Teechan: Payment Channels Using Trusted Execution Environments

Blockchain protocols are inherently limited in transaction throughput and latency. Recent efforts to address performance and scale blockchains have focused on off-chain payment channels. While such channels can achieve low latency and high throughput, deploying them securely on top of the Bitcoin bl...

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Veröffentlicht in:	arXiv.org 2017-03
Hauptverfasser:	Lind, Joshua, Ittay Eyal, Pietzuch, Peter, Emin Gün Sirer
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Sprache:	eng
Schlagworte:	Channels Cryptography Digital currencies Network latency Protocol (computers)
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creator	Lind, Joshua Ittay Eyal Pietzuch, Peter Emin Gün Sirer
description	Blockchain protocols are inherently limited in transaction throughput and latency. Recent efforts to address performance and scale blockchains have focused on off-chain payment channels. While such channels can achieve low latency and high throughput, deploying them securely on top of the Bitcoin blockchain has been difficult, partly because building a secure implementation requires changes to the underlying protocol and the ecosystem. We present Teechan, a full-duplex payment channel framework that exploits trusted execution environments. Teechan can be deployed securely on the existing Bitcoin blockchain without having to modify the protocol. It: (i) achieves a higher transaction throughput and lower transaction latency than prior solutions; (ii) enables unlimited full-duplex payments as long as the balance does not exceed the channel's credit; (iii) requires only a single message to be sent per payment in any direction; and (iv) places at most two transactions on the blockchain under any execution scenario. We have built and deployed the Teechan framework using Intel SGX on the Bitcoin network. Our experiments show that, not counting network latencies, Teechan can achieve 2,480 transactions per second on a single channel, with sub-millisecond latencies.
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subjects	Channels Cryptography Digital currencies Network latency Protocol (computers)
title	Teechan: Payment Channels Using Trusted Execution Environments
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