A scalable, serially-equivalent, high-quality parallel placement methodology suitable for modern multicore and GPU architectures.
Christian FobelGary William GrewalDeborah StaceyPublished in: FPL (2014)
Keyphrases
- parallel programming
- graphics processing units
- high quality
- multi core processors
- parallel architectures
- shared memory
- multicore processors
- parallel computing
- parallel computation
- parallel processing
- parallel implementation
- multi threaded
- general purpose
- highly parallel
- parallel algorithm
- commodity hardware
- memory management
- massively parallel
- level parallelism
- multi processor
- single instruction multiple data
- cluster of workstations
- real time
- parallel execution
- high end
- gpu implementation
- cell processor
- media processing
- parallel computers
- computing power
- high performance computing
- message passing
- low quality
- higher quality
- compute unified device architecture
- parallel hardware
- memory bandwidth
- programming environment
- cloud computing
- image quality
- computer architecture
- graphics hardware
- floating point
- lightweight
- highly scalable
- depth map
- ground truth
- memory efficient