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When Meiklejohn began faculty at Brown in 2004, she found cryptography. This department of pc science appealed on to her puzzle habit—what was an encryption system, in any case, however one other secret language demanding to be deciphered?
There was a maxim in cryptography, sometimes called Schneier’s regulation after the cryptographer Bruce Schneier. It asserted that anybody can develop an encryption system intelligent sufficient that they’ll’t themselves consider a option to break it. But, like all the most effective conundrums and mysteries that had fascinated Meiklejohn since childhood, one other particular person with a distinct manner of approaching a cipher may take a look at that “unbreakable” system and see a option to crack it and unspool a complete world of decrypted revelations.
Learning the science of ciphers, Meiklejohn started to acknowledge the significance of privateness and the necessity for surveillance-resistant communications. She was not fairly a cypherpunk: The mental enchantment of constructing and breaking codes drove her greater than any ideological drive to defeat surveillance. However like many cryptographers, she nonetheless got here to consider within the want for really unbreakable encryption, applied sciences that might carve out an area for delicate communications—whether or not dissidents organizing towards a repressive authorities or whistleblowers sharing secrets and techniques with journalists—the place no snoop may attain. She credited her intuitive acceptance of that precept to her years as a teen who saved to herself, making an attempt to keep up her personal privateness in a Manhattan condominium, with a federal prosecutor for a mom.
Meiklejohn confirmed actual expertise as a cryptographer and shortly turned an undergraduate educating assistant to Anna Lysyanskaya, a superb and extremely completed pc scientist. Lysyanskaya had herself studied underneath the legendary Ron Rivest, whose title was represented by the R within the RSA algorithm that fashioned the idea for many fashionable encryption, used all over the place from internet browsers to encrypted e mail to prompt messaging protocols. RSA was one of many few elementary encryption protocols that had not succumbed to Schneier’s regulation in additional than 30 years.
Lysyanskaya was on the time engaged on a pre-Bitcoin cryptocurrency referred to as eCash, first developed within the Nineties by David Chaum, a cryptographer whose groundbreaking work on anonymity programs had made potential applied sciences from VPNs to Tor. After ending her undergraduate diploma, Meiklejohn started a grasp’s diploma at Brown underneath Lysyanskaya’s wing, researching strategies to make Chaum’s eCash, a very nameless fee system, extra scalable and environment friendly.
The cryptocurrency scheme they have been laboring to optimize was, Meiklejohn admits in hindsight, tough to think about working in observe. Not like Bitcoin, it had a major problem: An nameless spender of eCash may primarily forge a coin and cross it off to an unsuspecting recipient. When that recipient deposited the coin at a type of eCash financial institution, the financial institution may carry out a verify that may reveal the coin to be a forgery and the fraudster’s anonymity protections may very well be stripped away to disclose the identification of the dangerous actor. However by then, the fraudster may need already run off with their ill-gotten items.
Nonetheless, eCash had a novel benefit that made it an interesting system to work on: The anonymity it provided was really uncrackable. Actually, eCash was primarily based on a mathematical method referred to as zero-knowledge proofs, which may set up the validity of a fee with out the financial institution or recipient studying anything in any respect in regards to the spender or their cash. That mathematical sleight of hand meant that eCash was provably safe. Schneier’s regulation didn’t apply: No quantity of cleverness or computing energy would ever be capable of undo its anonymity.
“You could possibly by no means show something in regards to the privateness properties of this technique,” Meiklejohn remembers considering. “If you happen to don’t get privateness, what do you get?”
When Meiklejohn first heard about Bitcoin in 2011, she had began her PhD research at UCSD however was spending the summer time as a researcher at Microsoft. A good friend on the College of Washington had talked about to her that there was a brand new digital fee system that folks have been utilizing to purchase medication on websites just like the Silk Highway. Meiklejohn had moved on from her eCash research by then; she was busy with different analysis—programs that may enable individuals to pay highway tolls with out revealing their private actions, as an example, and a thermal digicam method that exposed PIN codes typed into an ATM by in search of warmth remnants on the keypad. So, with heads-down focus, she filed Bitcoin’s existence away in her mind, barely contemplating it once more for the following 12 months.
Then, someday on a UCSD pc science division group hike in late 2012, a younger UCSD analysis scientist named Kirill Levchenko steered to Meiklejohn that maybe they need to begin wanting into this burgeoning Bitcoin phenomenon. Levchenko was fascinated, he defined as they trekked across the jagged panorama of the Anza Borrego Desert State Park, by Bitcoin’s distinctive proof-of-work system. That system demanded that anybody who wished to mine the foreign money expend huge computing sources performing calculations— primarily an unlimited, automated puzzle-solving competitors—whose outcomes have been then copied into transactions on the blockchain. By then, bold bitcoiners have been already growing customized mining microprocessors only for producing this unusual new type of cash, and Bitcoin’s ingenious system meant that any single dangerous actor who would possibly wish to write a false transaction into the blockchain must use a set of computer systems that possessed extra computational energy than all these many hundreds of miners. It was a superb method that added as much as a safe foreign money with no central authority.
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