平行几何学:经典、概率和量子效应

Ugo Dal Lago, C. Faggian, B. Valiron, Akira Yoshimizu
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引用次数: 36

摘要

我们介绍了一个用于高阶量子计算的交互几何模型,并证明了它对于完全成熟的量子编程语言的充足性,其中纠缠、重复和递归都是可用的。该模型是一个新框架的实例,它不仅可以捕获量子计算,还可以捕获经典和概率计算。它的主要特点是能够模拟并行设置中的交换效应。我们的模型带有一个多令牌机、一个证明网络系统和一种风格语言。由于它基于配备内存的多令牌机,因此具有具体的性质,这使得它非常适合构建高阶语言的低级操作描述。
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The geometry of parallelism: classical, probabilistic, and quantum effects
We introduce a Geometry of Interaction model for higher-order quantum computation, and prove its adequacy for a fully fledged quantum programming language in which entanglement, duplication, and recursion are all available. This model is an instance of a new framework which captures not only quantum but also classical and probabilistic computation. Its main feature is the ability to model commutative effects in a parallel setting. Our model comes with a multi-token machine, a proof net system, and a -style language. Being based on a multi-token machine equipped with a memory, it has a concrete nature which makes it well suited for building low-level operational descriptions of higher-order languages.
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