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The transistors that power the phone in your pocket are unimaginably small: you can fit more than 3,000 of them across the width of a human hair. But to keep up with innovations in fields like facial recognition and augmented reality, we need to pack even more computing power into our computer chips -- and we're running out of space. In this forward-thinking talk, technology developer Karl Skjonnemand introduces a radically new kind of way to create chips. "This could be the dawn of a new era of molecular manufacturing," Skjonnemand says. Hosted on Acast. See acast.com/privacy for more information.
The transistors that power the phone in your pocket are unimaginably small: you can fit more than 3,000 of them across the width of a human hair. But to keep up with innovations in fields like facial recognition and augmented reality, we need to pack even more computing power into our computer chips -- and we're running out of space. In this forward-thinking talk, technology developer Karl Skjonnemand introduces a radically new way to create chips. "This could be the dawn of a new era of molecular manufacturing," Skjonnemand says.
Los transistores que alimentan el teléfono en tu bolsillo son inimaginablemente pequeños: puedes poner más de 3000 de ellos en todo el ancho de un cabello humano. Pero para mantenernos al día con las innovaciones en campos como el reconocimiento facial y la realidad aumentada, necesitamos incluir aún más potencia informática en nuestros chips de computadora, y nos estamos quedando sin espacio. En esta charla con visión de futuro, el desarrollador de tecnología Karl Skjonnemand introduce una forma radicalmente nueva de crear chips. "Esto podría ser el comienzo de una nueva era de fabricación molecular", dice Skjonnemand.
Os transistores que alimentam o telefone no seu bolso são inimaginavelmente pequenos: você pode colocar mais de 3 mil deles na largura de um fio de cabelo humano. Mas para acompanhar as inovações em campos como reconhecimento facial e realidade aumentada, precisamos incluir ainda mais poder de computação em nossos chips de computador, e estamos ficando sem espaço. Nesta palestra inovadora, o desenvolvedor de tecnologia Karl Skjonnemand introduz uma maneira radicalmente nova de criar chips. "Este poderia ser o alvorecer de uma nova era de fabricação molecular", diz Skjonnemand.
Les transistors qui font marcher vos portables dans vos poches sont incroyablement petits : on peut en insérer plus de 3 000 sur la largeur d'un cheveu humain. Cependant, pour suivre les innovations telles que la reconnaissance faciale et la réalité augmentée, on doit employer encore plus de capacité informatique pour les puces de nos ordinateurs - et on n'a presque plus d'espace. Dans ce discours visionnaire, Karl Skjonnemand, développeur technologique, introduit une manière radicale et nouvelle de créer des puces. « Cela pourrait représenter l'aube d'une nouvelle ère pour la fabrication moléculaire,» affirme Skjonnemand.