Difference between revisions of "The NaplesPU Hardware architecture"
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* [[Core|nu+ core architecture]] | * [[Core|nu+ core architecture]] | ||
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'''Single Core''': | '''Single Core''': | ||
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* TODO [[SC|Cache Controller]] | * TODO [[SC|Cache Controller]] | ||
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* TODO [[SC| IO Devices]] | * TODO [[SC| IO Devices]] | ||
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'''Many Core''': | '''Many Core''': | ||
Revision as of 17:03, 25 March 2019
TODO: aggiungere riferimento alla configurazione single core
The nu+ manycore is a parametrizable regular mesh Network on Chip (NoC) of configurable tile, developed by CeRICT in the framework of the MANGO FETHPC project. The main objective of nu+ is to enable resource-efficient HPC based on special-purpose customized hardware. Our aim is to build an application-driven architecture to achieve the best hardware/software configuration for any data-parallel kernel. Specialized data-parallel accelerators have been known to provide higher efficiency than general-purpose processors for codes with significant amounts of regular data-level parallelism (DLP). However every parallel kernel has its own ideal configuration.
Each nu+ tile has the same basic components, it provides a configurable GPU-like open-source soft-core meant to be used as a configurable FPGA overlay. This HPC-oriented accelerator merges the SIMT paradigm with vector processor model. Furthermore, each tile has a Cache Controller and a Directory Controller, those components handle data coherence between different cores in different tiles.
TODO: manca synchronization_core (ed io_interface?)
TODO: aggiungere figura architettura single core
User design can set an high number of parameter for every need, such as:
- NoC topology and Tile number.
- Threads per core number. Each thread has a different PC, so one core can executes as many program as many threads it has.
- Hardware lanes per thread. Each thread can be a vector operation (here called hardware lane).
- Register file size (scalar and vector).
- L1 and L2 cache size and way number.
There are all the hardware main section. Each of them covers important aspects of the hardware.
Hardware features
TODO: descrivere tutte le feature offerte dal core (thread, lanes, scratchpad, sincronizzazione, interfaccia di IO), la cui implementazione e' dettagliata poi nella pagina Core architecture o nelle pagine specifiche
Hardware sections
Include:
- TODO descrivere include
Common:
Single Core:
- TODO Cache Controller
- TODO Synchronization
- TODO Logger
- TODO IO Devices
Many Core:
Deploy:
- TODO System interface descrizione dettagliata interfaccia item (comandi, console) e memoria
- TODO System deployment descrizione uart_router, memory_controller, con riferimento a template nexys4ddr
Testbench:
- TODO Link al lavoro di Andrea
