2,871 research outputs found
ASAM : Automatic Architecture Synthesis and Application Mapping; dl. 3.2: Instruction set synthesis
No abstract
HERO: Heterogeneous Embedded Research Platform for Exploring RISC-V Manycore Accelerators on FPGA
Heterogeneous embedded systems on chip (HESoCs) co-integrate a standard host
processor with programmable manycore accelerators (PMCAs) to combine
general-purpose computing with domain-specific, efficient processing
capabilities. While leading companies successfully advance their HESoC
products, research lags behind due to the challenges of building a prototyping
platform that unites an industry-standard host processor with an open research
PMCA architecture. In this work we introduce HERO, an FPGA-based research
platform that combines a PMCA composed of clusters of RISC-V cores, implemented
as soft cores on an FPGA fabric, with a hard ARM Cortex-A multicore host
processor. The PMCA architecture mapped on the FPGA is silicon-proven,
scalable, configurable, and fully modifiable. HERO includes a complete software
stack that consists of a heterogeneous cross-compilation toolchain with support
for OpenMP accelerator programming, a Linux driver, and runtime libraries for
both host and PMCA. HERO is designed to facilitate rapid exploration on all
software and hardware layers: run-time behavior can be accurately analyzed by
tracing events, and modifications can be validated through fully automated hard
ware and software builds and executed tests. We demonstrate the usefulness of
HERO by means of case studies from our research
MGSim - Simulation tools for multi-core processor architectures
MGSim is an open source discrete event simulator for on-chip hardware
components, developed at the University of Amsterdam. It is intended to be a
research and teaching vehicle to study the fine-grained hardware/software
interactions on many-core and hardware multithreaded processors. It includes
support for core models with different instruction sets, a configurable
multi-core interconnect, multiple configurable cache and memory models, a
dedicated I/O subsystem, and comprehensive monitoring and interaction
facilities. The default model configuration shipped with MGSim implements
Microgrids, a many-core architecture with hardware concurrency management.
MGSim is furthermore written mostly in C++ and uses object classes to represent
chip components. It is optimized for architecture models that can be described
as process networks.Comment: 33 pages, 22 figures, 4 listings, 2 table
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