridge, Massachusetts, and he has found that the CML has been one of the most exciting labs to work in.
Hester has been a researcher at CML since 2007 and is now a faculty member at the university.
In 2016, he co-authored a book, The CML and the Data Revolution, which examined how CML was changing the way we think about computing and what it might mean for researchers, students, and the public.
It has been published as a book in April 2017 by MIT Press, and will be released in the US on May 1, 2018.
I spoke with Hester about the impact of CML on the world of computing, what the next 10 years could hold, and what’s at stake if the lab’s future is cut short.
How long have you been working at CMU?
I was born in Massachusetts, so my family moved to Cambridge when I was 3 years old.
I spent most of my childhood there.
I’ve lived in Cambridge for about 25 years.
What did you study there?
The CML is a computer research laboratory.
I worked there for five years and then I moved to MIT and joined the faculty of the Computer Science department.
What CML does is it helps us understand how computers work.
CML also studies the ways that people are using computers.
It’s a research lab, and I started to focus on the ways we use computers, how they interact with each other, how we’re able to create information.
How do we understand the world and how do we make things better?CML has really been a great place to work.
We’re building things that are really important for the world.
The world is changing, and that’s why we have this opportunity to work on really exciting new things.
What I love about CML, in the past, was that it’s a very collaborative place, and there’s a really great community of people working on a wide range of projects.
What we’re doing at CMG is a combination of the two.
How can we make it more collaborative and allow everyone to participate in the research?CMG is really a collaboration space.
You’ve got a lot of different teams.
What you do is you have a team of people who are really focused on building the kind of machine that you want to build.
You also have a group of people that are working on different kinds of machine, because you’ve got different kinds the sensors, the things that people can put in their cars, the software that is being developed for different kinds.CMG has a lot to offer in the form of new and different things.
CMU has a really unique position.
We have a really strong research focus, which means that we’re very, very collaborative.
We also have an emphasis on research.
If we can do some new things, and we’re not using the existing hardware, we can take advantage of new technologies.
I think that’s what people really like about CMU.
It’s a pretty unique place to do research.
What are some of the things you’re interested in?
I’m interested in a lot more of the world than just the United States, so that’s kind of the thing that really draws me.
I also love the fact that there’s this very strong community of researchers there, where we have these very strong and passionate communities.
What that means is that we can get things done in a way that’s not necessarily the way that we might have done it in other places.
We have the hardware that’s in place, but we don’t have the software.
The problem with that is that there are different technologies and different architectures.
For instance, we have some of our chips that are based on the same technology, but they have different architectures, so they don’t all have the same memory capacity.
There are also different kinds and kinds of processors.
For example, the CMG chips are based around ARM processors, which are very high-end chips.
The CMU chips are the low-end processors.
What’s the problem with those?
They’re a lot slower, because they’re based on ARM.
We need to have the right architecture, because it’s not like you have this huge amount of power that can go into one chip and have it all run smoothly.
It needs to have a certain amount of speed and we need to make sure that it can do that.CMU’s got a great team and a really nice culture.
What kinds of things are you interested in doing?CMU has been able to bring the CMP [Computer Performance] project to a whole new level.
I really like the fact, because we’ve got an incredibly talented team, that we have a very strong culture there, that there is a really solid set of people and a good