Breaking the O(n~2) Bit Barrier: Scalable Byzantine Agreement with an Adaptive Adversary

机译：打破O（n〜2）位屏障：可扩展的拜占庭协议与自适应对手

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We describe an algorithm for Byzantine agreement that is scalable in the sense that each processor sends only O(n~(2/1)) bits, where n is the total number of processors. Our algorithm succeeds with high probability against an adaptive adversary, which can take over processors at any time during the protocol, up to the point of taking over arbitrarily close to a 1/3 fraction. We assume synchronous communication but a rushing adversary. Moreover, our algorithm works in the presence of flooding: processors controlled by the adversary can send out any number of messages. We assume the existence of private channels between all pairs of processors but make no other cryptographic assumptions. Finally, our algorithm has latency that is polylogarithmic in n. To the best of our knowledge, ours is the first algorithm to solve Byzantine agreement against an adaptive adversary, while requiring o(n~2) total bits of communication.

机译：我们描述了一种符合拜占庭协议的算法，它可以在每个处理器仅发送O（n〜（2/1））位，其中n是处理器的总数。我们的算法成功地具有对适应性对手的高概率，这可以在协议期间随时接管处理器，直到接近1/3分数的任意接近的程度。我们假设同步通信，而是一个匆忙的对手。此外，我们的算法在洪水的存在下工作：由对手控制的处理器可以发出任何数量的消息。我们假设在所有处理器对之间存在私人频道，但没有其他加密假设。最后，我们的算法具有延迟在n中是polygarithicic。据我们所知，我们的是第一批解决自适应对手的拜占庭协议的算法，同时需要O（n〜2）总比特的沟通。

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《ACM symposium on principles of distributed computing》|2010年||共10页
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Valerie King; Jared Saia;
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中图分类一般性问题;
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byzantine agreement; consensus; samplers; peer-to-peer; secret-sharing; monte carlo algorithms; distributed computing;

机译：拜占庭协议;共识;采样器;peer-to-peer;秘密共享;蒙特卡洛算法;分布式计算;

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专利

1. Breaking the O ri Bit Barrier: Scalable Byzantine Agreement with an Adaptive Adversary [J] . VALERIE KING, JARED SAIA Journal of the Association for Computing Machinery . 2011,第4期

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2. Lower bound for scalable Byzantine Agreement [J] . Dan Holtby, Bruce M. Kapron, Valerie King Distributed Computing . 2008,第4期

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3. Broad scale agreement between intertidal habitats and adaptive traits on a basis of contrasting population genetic structure [J] . G.I. Zardi, K.R. Nicastro, J. Ferreira Costa, Estuarine Coastal and Shelf Science . 2013,第octa10期

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4. Breaking the O(n~2) Bit Barrier: Scalable Byzantine Agreement with an Adaptive Adversary [C] . Valerie King, Jared Saia PODC'10 : Proceedings of the 2010 ACM symposium on principles of distributed computing . 2010

机译：打破O（n〜2）位障碍：具有自适应对手的可扩展拜占庭协议
5. Part I. Design of a novel class of reversible non-covalent small molecule inhibitors for human Granzyme B (hBrB) Part II. Curcumin and mimics as proteasome inhibitors Part III. Design of novel coactivator binding inhibitors (CBIs) for the estrogen receptor alpha: Break the 1muM barrier. [D] . Kim, Mi-Sun. 2012

机译：第一部分。设计用于人类颗粒酶B（hBrB）的新型可逆非共价小分子抑制剂。第二部分。姜黄素和模拟物作为蛋白酶体抑制剂第三部分。新型的针对雌激素受体α的共激活因子结合抑制剂（CBI）的设计：打破1μM的障碍。
6. Multi-Party Quantum Byzantine Agreement without Entanglement [O] . Xin Sun, Piotr Kulicki, Mirek Sopek 2020

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7. Breaking the O(n^2) Bit Barrier: Scalable Byzantine agreement with an Adaptive Adversary [O] . King, Valerie, Saia, Jared 2010

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8. Extending Binary Byzantine Agreement to Multivalued Byzantine Agreement [R] . Coan, B. A., Turpin, R. 1984

机译：将二元拜占庭协议扩展到多元拜占庭协议

Breaking the O(n~2) Bit Barrier: Scalable Byzantine Agreement with an Adaptive Adversary

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