Impact of Parallelism and Memory Architecture on FPGA Communication Energy.
Edin KadricDavid LakataAndré DeHonPublished in: ACM Trans. Reconfigurable Technol. Syst. (2016)
Keyphrases
- level parallelism
- multithreading
- processing elements
- hardware architecture
- computational power
- hardware implementation
- hardware architectures
- parallel architecture
- software implementation
- real time
- associative memory
- communication protocol
- shared memory
- parallel processing
- parallel computing
- fpga implementation
- computing power
- hardware design
- total energy
- digital signal processors
- management system
- dedicated hardware
- memory bandwidth
- memory access
- fpga technology
- single instruction multiple data
- energy saving
- data flow
- xilinx virtex
- memory management
- state information
- communication protocols
- communication networks
- field programmable gate array
- pipelined architecture
- signal processing
- data acquisition
- energy consumption
- storage devices
- real time image processing
- instruction set
- memory hierarchy
- parallel hardware
- tcp ip
- high speed
- systolic array
- massively parallel
- interprocess communication
- general purpose processors
- data transfer
- parallel computers
- parallel computation