Despite its tremendous potential, it is still unclear how quantum computing will scale to satisfy the requirements of its most powerful applications. Among other issues, there are hard limits to the number of qubits that can be integrated into a single chip. Multicore architectures are a firm candidate for unlocking the scalability of quantum processors. Nonetheless, the vulnerability and complexity of quantum communications make this a challenging approach. A comprehensive design should imply consolidating the communications stack in the quantum computer architecture. In this article, we explain how this vision, by entangling communications and computation in the core of the design, may help to solve the open challenges. We also summarize the first results of our application of structured design methodologies backing this vision. With our work, we hope to contribute with design guidelines that may help unleash the potential of quantum computing.

中文翻译：

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用于多核量子计算机的双全栈通信架构

尽管具有巨大的潜力，但目前尚不清楚量子计算将如何扩展以满足其最强大应用程序的要求。除其他问题外，可以集成到单个芯片中的量子位数量存在硬性限制。多核架构是解锁量子处理器可扩展性的坚定候选者。尽管如此，量子通信的脆弱性和复杂性使其成为一种具有挑战性的方法。全面的设计应该意味着在量子计算机架构中整合通信堆栈。在本文中，我们将通过将通信和计算融入设计核心来解释这一愿景如何帮助解决开放性挑战。我们还总结了我们应用支持这一愿景的结构化设计方法的初步结果。通过我们的工作，