Podcast appearances and mentions of dina zielinski

Original broadcast date: January 27, 2023. Information feels more accessible than ever, but the ways we store data are surprisingly fragile. Can we save anything forever? This hour, TED speakers explore preserving our past, present and future. Guests include artist CM Ralph, digital librarian Brewster Kahle, molecular biologist Dina Zielinski and archaeologist Chris Fisher.TED Radio Hour+ subscribers now get access to bonus episodes, with more ideas from TED speakers and a behind the scenes look with our producers. A Plus subscription also lets you listen to regular episodes (like this one!) without sponsors. Sign-up at plus.npr.org/ted.

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Information feels more accessible than ever, but the ways we store data are surprisingly fragile. Can we save anything forever? This hour, TED speakers explore preserving our past, present and future. Guests include artist CM Ralph, digital librarian Brewster Kahle, molecular biologist Dina Zielinski and archaeologist Chris Fisher.

THIS IS THE FUTURE OF STORAGEAs humankind progresses, the amount of data we produce and consume has been growing considerably. Gone are the days when a 1.44Mb floppy disk could fulfill our needs. This continual increase in data necessitates a more robust and durable data storage device. In a study published in the journal Science, Researchers Yaniv Erlich and Dina Zielinski demonstrated how DNA may be the answer to our data storage needs.

With more and more technology becoming obsolete, what’s the best way to archive our increasing data? Bioinformatician Dina Zielinski presents the science behind a solution that's been around for a few billion years: DNA. This talk was filmed at TEDxVienna. All TEDx events are organized independently by volunteers in the spirit of TED's mission of ideas worth spreading. To learn more about TEDxSHORTS, the TEDx program, or give feedback on this episode, please visit http://go.ted.com/tedxshorts. Follow TEDx on Twitter: https://twitter.com/TEDx Follow TEDx on Instagram: https://www.instagram.com/tedx_official/ Like TEDx on Facebook: https://www.facebook.com/TEDxEvents

From floppy disks to thumb drives, every method of storing data eventually becomes obsolete. What if we could find a way to store all the world's data forever? Bioinformatician Dina Zielinski shares the science behind a solution that's been around for a few billion years: DNA.

플로피 디스크부터 USB 메모리까지 데이터를 저장하는 모든 방법은 결국 쓸모없어지게 됩니다. 만약 이 세상의 모든 데이터를 영원히 저장하는 방법을 찾는다면 어떻게 될까요? 생물정보학자 디나 질린스키가 그 과학적 해법에 대해 이야기 합니다. 수십억 년 전부터 이미 존재해 온 그 해법은 바로, DNA입니다.

Desde los disquetes a las memorias USB, todo método de almacenamiento de datos se vuelve obsoleto eventualmente. ¿Y si pudiéramos encontrar una forma de almacenar todos los datos del mundo para siempre? La bioinformática Dina Zielinski nos muestra la ciencia detrás de una solución que ha existido durante algunos miles de millones de años: el ADN.

De disquetes a pendrives, todo método de armazenamento de dados acaba se tornando obsoleto. E se pudéssemos encontrar uma maneira de armazenar todos os dados do mundo para sempre? A bioinformática Dina Zielinski compartilha a ciência por trás de uma solução que existe há alguns bilhões de anos: o DNA.

Des disquettes aux clés USB, tous les supports de stockage de données finissent par devenir obsolètes. Et si on pouvait trouver une manière de stocker indéfiniment toutes les données du monde ? Dina Zielinski, bio-informaticienne, révèle la science qui se cache derrière une solution présente depuis quelques milliards d'années : l'ADN.

The world’s data are stored on millions of computers, or servers, that take up buildings’ worth of space and consume about as much electricity as France. How do we keep up with the increasing amount of data that we are generating? In this episode, we talk to bioinformatician Dina Zielinski about her unexpected solution: storing digital data on DNA.

Dina Zielinski from NY Genome talks about storing data using DNA – not traditional hard drives – and it's amazing what nature can do that human engineering (until now) can not. Losing data stored on flash drives, hard disks, USBs and on computer servers may become a thing of the past with DNA storage. At NY genome, Dina has successfully managed to encode and decode data stored onto a strand of DNA. Incredible, but true. This project has the possibility of storing 215,000 times more data in 1 gram of DNA, compared to a 1 Terabyte Hard Disk. Unfortunately, the process is not ready for commercial use, and encoding costing roughly $7,000. Decoding plus reading the data costing about $2,000, and a $9k price tag isn't viable. Will DNA storage ever be cost effective and retrievable quickly? That is for you to decide but don't forget how the first computer was even larger than the room you are in right now. The future holds great secrets for us to explore so stay in the know about future tech at futuretechpodcast.com. Make sure to review, subscribe and like us on Facebook and Twitter.