Francesco Minervini scite author profile

Francesco Minervini

2Publications

21Citation Statements Received

5Citation Statements Given

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Affiliations

Barcelona Supercomputing Center

Publications

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Vitruvius+: An Area-Efficient RISC-V Decoupled Vector Coprocessor for High Performance Computing Applications

Minervini

Palomar²,

Ünsal

et al. 2023

ACM Trans. Archit. Code Optim.

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The maturity level of RISC-V and the availability of domain-specific instruction set extensions, like vector processing, make RISC-V a good candidate for supporting the integration of specialized hardware in processor cores for the High Performance Computing (HPC) application domain. In this paper, we present Vitruvius+, the vector processing acceleration engine which represents the core of vector instruction execution in the HPC challenge that comes within the EuroHPC initiative. It implements the RISC-V vector extension (RVV) 0.7.1 and can be easily connected to a scalar core using the Open Vector Interface (OVI) standard. Vitruvius+ natively supports long vectors: 256 Double Precision (DP) floating-point elements in a single vector register. It is composed of a set of identical vector pipelines (lanes), each containing a slice of the Vector Register File (VRF) and functional units (one integer, one floating-point). The vector instruction execution scheme is hybrid in-order/out-of-order and is supported by register renaming and arithmetic/memory instruction decoupling. On a standalone synthesis, Vitruvius+ reaches a maximum frequency of 1.4 GHz in typical conditions (TT/0.80V/25°C) using GlobalFoundries 22FDX FD-SOI. The silicon implementation has a total area of 1.3 mm 2 and maximum estimated power of ∼ 920 mW for one instance of Vitruvius+ equipped with eight vector lanes.

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DVINO: A RISC-V Vector Processor Implemented in 65nm Technology

Cabo

Candon

Carril

et al. 2022

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This paper describes the design, verification, implementation and fabrication of the Drac Vector IN-Order (DVINO) processor, a RISC-V vector processor capable of booting Linux jointly developed by BSC, CIC-IPN, IMB-CNM (CSIC), and UPC. The DVINO processor includes an internally developed two-lane vector processor unit as well as a Phase Locked Loop (PLL) and an Analog-to-Digital Converter (ADC). The paper summarizes the design from architectural as well as logic synthesis and physical design in CMOS 65nm technology.

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