支持扩展和早期协同设计的软件开发工具:RISC-V和HPC案例研究

Filippo Mantovani, Pablo Vizcaino, Fabio Banchelli, Marta Garcia-Gasulla, Roger Ferrer, Giorgos Ieronymakis, Nikos Dimou, Vassilis Papaefstathiou, Jesus Labarta
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摘要

采用中低技术准备水平(TRL)系统的HPC系统原型对于向硬件设计人员、系统软件团队(例如编译器开发人员)和科学界的早期采用者提供反馈至关重要。硬件设计和HPC系统原型的典型方法通常会限制反馈,或者只在后期阶段允许反馈。在本文中,我们提出了一套用于协同设计HPC系统的工具,称为软件开发工具(SDV)。我们使用创新的RISC-V设计作为演示,其中包括一个标量CPU和一个矢量处理单元,能够处理高达16 kb的大矢量。我们提供了一种渐进的方法和早期的共同设计过程的切实证据,在系统开发的早期阶段提供反馈以改进架构和系统软件。
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Software Development Vehicles to enable extended and early co-design: a RISC-V and HPC case of study
Prototyping HPC systems with low-to-mid technology readiness level (TRL) systems is critical for providing feedback to hardware designers, the system software team (e.g., compiler developers), and early adopters from the scientific community. The typical approach to hardware design and HPC system prototyping often limits feedback or only allows it at a late stage. In this paper, we present a set of tools for co-designing HPC systems, called software development vehicles (SDV). We use an innovative RISC-V design as a demonstrator, which includes a scalar CPU and a vector processing unit capable of operating large vectors up to 16 kbits. We provide an incremental methodology and early tangible evidence of the co-design process that provide feedback to improve both architecture and system software at a very early stage of system development.
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