Current and near-future quantum computers face resource limitations due to noise and low qubit counts. Despite this, effective quantum advantage can still be achieved due to the exponential nature of bit-to-qubit conversion. However, optimizing the software architecture of these systems is essential to utilize available resources efficiently. Unfortunately, the focus on user-friendly quantum computers has obscured critical steps in the software stack, leading to ripple effects into the stack's upper layer induced by limitations in current qubit implementations. This paper unveils the hidden interplay among layers of the quantum software stack.

翻译：当前及近期量子计算机因噪声和低量子比特数面临资源限制。尽管如此，由于比特到量子比特转换的指数特性，有效的量子优势仍可实现。然而，优化这些系统的软件架构对于高效利用现有资源至关重要。遗憾的是，对用户友好型量子计算机的专注掩盖了软件栈中的关键步骤，导致当前量子比特实现中的限制对栈上层产生连锁效应。本文揭示了量子软件栈各层之间隐藏的相互作用。