没有更可靠的太空纸浆系统了

Markus Ulbricht, Yvan Tortorella, Michael Rogenmoser, Li Lu, Junchao Chen, Francesco Conti, M. Krstic, L. Benini
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引用次数: 0

摘要

由于其灵活性和开放性,RISC-V ISA和处理器架构已成为各种应用领域的重要竞争者。它们相对于商业解决方案的优势吸引了学术界和工业界的兴趣,甚至导致了它们在航空航天领域的计划采用。然而,在这些苛刻的环境中,系统可靠性是至关重要的。为了解决这个问题,本文概述了几种基于并行超低功耗(PULP)开源RISC-V硬件平台开发可靠系统的以硬件为中心的方法。这些方法的范围从门级优化到系统级改进,突出了PULP体系结构的多功能性及其作为开发各种航空航天平台的可行体系结构的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PULP Fiction No More—Dependable PULP Systems for Space
Due to their flexibility and openness, the RISC-V ISA and processor architectures have emerged as notable contenders in various application domains. Their advantages over commercial solutions have attracted the interest of academia and industry and even led to their planned adoption in aeronautics and space. However, in these demanding environments, system reliability is of paramount importance. To address this issue, this paper presents an overview of several hardware-centric approaches for developing reliable systems based on the parallel-ultra low power (PULP) open-source RISC-V hardware platform. These approaches range from gate-level optimizations to system-level improvements and highlight the versatility of the PULP architecture and its potential as a viable architecture for developing various aerospace platforms.
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