Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
🚨 Google Quantum result was just rediscovered and IMPROVED! On March 31, 2026, Google Quantum AI published a paper showing that 256-bit ECDLP, the hard problem behind ECDSA and therefore behind Bitcoin, Ethereum, TLS, and most of the world's authentication, can be solved with fewer than 1,200 logi
Educate yourself about Quantum @Google found a huge 10x speedup to break Bitcoin/Ethereum signatures, but hid the details with a secret “zero-knowledge proof” after talking to the US government. A French researcher quickly rediscovered it anyway, and a public challenge has already improved it furt
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
🚨 Google Quantum result was just rediscovered and IMPROVED! On March 31, 2026, Google Quantum AI published a paper showing that 256-bit ECDLP, the hard problem behind ECDSA and therefore behind Bitcoin, Ethereum, TLS, and most of the world's authentication, can be solved with fewer than 1,200 logi
以太坊基金会研究员 Justin Drake 发文称,Google Quantum AI 团队 3 月 31 日发布的 Shor 算法论文,对椭圆曲线密码学攻击效率实现约 10 倍改进,并以比特币、以太坊签名所使用的 secp256k1 曲线作为示例。Drake 称,论文部分优化细节以零知识证明方式隐藏,随后法国量子专家 André Schrottenloher 已重新发现其中关键优化,社�区发起的 ecdsa fail 挑战也在数小时内刷新 Shor 算法相关纪录。 https://t.co/Nninjjb41k
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
My turn to call out quantum FUD. The new “we improved on Google’s Bitcoin-breaking quantum circuit” story is, in my view, a nothingburger. Roughly: Google obscured details of a particular circuit. Researchers reverse-engineered it and found a more efficient way to describe/optimize that circuit.
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
My turn to call out quantum FUD. The new “we improved on Google’s Bitcoin-breaking quantum circuit” story is, in my view, a nothingburger. Roughly: Google obscured details of a particular circuit. Researchers reverse-engineered it and found a more efficient way to describe/optimize that circuit.
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block
My turn to call out quantum FUD. The new “we improved on Google’s Bitcoin-breaking quantum circuit” story is, in my view, a nothingburger. Roughly: Google obscured details of a particular circuit. Researchers reverse-engineered it and found a more efficient way to describe/optimize that circuit.
RT @drakefjustin: Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor…
One of the coolest things I've seen in a while (h/t @eigenlabs), and the clearest demonstration yet that AI is pulling Q-Day forward: a crowdsourced, open-research competition to optimize the Google ECDLP circuit, the best known approach for breaking ECDSA with a quantum computer. In March, Google
Open agents just broke Google’s closed quantum benchmark in public. ECDSA. Google’s quantum circuit. Post-quantum future. @sreeramkannan and @bbuddha_xyz from @eigenlabs will be joining @MTSlive to break it down shortly.
Open agents just broke Google’s closed quantum benchmark in public. ECDSA. Google’s quantum circuit. Post-quantum future. @sreeramkannan and @bbuddha_xyz from @eigenlabs will be joining @MTSlive to break it down shortly.
Today a crazy quantum story just got wilder. On March 31, the Google Quantum AI team published a landmark result on Shor's algorithm for elliptic curve cryptography. Technically, the paper was a bombshell: a dramatic 10x improvement over the state-of-the-art. As a stunt and wakeup call to the block