{"href":"https://api.simplecast.com/oembed?url=https%3A%2F%2Fweb3-with-a16z.simplecast.com%2Fepisodes%2Fintroducing-first-principles-6Z4SDz5u","width":444,"version":"1.0","type":"rich","title":" How Bitcoin Rewired a Classic Computer Science Problem (ft. Tim Roughgarden and Ittai Abraham)","thumbnail_width":300,"thumbnail_url":"https://image.simplecastcdn.com/images/3474b6a1-976c-4c75-8e63-e4ad3a3b354d/6d5e7801-f225-452e-9f3c-0df8a5e7f917/a16zcrypto-podcast-20-1.jpg","thumbnail_height":300,"provider_url":"https://simplecast.com","provider_name":"Simplecast","html":"<iframe src=\"https://player.simplecast.com/62a22282-e1cb-4766-9940-78e06f296ab1\" height=\"200\" width=\"100%\" title=\" How Bitcoin Rewired a Classic Computer Science Problem (ft. Tim Roughgarden and Ittai Abraham)\" frameborder=\"0\" scrolling=\"no\"></iframe>","height":200,"description":"Bitcoin often gets credited with inventing trustless consensus. It didn’t. \n\nThe problem was named decades earlier — in the world of distributed computing — and researchers spent years studying how machines could reach agreement even when some participants were faulty, adversarial, or corrupt. What Bitcoin did was something different: It solved a classic Byzantine agreement problem in a radically new, permissionless setting. And it took the research world years to fully recognize what Satoshi had done."}