The Spanning Tree Protocol that Perlman designed in the early 1980s is a marvelous case study in network protocol design. I’d have to remind myself that I was also that 'other gender.'" “I’d notice that it kind of looked weird…this other gender person looking curiously out of place in the crowd. In an interview with The Atlantic several years ago, Perlman recalled that women were so scarce on the MIT campus that she’d find herself startled when she encountered another woman in her classes. “When I learned to program a few years later, I realized it was fun and not difficult, but this experience made me understand the sense of panic that can cause someone perfectly capable of learning something to fail because they believe they cannot do it.” Shortly after that unpromising taste of programming at Stevens, Perlman enrolled as an undergrad at MIT, one of only 50 women in a freshman class of roughly a thousand. If someone had asked me what I was interested in doing, I would have said: Oh anything, as long as it's reasonably interesting-and as long as it doesn't involve computers,” she adds. I got nothing out of that class because I felt I was so many years behind, I’d never catch up. I had no idea what that meant, and so my mind shut down. “And then they were asking questions with fancy words, like input. I had no idea what a ham radio was,” she recalls. “Everyone was bragging about how they had built ham radios when they were seven.
#Radia perlman awards software
But if US Patent #7339900 is only part of the story of the network revolution-one of many patented breakthroughs that have long been neglected by the very people who benefit from them-it does stand out from the pack in one crucial respect: it is probably the only software patent on record that features a poem. Radia Perlman contributed more than her fair share of those pieces over her long career-and probably did as much as anyone to explain how stable networks worked, teaching a whole generation of network designers in her wake. That architecture was the product of many minds, each contributing small pieces to the puzzle that over time has given us the network stability that the entire world depends on. We tend to focus on the glittery applications that we interact with directly-TikTok and Chrome and Spotify-but all those apps would be worthless without the quiet miracle of stable network architecture, seamlessly connecting servers and routers all around the world. (You can read more about Greenberg's take on SDN for the Cloud in his Microsoft blog post.Our understanding of networks-how to make them stable, self-correcting, efficient-is a remarkably young science, given how much the modern world now relies on the consistent flow of information across them. He earned the SIGCOMM Award for " pioneering the theory and practice of operating carrier and datacenter networks."Īt SIGCOMM 2015, the annual conference of the Association for Computing Machinery (ACM) Special Interest Group on Data Communication (SIGCOMM), Greenberg delivered his keynote address on the topic of "SDN for the Cloud." In other words, how software-defined networking powers Microsoft's Azure cloud platform. Greenberg has been a distinguished engineer and director of development for Microsoft Azure Networking for the past 5 years, and before that, was a principal researcher for Microsoft Research. Last week was a big one for Microsoft's Albert Greenberg: The networking expert delivered the keynote address at SIGCOMM 2015 in London AND received the annual SIGCOMM Award, recognizing lifetime contribution to the field of communication networks. Microsoft's Albert Greenberg (right) receives Lifetime Achievement Award at ACM SIGCOMM in London
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